Obesity

A small, single-center randomized trial of patients with obesity and advanced type 2 diabetes, defined as diabetes for ≥ 5 years and A1c ≥ 7%, found that a quarter to a half of patients who had metabolic surgery had diabetes remission (cure) that lasted 5-9 years.

That is, of the 60 randomized patients, 50% who had biliopancreatic diversion and 25% who had Roux-en-Y gastric bypass – but none who had received current medical therapy – still had diabetes remission a decade later.

Until now, there had only been 5-year follow-up data from this and similar trials, Geltrude Mingrone, MD, PhD, and colleagues noted in the study published online Jan. 23 in The Lancet.

These results provide “the most robust scientific evidence yet that full-blown type 2 diabetes is a curable disease, not inevitably progressive, and irreversible,” senior author Francesco Rubino, MD, chair of bariatric and metabolic surgery at King’s College London, said in a statement from his institution.

“The results of this trial will make a noticeable difference in the field and convince even the most skeptical of clinicians about the role of metabolic surgery as part of optimal care for their patients with difficult to control type 2 diabetes,” predicted two editorialists.

Alexander D. Miras, PhD, section of metabolism, digestion, and reproduction, Imperial College London, and Carel le Roux, MBChB, PhD, of the Diabetes Complications Research Centre, University College Dublin, penned the accompanying commentary.

Patients who had metabolic surgery also had greater weight loss, reduced medication use, lower cardiovascular risk, better quality of life, and a lower incidence of diabetes-related complications compared with those who received medical therapy.

“Clinicians and policymakers should ensure that metabolic surgery is appropriately considered in the management of patients with obesity and type 2 diabetes,” advised Dr. Mingrone of King’s College London and the Catholic University of Rome, and colleagues.
 

“Reassuring results, will make a difference in the field”

“It is reassuring that we now have 10-year data showing greater efficacy of metabolic surgery than conventional medical therapy,” Dr. Miras and Dr. le Roux wrote in their commentary.

There were no unexpected risks associated with surgery, they noted, and the findings are consistent with those of 12 other randomized controlled trials in the past 12 years.

“New generations of diabetologists are now more open to the use of metabolic surgery for patients with suboptimal responses to medical treatments,” they wrote, rather than endlessly intensifying insulin and blaming poor response on poor compliance.

And Dr. Miras and Dr. le Roux “eagerly await” 10-year data from the 150-patient STAMPEDE trial – which is examining sleeve gastrectomy, currently the most widely performed bariatric procedure, as well as Roux-en-Y gastric bypass and medical therapy – following the 5-year results published in 2017.  
 

Diabetes for at least 5 years, mid 40s, half on insulin

Dr. Mingrone and colleagues previously reported 5-year findings from the 60 patients with obesity and advanced diabetes who were seen in a single center in Rome and randomized to three treatments (20 in each group) in 2009-2011.

Biliopancreatic diversion “remains infrequently performed but is still considered the best operation for glycemic control,” the researchers noted.

The primary endpoint was diabetes remission at 2 years (fasting plasma glucose < 100 mg/dL [5.6 mmol/L] and A1c < 6.5%) without the need for ongoing pharmacological treatment for at least 1 year.

Patients were a mean age of 44 years and had a mean body mass index of 44 kg/m^2. About half were men. They had diabetes for a mean of 5.8 years and an average A1c of 8.6%. About half were taking insulin.

Patient retention rate was high (95%) and trial outcomes were assessed by nonsurgeons.

At 10 years, patients’ mean A1c had dropped to 6.4%, 6.7%, and 7.6%, in the biliopancreatic diversion, Roux-en-Y gastric bypass, and medical therapy groups, respectively; only 2.5% of patients in the surgery groups, versus 53% in the medical therapy group, required insulin.

At study end, patients in the surgery groups had lost about 29% of their initial weight versus a weight loss of 4.2% in the medical therapy group.
 

First 2 years after surgery is key

“We also learnt that patients who do not go into remission after 2 years are very unlikely to ever do so,” Dr. Miras and Dr. le Roux observed, which “might help us to intensify modern and potent glucose-lowering therapies like SGLT2 inhibitors and GLP-1 receptor agonists earlier after metabolic surgery.”

Ten of 19 patients (53%) in the biliopancreatic diversion group and 10 of 15 patients (67%) in the Roux-en-Y gastric bypass group who had diabetes remission at 2 years had a diabetes relapse, but at 10 years, they all had adequate glycemic control (mean A1c 6.7%), despite drastically reduced use of diabetes medications.

The two patients who crossed over to surgery from the medical therapy group had postoperative diabetes remission, which was maintained at 10 years in one patient.
 

Better risk-to-benefit ratio with Roux-en-y gastric bypass

No patient in the medical therapy group had a serious adverse event, but one patient in each surgery group had deep vein thrombosis or pulmonary embolism, and one patient in the biliopancreatic diversion group had an episode of atrial fibrillation. There were no late surgical complications.

Iron deficiency and mild osteopenia occurred in both surgical groups, but were more common in the biliopancreatic diversion group. And osteoporosis, transient nyctalopia (night blindness) due to vitamin A deficiency, and kidney stones were observed only with biliopancreatic diversion.

This suggests that despite the greater antidiabetic potential of biliopancreatic diversion, Roux-en-Y gastric bypass might have a more favorable risk-to-benefit profile as a standard surgical option for the treatment of type 2 diabetes, Dr. Mingrone and colleagues concluded.

The authors and Dr. Miras have reported no relevant financial relationships. Dr. le Roux has reported receiving funding from the Science Foundation Ireland, the Health Research Board, and the Irish Research Council for type 2 diabetes research, and serves on several advisory boards outside of the scope of the current study.

A version of this article first appeared on Medscape.com.

A small, single-center randomized trial of patients with obesity and advanced type 2 diabetes, defined as diabetes for ≥ 5 years and A1c ≥ 7%, found that a quarter to a half of patients who had metabolic surgery had diabetes remission (cure) that lasted 5-9 years.

That is, of the 60 randomized patients, 50% who had biliopancreatic diversion and 25% who had Roux-en-Y gastric bypass – but none who had received current medical therapy – still had diabetes remission a decade later.

Until now, there had only been 5-year follow-up data from this and similar trials, Geltrude Mingrone, MD, PhD, and colleagues noted in the study published online Jan. 23 in The Lancet.

These results provide “the most robust scientific evidence yet that full-blown type 2 diabetes is a curable disease, not inevitably progressive, and irreversible,” senior author Francesco Rubino, MD, chair of bariatric and metabolic surgery at King’s College London, said in a statement from his institution.

“The results of this trial will make a noticeable difference in the field and convince even the most skeptical of clinicians about the role of metabolic surgery as part of optimal care for their patients with difficult to control type 2 diabetes,” predicted two editorialists.

Alexander D. Miras, PhD, section of metabolism, digestion, and reproduction, Imperial College London, and Carel le Roux, MBChB, PhD, of the Diabetes Complications Research Centre, University College Dublin, penned the accompanying commentary.

Patients who had metabolic surgery also had greater weight loss, reduced medication use, lower cardiovascular risk, better quality of life, and a lower incidence of diabetes-related complications compared with those who received medical therapy.

“Clinicians and policymakers should ensure that metabolic surgery is appropriately considered in the management of patients with obesity and type 2 diabetes,” advised Dr. Mingrone of King’s College London and the Catholic University of Rome, and colleagues.
 

“Reassuring results, will make a difference in the field”

“It is reassuring that we now have 10-year data showing greater efficacy of metabolic surgery than conventional medical therapy,” Dr. Miras and Dr. le Roux wrote in their commentary.

There were no unexpected risks associated with surgery, they noted, and the findings are consistent with those of 12 other randomized controlled trials in the past 12 years.

“New generations of diabetologists are now more open to the use of metabolic surgery for patients with suboptimal responses to medical treatments,” they wrote, rather than endlessly intensifying insulin and blaming poor response on poor compliance.

And Dr. Miras and Dr. le Roux “eagerly await” 10-year data from the 150-patient STAMPEDE trial – which is examining sleeve gastrectomy, currently the most widely performed bariatric procedure, as well as Roux-en-Y gastric bypass and medical therapy – following the 5-year results published in 2017.  
 

Diabetes for at least 5 years, mid 40s, half on insulin

Dr. Mingrone and colleagues previously reported 5-year findings from the 60 patients with obesity and advanced diabetes who were seen in a single center in Rome and randomized to three treatments (20 in each group) in 2009-2011.

Biliopancreatic diversion “remains infrequently performed but is still considered the best operation for glycemic control,” the researchers noted.

The primary endpoint was diabetes remission at 2 years (fasting plasma glucose < 100 mg/dL [5.6 mmol/L] and A1c < 6.5%) without the need for ongoing pharmacological treatment for at least 1 year.

Patients were a mean age of 44 years and had a mean body mass index of 44 kg/m^2. About half were men. They had diabetes for a mean of 5.8 years and an average A1c of 8.6%. About half were taking insulin.

Patient retention rate was high (95%) and trial outcomes were assessed by nonsurgeons.

At 10 years, patients’ mean A1c had dropped to 6.4%, 6.7%, and 7.6%, in the biliopancreatic diversion, Roux-en-Y gastric bypass, and medical therapy groups, respectively; only 2.5% of patients in the surgery groups, versus 53% in the medical therapy group, required insulin.

At study end, patients in the surgery groups had lost about 29% of their initial weight versus a weight loss of 4.2% in the medical therapy group.
 

First 2 years after surgery is key

“We also learnt that patients who do not go into remission after 2 years are very unlikely to ever do so,” Dr. Miras and Dr. le Roux observed, which “might help us to intensify modern and potent glucose-lowering therapies like SGLT2 inhibitors and GLP-1 receptor agonists earlier after metabolic surgery.”

Ten of 19 patients (53%) in the biliopancreatic diversion group and 10 of 15 patients (67%) in the Roux-en-Y gastric bypass group who had diabetes remission at 2 years had a diabetes relapse, but at 10 years, they all had adequate glycemic control (mean A1c 6.7%), despite drastically reduced use of diabetes medications.

The two patients who crossed over to surgery from the medical therapy group had postoperative diabetes remission, which was maintained at 10 years in one patient.
 

Better risk-to-benefit ratio with Roux-en-y gastric bypass

No patient in the medical therapy group had a serious adverse event, but one patient in each surgery group had deep vein thrombosis or pulmonary embolism, and one patient in the biliopancreatic diversion group had an episode of atrial fibrillation. There were no late surgical complications.

Iron deficiency and mild osteopenia occurred in both surgical groups, but were more common in the biliopancreatic diversion group. And osteoporosis, transient nyctalopia (night blindness) due to vitamin A deficiency, and kidney stones were observed only with biliopancreatic diversion.

This suggests that despite the greater antidiabetic potential of biliopancreatic diversion, Roux-en-Y gastric bypass might have a more favorable risk-to-benefit profile as a standard surgical option for the treatment of type 2 diabetes, Dr. Mingrone and colleagues concluded.

The authors and Dr. Miras have reported no relevant financial relationships. Dr. le Roux has reported receiving funding from the Science Foundation Ireland, the Health Research Board, and the Irish Research Council for type 2 diabetes research, and serves on several advisory boards outside of the scope of the current study.

A version of this article first appeared on Medscape.com.

A small, single-center randomized trial of patients with obesity and advanced type 2 diabetes, defined as diabetes for ≥ 5 years and A1c ≥ 7%, found that a quarter to a half of patients who had metabolic surgery had diabetes remission (cure) that lasted 5-9 years.

That is, of the 60 randomized patients, 50% who had biliopancreatic diversion and 25% who had Roux-en-Y gastric bypass – but none who had received current medical therapy – still had diabetes remission a decade later.

Until now, there had only been 5-year follow-up data from this and similar trials, Geltrude Mingrone, MD, PhD, and colleagues noted in the study published online Jan. 23 in The Lancet.

These results provide “the most robust scientific evidence yet that full-blown type 2 diabetes is a curable disease, not inevitably progressive, and irreversible,” senior author Francesco Rubino, MD, chair of bariatric and metabolic surgery at King’s College London, said in a statement from his institution.

“The results of this trial will make a noticeable difference in the field and convince even the most skeptical of clinicians about the role of metabolic surgery as part of optimal care for their patients with difficult to control type 2 diabetes,” predicted two editorialists.

Alexander D. Miras, PhD, section of metabolism, digestion, and reproduction, Imperial College London, and Carel le Roux, MBChB, PhD, of the Diabetes Complications Research Centre, University College Dublin, penned the accompanying commentary.

Patients who had metabolic surgery also had greater weight loss, reduced medication use, lower cardiovascular risk, better quality of life, and a lower incidence of diabetes-related complications compared with those who received medical therapy.

“Clinicians and policymakers should ensure that metabolic surgery is appropriately considered in the management of patients with obesity and type 2 diabetes,” advised Dr. Mingrone of King’s College London and the Catholic University of Rome, and colleagues.
 

“Reassuring results, will make a difference in the field”

“It is reassuring that we now have 10-year data showing greater efficacy of metabolic surgery than conventional medical therapy,” Dr. Miras and Dr. le Roux wrote in their commentary.

There were no unexpected risks associated with surgery, they noted, and the findings are consistent with those of 12 other randomized controlled trials in the past 12 years.

“New generations of diabetologists are now more open to the use of metabolic surgery for patients with suboptimal responses to medical treatments,” they wrote, rather than endlessly intensifying insulin and blaming poor response on poor compliance.

And Dr. Miras and Dr. le Roux “eagerly await” 10-year data from the 150-patient STAMPEDE trial – which is examining sleeve gastrectomy, currently the most widely performed bariatric procedure, as well as Roux-en-Y gastric bypass and medical therapy – following the 5-year results published in 2017.  
 

Diabetes for at least 5 years, mid 40s, half on insulin

Dr. Mingrone and colleagues previously reported 5-year findings from the 60 patients with obesity and advanced diabetes who were seen in a single center in Rome and randomized to three treatments (20 in each group) in 2009-2011.

Biliopancreatic diversion “remains infrequently performed but is still considered the best operation for glycemic control,” the researchers noted.

The primary endpoint was diabetes remission at 2 years (fasting plasma glucose < 100 mg/dL [5.6 mmol/L] and A1c < 6.5%) without the need for ongoing pharmacological treatment for at least 1 year.

Patients were a mean age of 44 years and had a mean body mass index of 44 kg/m^2. About half were men. They had diabetes for a mean of 5.8 years and an average A1c of 8.6%. About half were taking insulin.

Patient retention rate was high (95%) and trial outcomes were assessed by nonsurgeons.

At 10 years, patients’ mean A1c had dropped to 6.4%, 6.7%, and 7.6%, in the biliopancreatic diversion, Roux-en-Y gastric bypass, and medical therapy groups, respectively; only 2.5% of patients in the surgery groups, versus 53% in the medical therapy group, required insulin.

At study end, patients in the surgery groups had lost about 29% of their initial weight versus a weight loss of 4.2% in the medical therapy group.
 

First 2 years after surgery is key

“We also learnt that patients who do not go into remission after 2 years are very unlikely to ever do so,” Dr. Miras and Dr. le Roux observed, which “might help us to intensify modern and potent glucose-lowering therapies like SGLT2 inhibitors and GLP-1 receptor agonists earlier after metabolic surgery.”

Ten of 19 patients (53%) in the biliopancreatic diversion group and 10 of 15 patients (67%) in the Roux-en-Y gastric bypass group who had diabetes remission at 2 years had a diabetes relapse, but at 10 years, they all had adequate glycemic control (mean A1c 6.7%), despite drastically reduced use of diabetes medications.

The two patients who crossed over to surgery from the medical therapy group had postoperative diabetes remission, which was maintained at 10 years in one patient.
 

Better risk-to-benefit ratio with Roux-en-y gastric bypass

No patient in the medical therapy group had a serious adverse event, but one patient in each surgery group had deep vein thrombosis or pulmonary embolism, and one patient in the biliopancreatic diversion group had an episode of atrial fibrillation. There were no late surgical complications.

Iron deficiency and mild osteopenia occurred in both surgical groups, but were more common in the biliopancreatic diversion group. And osteoporosis, transient nyctalopia (night blindness) due to vitamin A deficiency, and kidney stones were observed only with biliopancreatic diversion.

This suggests that despite the greater antidiabetic potential of biliopancreatic diversion, Roux-en-Y gastric bypass might have a more favorable risk-to-benefit profile as a standard surgical option for the treatment of type 2 diabetes, Dr. Mingrone and colleagues concluded.

The authors and Dr. Miras have reported no relevant financial relationships. Dr. le Roux has reported receiving funding from the Science Foundation Ireland, the Health Research Board, and the Irish Research Council for type 2 diabetes research, and serves on several advisory boards outside of the scope of the current study.

A version of this article first appeared on Medscape.com.

Cardiovascular disease and related risk factors can be common among male breast cancer patients, suggests a small study in this rare malignancy.

Among 24 male breast cancer patients evaluated over a decade in the Washington area, 88% were obese or overweight, 58% had hypertension, and 54% had hyperlipidemia.

Tachyarrhythmia existed in 8% of the men before cancer treatment and developed in 13% during treatment.

Two patients had preexisting heart failure, two patients developed the disease after treatment, and another two patients experienced a decline in left ventricular ejection fraction during the course of their cancer treatment.

“Our hope is that treating male breast cancer patients becomes a multidisciplinary approach where oncologists recruit their cardio-oncologist counterparts to mitigate cardiovascular risk factors, so patients live a long and healthy life after cancer treatment,” said Michael Ibrahim, one of the study authors and a 4th-year medical student at Georgetown University in Washington.

The data were presented Jan. 25 as part of the American College of Cardiology’s Advancing the Cardiovascular Care of the Oncology Patient virtual course, which is hosting live sessions Feb. 5-6.

Although the association between cardiovascular disease and breast cancer is well documented in female breast cancer patients, there is little evidence in their male counterparts, especially African Americans, Mr. Ibrahim noted.

To provide some context, Mr. Ibrahim highlighted a 2018 report in nearly 3,500 female breast cancer patients, ages 40-79, in whom 52% were obese/overweight, 35% had hypertension, and 28% had hyperlipidemia.

Diabetes was present in 7.5% of the women, which was roughly equivalent to the 8% found among the men, Mr. Ibrahim said. The men were of similar age (38-79 years), with 42% being African American, 29% White, 4% Hispanic, and 25% another ethnicity.

Importantly, half of the men had a family history of breast cancer, and two were positive for a mutation in the BRCA gene.

A 2017 in-depth review of male breast cancer cites advancing age, hormonal imbalance, radiation exposure, and family history of breast cancer as key risk factors for the development of the disease, but the “most relevant risk factor” is a mutation in the BRCA2 gene.

Male breast cancer accounts for less than 1% of all breast cancers, but the incidence is rising and, in some patient groups, reaching 15% over their lifetimes, the paper notes. Additionally, these patients are at special risk for developing a second cancer.

Remarkably, 25% of men in the D.C. cohort were diagnosed with a second primary malignancy, 13% a third primary cancer, and 4% a fourth primary cancer, Mr. Ibrahim reported. “This goes to show that male breast cancer patients should routinely undergo cancer screening,” he said.

The initial diagnosis was invasive ductal carcinoma in 79% of the men, with the remaining ductal carcinoma in situ. All patients underwent mastectomy, 17% had anthracycline chemotherapy, 8% received HER2-targeted therapy, 16% had radiation, and 71% received hormone therapy.

In terms of cardiovascular management, statins were the most prescribed medication (46%), followed by antiplatelet therapy (42%) and angiotensin-converting enzyme inhibitors/angiotensin-receptor blockers (38%).

An implantable cardioverter defibrillator/pacemaker was the most common intervention (16%), followed by bypass surgery in 8% and coronary angioplasty in 4%.

Mr. Ibrahim noted that the study was limited by the small sample size and that further research is needed to understand the risk of preexisting cardiovascular disease on long-term outcomes as well as the cardiotoxic effects of chemoradiation in male breast cancer patients.

In a statement, Mr. Ibrahim reiterated the need for a multidisciplinary cancer care team to evaluate patients’ cardiovascular risk prior to and through cancer treatment.

“On a more personal level, cancer patients are already surprised by their cancer diagnosis,” he added. “Similar to the pretreatment consultation with radiation oncology, breast surgery, and medical oncology, an upfront cardiovascular risk assessment provides greater comfort and further minimizes psychological surprise with cardiovascular complications going into cancer treatment.”

The authors have disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Cardiovascular disease and related risk factors can be common among male breast cancer patients, suggests a small study in this rare malignancy.

Among 24 male breast cancer patients evaluated over a decade in the Washington area, 88% were obese or overweight, 58% had hypertension, and 54% had hyperlipidemia.

Tachyarrhythmia existed in 8% of the men before cancer treatment and developed in 13% during treatment.

Two patients had preexisting heart failure, two patients developed the disease after treatment, and another two patients experienced a decline in left ventricular ejection fraction during the course of their cancer treatment.

“Our hope is that treating male breast cancer patients becomes a multidisciplinary approach where oncologists recruit their cardio-oncologist counterparts to mitigate cardiovascular risk factors, so patients live a long and healthy life after cancer treatment,” said Michael Ibrahim, one of the study authors and a 4th-year medical student at Georgetown University in Washington.

The data were presented Jan. 25 as part of the American College of Cardiology’s Advancing the Cardiovascular Care of the Oncology Patient virtual course, which is hosting live sessions Feb. 5-6.

Although the association between cardiovascular disease and breast cancer is well documented in female breast cancer patients, there is little evidence in their male counterparts, especially African Americans, Mr. Ibrahim noted.

To provide some context, Mr. Ibrahim highlighted a 2018 report in nearly 3,500 female breast cancer patients, ages 40-79, in whom 52% were obese/overweight, 35% had hypertension, and 28% had hyperlipidemia.

Diabetes was present in 7.5% of the women, which was roughly equivalent to the 8% found among the men, Mr. Ibrahim said. The men were of similar age (38-79 years), with 42% being African American, 29% White, 4% Hispanic, and 25% another ethnicity.

Importantly, half of the men had a family history of breast cancer, and two were positive for a mutation in the BRCA gene.

A 2017 in-depth review of male breast cancer cites advancing age, hormonal imbalance, radiation exposure, and family history of breast cancer as key risk factors for the development of the disease, but the “most relevant risk factor” is a mutation in the BRCA2 gene.

Male breast cancer accounts for less than 1% of all breast cancers, but the incidence is rising and, in some patient groups, reaching 15% over their lifetimes, the paper notes. Additionally, these patients are at special risk for developing a second cancer.

Remarkably, 25% of men in the D.C. cohort were diagnosed with a second primary malignancy, 13% a third primary cancer, and 4% a fourth primary cancer, Mr. Ibrahim reported. “This goes to show that male breast cancer patients should routinely undergo cancer screening,” he said.

The initial diagnosis was invasive ductal carcinoma in 79% of the men, with the remaining ductal carcinoma in situ. All patients underwent mastectomy, 17% had anthracycline chemotherapy, 8% received HER2-targeted therapy, 16% had radiation, and 71% received hormone therapy.

In terms of cardiovascular management, statins were the most prescribed medication (46%), followed by antiplatelet therapy (42%) and angiotensin-converting enzyme inhibitors/angiotensin-receptor blockers (38%).

An implantable cardioverter defibrillator/pacemaker was the most common intervention (16%), followed by bypass surgery in 8% and coronary angioplasty in 4%.

Mr. Ibrahim noted that the study was limited by the small sample size and that further research is needed to understand the risk of preexisting cardiovascular disease on long-term outcomes as well as the cardiotoxic effects of chemoradiation in male breast cancer patients.

In a statement, Mr. Ibrahim reiterated the need for a multidisciplinary cancer care team to evaluate patients’ cardiovascular risk prior to and through cancer treatment.

“On a more personal level, cancer patients are already surprised by their cancer diagnosis,” he added. “Similar to the pretreatment consultation with radiation oncology, breast surgery, and medical oncology, an upfront cardiovascular risk assessment provides greater comfort and further minimizes psychological surprise with cardiovascular complications going into cancer treatment.”

The authors have disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Cardiovascular disease and related risk factors can be common among male breast cancer patients, suggests a small study in this rare malignancy.

Among 24 male breast cancer patients evaluated over a decade in the Washington area, 88% were obese or overweight, 58% had hypertension, and 54% had hyperlipidemia.

Tachyarrhythmia existed in 8% of the men before cancer treatment and developed in 13% during treatment.

Two patients had preexisting heart failure, two patients developed the disease after treatment, and another two patients experienced a decline in left ventricular ejection fraction during the course of their cancer treatment.

“Our hope is that treating male breast cancer patients becomes a multidisciplinary approach where oncologists recruit their cardio-oncologist counterparts to mitigate cardiovascular risk factors, so patients live a long and healthy life after cancer treatment,” said Michael Ibrahim, one of the study authors and a 4th-year medical student at Georgetown University in Washington.

The data were presented Jan. 25 as part of the American College of Cardiology’s Advancing the Cardiovascular Care of the Oncology Patient virtual course, which is hosting live sessions Feb. 5-6.

Although the association between cardiovascular disease and breast cancer is well documented in female breast cancer patients, there is little evidence in their male counterparts, especially African Americans, Mr. Ibrahim noted.

To provide some context, Mr. Ibrahim highlighted a 2018 report in nearly 3,500 female breast cancer patients, ages 40-79, in whom 52% were obese/overweight, 35% had hypertension, and 28% had hyperlipidemia.

Diabetes was present in 7.5% of the women, which was roughly equivalent to the 8% found among the men, Mr. Ibrahim said. The men were of similar age (38-79 years), with 42% being African American, 29% White, 4% Hispanic, and 25% another ethnicity.

Importantly, half of the men had a family history of breast cancer, and two were positive for a mutation in the BRCA gene.

A 2017 in-depth review of male breast cancer cites advancing age, hormonal imbalance, radiation exposure, and family history of breast cancer as key risk factors for the development of the disease, but the “most relevant risk factor” is a mutation in the BRCA2 gene.

Male breast cancer accounts for less than 1% of all breast cancers, but the incidence is rising and, in some patient groups, reaching 15% over their lifetimes, the paper notes. Additionally, these patients are at special risk for developing a second cancer.

Remarkably, 25% of men in the D.C. cohort were diagnosed with a second primary malignancy, 13% a third primary cancer, and 4% a fourth primary cancer, Mr. Ibrahim reported. “This goes to show that male breast cancer patients should routinely undergo cancer screening,” he said.

The initial diagnosis was invasive ductal carcinoma in 79% of the men, with the remaining ductal carcinoma in situ. All patients underwent mastectomy, 17% had anthracycline chemotherapy, 8% received HER2-targeted therapy, 16% had radiation, and 71% received hormone therapy.

In terms of cardiovascular management, statins were the most prescribed medication (46%), followed by antiplatelet therapy (42%) and angiotensin-converting enzyme inhibitors/angiotensin-receptor blockers (38%).

An implantable cardioverter defibrillator/pacemaker was the most common intervention (16%), followed by bypass surgery in 8% and coronary angioplasty in 4%.

Mr. Ibrahim noted that the study was limited by the small sample size and that further research is needed to understand the risk of preexisting cardiovascular disease on long-term outcomes as well as the cardiotoxic effects of chemoradiation in male breast cancer patients.

In a statement, Mr. Ibrahim reiterated the need for a multidisciplinary cancer care team to evaluate patients’ cardiovascular risk prior to and through cancer treatment.

“On a more personal level, cancer patients are already surprised by their cancer diagnosis,” he added. “Similar to the pretreatment consultation with radiation oncology, breast surgery, and medical oncology, an upfront cardiovascular risk assessment provides greater comfort and further minimizes psychological surprise with cardiovascular complications going into cancer treatment.”

The authors have disclosed no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The relationship between obesity and overweight and breast cancer has some elements of mystery. But this is not one of them: in metastatic breast cancer (MBC), excess body weight does not negatively influence outcomes.

Multiple small studies have demonstrated this point, and now, for the first time, a large multicenter cohort analysis indicates the same.

Using medical records from 18 French comprehensive cancer centers, investigators reviewed body mass index (BMI) and overall survival (OS) data for nearly 13,000 women. The median OS was 47.4 months, and the median follow-up was about the same length of time. The team reports that obesity and overweight “were clearly not associated with prognosis.”

However, underweight was independently associated with worse OS (median, 33 months; hazard ratio, 1.14; 95% confidence interval, 1.02-1.27), report Khalil Saleh, MD, of Gustave Roussy in Villejuif, France, and colleagues.

In short, obesity or overweight had no effect on the primary outcome of OS, but underweight did.

“Underweight should be the subject of clinical attention at the time of diagnosis of MBC, and specific management should be implemented,” said study author Elise Deluche, MD, of CHU de Limoges, in an email to this news organization.

The study was published online Dec. 1 in The Breast.

“It’s really wonderful to have such a large cohort to look at this question,” said Jennifer Ligibel, MD, of the Dana-Farber Cancer Institute, Boston, who was asked for comment.

Is this another case of obesity paradox in cancer (as in renal cell carcinoma and melanoma, where excess weight is tied to better cancer-specific survival)?

No, said Dr. Ligibel: “There’s no hint at all [in this study] that people with obesity and overweight did better. … They just didn’t have worse outcomes.”

The study authors point out that the opposite is true in early-stage breast cancer. In this patient population, excess weight is associated with worse outcomes.

For example, in a 2014 meta-analysis of 82 follow-up studies in early-stage disease, obesity was associated with higher total mortality (relative risk, 1.41) and breast cancer–specific mortality (RR, 1.35) as compared to normal weight.

Why is there such a contrast between early- and late-stage disease?

“I don’t think we know exactly,” answered Dr. Ligibel. “It may be that, with breast cancer, as disease progresses, the pathways through which lifestyle may impact breast cancer may become less important.

“Obesity and overweight are associated with cancer risk in general,” said Dr. Ligibel, citing more than a dozen malignancies, including breast cancer.

But there is also an age element. Overweight or obesity is an independent predictor of breast cancer risk in postmenopausal women, but in premenopausal women, it appears to be protective. “Historically, there has been a lower risk of hormone receptor–positive breast cancer in women with obesity at younger ages that we don’t completely understand,” Dr. Ligibel noted.

That age-based difference is a conundrum, said Dr. Ligibel: “People have been trying to figure that out for a long time.”

Dr. Ligibel summarized as follows:

“There is a clear relationship between obesity and the risk of developing breast cancer; there is a clear relationship in early breast cancer that obesity is related to an increased risk of occurrence and mortality. What we are seeing from this study is that, by the time you get to metastatic breast cancer, body weight does not seem to play as important a role.”
 

More study details

The findings come from the French National Epidemiological Strategy and Medical Economics–Metastatic Breast Cancer observational cohort, which includes 22,000-plus consecutive patients who were newly diagnosed with metastatic disease between 2008 and 2016.

A total of 12,999 women for whom BMI data were available when they were diagnosed with metastatic breast cancer were selected for analysis. They were divided into four groups, according to World Health Organization classification: underweight (BMI <18.5 kg/m²), normal weight (18.5-24.9), overweight (25.0-29.9), and obese (≥30.0).

A total of 20% of women were obese, which is a much lower percentage than the 40%-50% that would be expected in a comparable American cohort, said Dr. Ligibel. Also, 5% of the French cohort was underweight.

Multivariate Cox analyses were carried out for OS and for first-line progression-free survival (PFS).

As noted above, underweight was independently associated with a worse OS. It was also tied to worse first-line PFS (HR, 1.11; 95% CI, 1.01-1.22). Overweight or obesity had no effect.

“Patients with a low BMI had more visceral metastases and a greater number of metastatic sites,” pointed out study author Dr. Deluche. “We attribute the fat loss in patients with metastatic breast cancer to aggressive tumor behavior with a higher energy requirement.”

The study authors also observe that in early-stage breast cancer, underweight is not associated with overall or breast cancer–specific survival. “Underweight at metastatic diagnosis seems to have a different significance and impact,” they write. The French team also observes that, in other cancers, underweight is also an adverse prognostic factor and has been associated with a higher risk for death.

The study authors acknowledge that BMI has limitations as a measure of body type. “BMI alone cannot estimate a woman’s muscle mass and adiposity,” they observe. The suggestion is that, among women with a similar BMI, some might be muscular, whereas others might have more body fat.

Multiple study authors report financial ties to industry, including pharmaceutical companies with drugs used in breast cancer. The database used in the study receives financial support from AstraZeneca, Daiichi Sankyo, Eisai, MSD, Pfizer, and Roche. Dr. Ligibel reports no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The relationship between obesity and overweight and breast cancer has some elements of mystery. But this is not one of them: in metastatic breast cancer (MBC), excess body weight does not negatively influence outcomes.

Multiple small studies have demonstrated this point, and now, for the first time, a large multicenter cohort analysis indicates the same.

Using medical records from 18 French comprehensive cancer centers, investigators reviewed body mass index (BMI) and overall survival (OS) data for nearly 13,000 women. The median OS was 47.4 months, and the median follow-up was about the same length of time. The team reports that obesity and overweight “were clearly not associated with prognosis.”

However, underweight was independently associated with worse OS (median, 33 months; hazard ratio, 1.14; 95% confidence interval, 1.02-1.27), report Khalil Saleh, MD, of Gustave Roussy in Villejuif, France, and colleagues.

In short, obesity or overweight had no effect on the primary outcome of OS, but underweight did.

“Underweight should be the subject of clinical attention at the time of diagnosis of MBC, and specific management should be implemented,” said study author Elise Deluche, MD, of CHU de Limoges, in an email to this news organization.

The study was published online Dec. 1 in The Breast.

“It’s really wonderful to have such a large cohort to look at this question,” said Jennifer Ligibel, MD, of the Dana-Farber Cancer Institute, Boston, who was asked for comment.

Is this another case of obesity paradox in cancer (as in renal cell carcinoma and melanoma, where excess weight is tied to better cancer-specific survival)?

No, said Dr. Ligibel: “There’s no hint at all [in this study] that people with obesity and overweight did better. … They just didn’t have worse outcomes.”

The study authors point out that the opposite is true in early-stage breast cancer. In this patient population, excess weight is associated with worse outcomes.

For example, in a 2014 meta-analysis of 82 follow-up studies in early-stage disease, obesity was associated with higher total mortality (relative risk, 1.41) and breast cancer–specific mortality (RR, 1.35) as compared to normal weight.

Why is there such a contrast between early- and late-stage disease?

“I don’t think we know exactly,” answered Dr. Ligibel. “It may be that, with breast cancer, as disease progresses, the pathways through which lifestyle may impact breast cancer may become less important.

“Obesity and overweight are associated with cancer risk in general,” said Dr. Ligibel, citing more than a dozen malignancies, including breast cancer.

But there is also an age element. Overweight or obesity is an independent predictor of breast cancer risk in postmenopausal women, but in premenopausal women, it appears to be protective. “Historically, there has been a lower risk of hormone receptor–positive breast cancer in women with obesity at younger ages that we don’t completely understand,” Dr. Ligibel noted.

That age-based difference is a conundrum, said Dr. Ligibel: “People have been trying to figure that out for a long time.”

Dr. Ligibel summarized as follows:

“There is a clear relationship between obesity and the risk of developing breast cancer; there is a clear relationship in early breast cancer that obesity is related to an increased risk of occurrence and mortality. What we are seeing from this study is that, by the time you get to metastatic breast cancer, body weight does not seem to play as important a role.”
 

More study details

The findings come from the French National Epidemiological Strategy and Medical Economics–Metastatic Breast Cancer observational cohort, which includes 22,000-plus consecutive patients who were newly diagnosed with metastatic disease between 2008 and 2016.

A total of 12,999 women for whom BMI data were available when they were diagnosed with metastatic breast cancer were selected for analysis. They were divided into four groups, according to World Health Organization classification: underweight (BMI <18.5 kg/m²), normal weight (18.5-24.9), overweight (25.0-29.9), and obese (≥30.0).

A total of 20% of women were obese, which is a much lower percentage than the 40%-50% that would be expected in a comparable American cohort, said Dr. Ligibel. Also, 5% of the French cohort was underweight.

Multivariate Cox analyses were carried out for OS and for first-line progression-free survival (PFS).

As noted above, underweight was independently associated with a worse OS. It was also tied to worse first-line PFS (HR, 1.11; 95% CI, 1.01-1.22). Overweight or obesity had no effect.

“Patients with a low BMI had more visceral metastases and a greater number of metastatic sites,” pointed out study author Dr. Deluche. “We attribute the fat loss in patients with metastatic breast cancer to aggressive tumor behavior with a higher energy requirement.”

The study authors also observe that in early-stage breast cancer, underweight is not associated with overall or breast cancer–specific survival. “Underweight at metastatic diagnosis seems to have a different significance and impact,” they write. The French team also observes that, in other cancers, underweight is also an adverse prognostic factor and has been associated with a higher risk for death.

The study authors acknowledge that BMI has limitations as a measure of body type. “BMI alone cannot estimate a woman’s muscle mass and adiposity,” they observe. The suggestion is that, among women with a similar BMI, some might be muscular, whereas others might have more body fat.

Multiple study authors report financial ties to industry, including pharmaceutical companies with drugs used in breast cancer. The database used in the study receives financial support from AstraZeneca, Daiichi Sankyo, Eisai, MSD, Pfizer, and Roche. Dr. Ligibel reports no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The relationship between obesity and overweight and breast cancer has some elements of mystery. But this is not one of them: in metastatic breast cancer (MBC), excess body weight does not negatively influence outcomes.

Multiple small studies have demonstrated this point, and now, for the first time, a large multicenter cohort analysis indicates the same.

Using medical records from 18 French comprehensive cancer centers, investigators reviewed body mass index (BMI) and overall survival (OS) data for nearly 13,000 women. The median OS was 47.4 months, and the median follow-up was about the same length of time. The team reports that obesity and overweight “were clearly not associated with prognosis.”

However, underweight was independently associated with worse OS (median, 33 months; hazard ratio, 1.14; 95% confidence interval, 1.02-1.27), report Khalil Saleh, MD, of Gustave Roussy in Villejuif, France, and colleagues.

In short, obesity or overweight had no effect on the primary outcome of OS, but underweight did.

“Underweight should be the subject of clinical attention at the time of diagnosis of MBC, and specific management should be implemented,” said study author Elise Deluche, MD, of CHU de Limoges, in an email to this news organization.

The study was published online Dec. 1 in The Breast.

“It’s really wonderful to have such a large cohort to look at this question,” said Jennifer Ligibel, MD, of the Dana-Farber Cancer Institute, Boston, who was asked for comment.

Is this another case of obesity paradox in cancer (as in renal cell carcinoma and melanoma, where excess weight is tied to better cancer-specific survival)?

No, said Dr. Ligibel: “There’s no hint at all [in this study] that people with obesity and overweight did better. … They just didn’t have worse outcomes.”

The study authors point out that the opposite is true in early-stage breast cancer. In this patient population, excess weight is associated with worse outcomes.

For example, in a 2014 meta-analysis of 82 follow-up studies in early-stage disease, obesity was associated with higher total mortality (relative risk, 1.41) and breast cancer–specific mortality (RR, 1.35) as compared to normal weight.

Why is there such a contrast between early- and late-stage disease?

“I don’t think we know exactly,” answered Dr. Ligibel. “It may be that, with breast cancer, as disease progresses, the pathways through which lifestyle may impact breast cancer may become less important.

“Obesity and overweight are associated with cancer risk in general,” said Dr. Ligibel, citing more than a dozen malignancies, including breast cancer.

But there is also an age element. Overweight or obesity is an independent predictor of breast cancer risk in postmenopausal women, but in premenopausal women, it appears to be protective. “Historically, there has been a lower risk of hormone receptor–positive breast cancer in women with obesity at younger ages that we don’t completely understand,” Dr. Ligibel noted.

That age-based difference is a conundrum, said Dr. Ligibel: “People have been trying to figure that out for a long time.”

Dr. Ligibel summarized as follows:

“There is a clear relationship between obesity and the risk of developing breast cancer; there is a clear relationship in early breast cancer that obesity is related to an increased risk of occurrence and mortality. What we are seeing from this study is that, by the time you get to metastatic breast cancer, body weight does not seem to play as important a role.”
 

More study details

The findings come from the French National Epidemiological Strategy and Medical Economics–Metastatic Breast Cancer observational cohort, which includes 22,000-plus consecutive patients who were newly diagnosed with metastatic disease between 2008 and 2016.

A total of 12,999 women for whom BMI data were available when they were diagnosed with metastatic breast cancer were selected for analysis. They were divided into four groups, according to World Health Organization classification: underweight (BMI <18.5 kg/m²), normal weight (18.5-24.9), overweight (25.0-29.9), and obese (≥30.0).

A total of 20% of women were obese, which is a much lower percentage than the 40%-50% that would be expected in a comparable American cohort, said Dr. Ligibel. Also, 5% of the French cohort was underweight.

Multivariate Cox analyses were carried out for OS and for first-line progression-free survival (PFS).

As noted above, underweight was independently associated with a worse OS. It was also tied to worse first-line PFS (HR, 1.11; 95% CI, 1.01-1.22). Overweight or obesity had no effect.

“Patients with a low BMI had more visceral metastases and a greater number of metastatic sites,” pointed out study author Dr. Deluche. “We attribute the fat loss in patients with metastatic breast cancer to aggressive tumor behavior with a higher energy requirement.”

The study authors also observe that in early-stage breast cancer, underweight is not associated with overall or breast cancer–specific survival. “Underweight at metastatic diagnosis seems to have a different significance and impact,” they write. The French team also observes that, in other cancers, underweight is also an adverse prognostic factor and has been associated with a higher risk for death.

The study authors acknowledge that BMI has limitations as a measure of body type. “BMI alone cannot estimate a woman’s muscle mass and adiposity,” they observe. The suggestion is that, among women with a similar BMI, some might be muscular, whereas others might have more body fat.

Multiple study authors report financial ties to industry, including pharmaceutical companies with drugs used in breast cancer. The database used in the study receives financial support from AstraZeneca, Daiichi Sankyo, Eisai, MSD, Pfizer, and Roche. Dr. Ligibel reports no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Physical activity mitigated the impact of high body mass index (BMI) on cardiovascular risk factors, but not overall cardiovascular disease risk, according to an observational study of half a million individuals.

Despite the historically high rates of overweight and obesity worldwide, some evidence suggests that cardiorespiratory fitness could reduce the effects of excess weight on cardiovascular disease risk, wrote Pedro L. Valenzuela, PhD, of the University of Alcalá, Madrid, and colleagues.

“To clarify the existence of the ‘fat-but-fit’ [or ‘elevated BMI but active’] paradox, in this observational study, we assessed the joint association between different BMI categories and physical activity levels, respectively, and the prevalence of major CVD risk factors,” they said.

In a population-based cohort study published in the European Journal of Preventive Cardiology, the researchers identified 527,662 adults aged 18-64 years who were insured by an occupational risk–prevention company and underwent annual medical exams as part of their coverage. The average age of the participants was 42 years, 32% were women, and the average BMI was 26.2 kg/m².

The participants were categorized as normal weight (42%), overweight (41%), and obese (18%), and their activity levels were categorized as inactive (64%), insufficiently active (12%), and regularly active (24%). In addition, 30% had hypercholesterolemia, 15% had hypertension, and 3% had diabetes.

Overall, compared with inactivity, insufficient activity or regular activity reduced CVD risk factors within each BMI category, and subgroups. “However, regular/insufficient PA did not compensate for the negative effects of overweight/obesity, as individuals with overweight/obesity were at greater CVD risk than their peers with normal weight, irrespective of PA levels,” the researchers said. Compared with active normal-weight men, the odds ratios for hypertension in active overweight men and active obese men were 1.98 and 4.93, respectively; the odds ratios for hypercholesterolemia were 1.61 and 2.03, respectively, and the odds ratios for diabetes were 1.33 and 3.62, respectively (P < .001 for all). Trends were similar for women.

The study results were limited by the cross-sectional design; inability to control for participants’ diet, and the reliance of self-reports of leisure-time physical activity. However, the findings were strengthened by the large sample size and “refute the notion that a physically active lifestyle can completely negate the deleterious effects of overweight/obesity,” the researchers said.

Although increasing physical activity should remain a priority for health policies, “weight loss per se should remain a primary target for health policies aimed at reducing CVD risk in people with overweight/obesity,” they concluded.
 

Interpret findings with caution

“With the ever-increasing public health problem of overweight and obesity, it is useful to assess any measure or measures that can have a favorable or adverse effect on cardiometabolic risk factors and the risk of CVD” Prakash Deedwania, MD, of the University of California, San Francisco, said in an interview.

Dr. Deedwania said he was not entirely surprised by the study findings. “The investigators have correlated only the self-reported level of physical activity (which is not always reliable) to the presence of three cardiac risk factors: hypertension, hypercholesterolemia, and diabetes.”

The study “is not comparable to prior reports that had shown a favorable impact of carefully assessed cardiorespiratory fitness with the risk of CVD,” Dr. Deedwania noted. “However, this is one of the largest population-wide surveillance studies of more than a half million active workers across Spain, and it does show that, despite self-reported physical activity, overweight and obesity are associated with higher risks of hypertension, diabetes, and hypercholesterolemia,” he explained.

“The main message of these findings is that, although physical activity does have a dose-dependent favorable impact on CV risk, the main public health intervention to reduce the risk of CV risk should focus on weight loss in overweight and obese individuals,” Dr. Deedwania emphasized.

“Future studies should focus on comparing various levels of daily activities and routine exercise such as walking, bicycling, etc., with the beneficial impact on cardiometabolic risk factors in overweight and obese individuals,” he said.

Dr. Valenzuela disclosed support from the University of Alcalá. Research by corresponding author Dr. Lucia was funded by grants from Spanish Ministry of Science and Innovation and Fondos FEDER. Dr. Deedwania had no financial conflicts to disclose.

Physical activity mitigated the impact of high body mass index (BMI) on cardiovascular risk factors, but not overall cardiovascular disease risk, according to an observational study of half a million individuals.

Despite the historically high rates of overweight and obesity worldwide, some evidence suggests that cardiorespiratory fitness could reduce the effects of excess weight on cardiovascular disease risk, wrote Pedro L. Valenzuela, PhD, of the University of Alcalá, Madrid, and colleagues.

“To clarify the existence of the ‘fat-but-fit’ [or ‘elevated BMI but active’] paradox, in this observational study, we assessed the joint association between different BMI categories and physical activity levels, respectively, and the prevalence of major CVD risk factors,” they said.

In a population-based cohort study published in the European Journal of Preventive Cardiology, the researchers identified 527,662 adults aged 18-64 years who were insured by an occupational risk–prevention company and underwent annual medical exams as part of their coverage. The average age of the participants was 42 years, 32% were women, and the average BMI was 26.2 kg/m².

The participants were categorized as normal weight (42%), overweight (41%), and obese (18%), and their activity levels were categorized as inactive (64%), insufficiently active (12%), and regularly active (24%). In addition, 30% had hypercholesterolemia, 15% had hypertension, and 3% had diabetes.

Overall, compared with inactivity, insufficient activity or regular activity reduced CVD risk factors within each BMI category, and subgroups. “However, regular/insufficient PA did not compensate for the negative effects of overweight/obesity, as individuals with overweight/obesity were at greater CVD risk than their peers with normal weight, irrespective of PA levels,” the researchers said. Compared with active normal-weight men, the odds ratios for hypertension in active overweight men and active obese men were 1.98 and 4.93, respectively; the odds ratios for hypercholesterolemia were 1.61 and 2.03, respectively, and the odds ratios for diabetes were 1.33 and 3.62, respectively (P < .001 for all). Trends were similar for women.

The study results were limited by the cross-sectional design; inability to control for participants’ diet, and the reliance of self-reports of leisure-time physical activity. However, the findings were strengthened by the large sample size and “refute the notion that a physically active lifestyle can completely negate the deleterious effects of overweight/obesity,” the researchers said.

Although increasing physical activity should remain a priority for health policies, “weight loss per se should remain a primary target for health policies aimed at reducing CVD risk in people with overweight/obesity,” they concluded.
 

Interpret findings with caution

“With the ever-increasing public health problem of overweight and obesity, it is useful to assess any measure or measures that can have a favorable or adverse effect on cardiometabolic risk factors and the risk of CVD” Prakash Deedwania, MD, of the University of California, San Francisco, said in an interview.

Dr. Deedwania said he was not entirely surprised by the study findings. “The investigators have correlated only the self-reported level of physical activity (which is not always reliable) to the presence of three cardiac risk factors: hypertension, hypercholesterolemia, and diabetes.”

The study “is not comparable to prior reports that had shown a favorable impact of carefully assessed cardiorespiratory fitness with the risk of CVD,” Dr. Deedwania noted. “However, this is one of the largest population-wide surveillance studies of more than a half million active workers across Spain, and it does show that, despite self-reported physical activity, overweight and obesity are associated with higher risks of hypertension, diabetes, and hypercholesterolemia,” he explained.

“The main message of these findings is that, although physical activity does have a dose-dependent favorable impact on CV risk, the main public health intervention to reduce the risk of CV risk should focus on weight loss in overweight and obese individuals,” Dr. Deedwania emphasized.

“Future studies should focus on comparing various levels of daily activities and routine exercise such as walking, bicycling, etc., with the beneficial impact on cardiometabolic risk factors in overweight and obese individuals,” he said.

Dr. Valenzuela disclosed support from the University of Alcalá. Research by corresponding author Dr. Lucia was funded by grants from Spanish Ministry of Science and Innovation and Fondos FEDER. Dr. Deedwania had no financial conflicts to disclose.

Physical activity mitigated the impact of high body mass index (BMI) on cardiovascular risk factors, but not overall cardiovascular disease risk, according to an observational study of half a million individuals.

Despite the historically high rates of overweight and obesity worldwide, some evidence suggests that cardiorespiratory fitness could reduce the effects of excess weight on cardiovascular disease risk, wrote Pedro L. Valenzuela, PhD, of the University of Alcalá, Madrid, and colleagues.

“To clarify the existence of the ‘fat-but-fit’ [or ‘elevated BMI but active’] paradox, in this observational study, we assessed the joint association between different BMI categories and physical activity levels, respectively, and the prevalence of major CVD risk factors,” they said.

In a population-based cohort study published in the European Journal of Preventive Cardiology, the researchers identified 527,662 adults aged 18-64 years who were insured by an occupational risk–prevention company and underwent annual medical exams as part of their coverage. The average age of the participants was 42 years, 32% were women, and the average BMI was 26.2 kg/m².

The participants were categorized as normal weight (42%), overweight (41%), and obese (18%), and their activity levels were categorized as inactive (64%), insufficiently active (12%), and regularly active (24%). In addition, 30% had hypercholesterolemia, 15% had hypertension, and 3% had diabetes.

Overall, compared with inactivity, insufficient activity or regular activity reduced CVD risk factors within each BMI category, and subgroups. “However, regular/insufficient PA did not compensate for the negative effects of overweight/obesity, as individuals with overweight/obesity were at greater CVD risk than their peers with normal weight, irrespective of PA levels,” the researchers said. Compared with active normal-weight men, the odds ratios for hypertension in active overweight men and active obese men were 1.98 and 4.93, respectively; the odds ratios for hypercholesterolemia were 1.61 and 2.03, respectively, and the odds ratios for diabetes were 1.33 and 3.62, respectively (P < .001 for all). Trends were similar for women.

The study results were limited by the cross-sectional design; inability to control for participants’ diet, and the reliance of self-reports of leisure-time physical activity. However, the findings were strengthened by the large sample size and “refute the notion that a physically active lifestyle can completely negate the deleterious effects of overweight/obesity,” the researchers said.

Although increasing physical activity should remain a priority for health policies, “weight loss per se should remain a primary target for health policies aimed at reducing CVD risk in people with overweight/obesity,” they concluded.
 

Interpret findings with caution

“With the ever-increasing public health problem of overweight and obesity, it is useful to assess any measure or measures that can have a favorable or adverse effect on cardiometabolic risk factors and the risk of CVD” Prakash Deedwania, MD, of the University of California, San Francisco, said in an interview.

Dr. Deedwania said he was not entirely surprised by the study findings. “The investigators have correlated only the self-reported level of physical activity (which is not always reliable) to the presence of three cardiac risk factors: hypertension, hypercholesterolemia, and diabetes.”

The study “is not comparable to prior reports that had shown a favorable impact of carefully assessed cardiorespiratory fitness with the risk of CVD,” Dr. Deedwania noted. “However, this is one of the largest population-wide surveillance studies of more than a half million active workers across Spain, and it does show that, despite self-reported physical activity, overweight and obesity are associated with higher risks of hypertension, diabetes, and hypercholesterolemia,” he explained.

“The main message of these findings is that, although physical activity does have a dose-dependent favorable impact on CV risk, the main public health intervention to reduce the risk of CV risk should focus on weight loss in overweight and obese individuals,” Dr. Deedwania emphasized.

“Future studies should focus on comparing various levels of daily activities and routine exercise such as walking, bicycling, etc., with the beneficial impact on cardiometabolic risk factors in overweight and obese individuals,” he said.

Dr. Valenzuela disclosed support from the University of Alcalá. Research by corresponding author Dr. Lucia was funded by grants from Spanish Ministry of Science and Innovation and Fondos FEDER. Dr. Deedwania had no financial conflicts to disclose.

The incidence of idiopathic intracranial hypertension (IIH) – characterized by increased cerebrospinal fluid (CSF) pressure – is rising considerably, corresponding to population increases in body mass index (BMI), a new study has shown. “The condition is associated with a high rate of health care utilization, so the increasing incidence has important implications for health care professionals and policy makers in addressing the associated comorbidities,” said senior author William Owen Pickrell, PhD, Swansea University (Wales).

The study was published online Jan. 20 in Neurology.

IIH is a condition of unknown etiology that is strongly associated with obesity, the researchers noted. Predominantly affecting women of childbearing age, it causes chronic disabling headaches, visual disturbance, and in a minority of patients, permanent visual loss. The definitive management is weight loss, but a minority of patients require surgery to preserve vision.

People with IIH potentially have high rates of health care utilization, multiple specialist consultations, diagnostic tests, CSF diversion procedures, and complications related to CSF diversion surgery.  
 

Population study in Wales

Given that there is a paucity of data regarding the epidemiology, health care utilization, and outcomes of people with IIH, Dr. Pickrell and colleagues conducted the current retrospective cohort study, which aimed to determine the temporal trends of IIH incidence and prevalence in Wales and health care utilization associated with IIH. They also investigated the effects of socioeconomic deprivation and obesity on IIH epidemiology.

For the study, they used and validated primary and secondary care IIH diagnostic codes within the Secure Anonymised Information Linkage data bank, which is part of the national e-health records research infrastructure for Wales, to ascertain IIH cases and controls between 2003 and 2017. In total, 35 million patient-years of data were analyzed. Information was recorded on body mass index, deprivation quintile, CSF diversion surgery, and unscheduled hospital admissions in case and control cohorts.

“This is the first time the diagnostic codes for this condition have been validated. This is important as it is critical if we are studying a condition to know that the individuals we are studying actually have that condition,” Dr. Pickrell commented. “We were able to establish that the diagnostic codes were 92% sensitive and 87% specific – that’s pretty good.”

Results showed a significant increase in IIH incidence and prevalence in Wales. The prevalence of IIH in Wales increased sixfold from 12/100,000 in 2003 to 76/100,000 in 2017, and the incidence of IIH increased threefold from 2.3/100,000 per year in 2003 to 7.8/100,000 per year in 2017. This corresponded with increases in obesity rates: 29% of the population was obese in 2003, compared with 40% in 2017.
 

Reasons for the increase

“The considerable increase in IIH incidence is multifactorial but likely predominately due to rising obesity rates,” the authors noted. “The worldwide prevalence of obesity nearly tripled between 1975 and 2016 and therefore these results also have global relevance.”

The increase in IIH incidence may also be attributable to increased IIH diagnosis rates because of raised awareness of the condition and greater use of digital fundoscopy at routine optometry appointments, they suggested.

“We found a strong association between increasing BMI, sex (being female), and IIH. Around 85% of our IIH cohort were female, similar to other studies, and we also found a significant association with increased deprivation and IIH, particularly in women,” the authors reported.

IIH is associated with increasing deprivation in women even after adjusting for obesity suggesting additional etiologic factors associated with deprivation apart from BMI; this effect was not seen in men, pointing to sex-specific drivers for IIH, they added.

The results also show that individuals with IIH have increased rates of unscheduled health care utilization compared with a matched-control cohort. The rate ratio for unscheduled hospital admissions in the IIH cohort, compared with controls was 5.28.

“A considerable proportion of this excess in unscheduled hospital admissions occurs at the time of diagnosis and can be explained by the need for urgent investigation of papilloedema with brain imaging and spinal fluid analysis. However, there is also a considerable excess in unscheduled hospital admissions up to 2 years after diagnosis,” the authors reported.

They suggested that these admissions are likely to be for severe headache, and they say there is some scope to reduce emergency admissions through better management of headache, patient education, and rapid access to outpatient specialist advice.

They also pointed out that the rate of unscheduled admissions is higher in the IIH cohort in the 3 years leading up to diagnosis, suggesting an opportunity for earlier diagnosis and earlier intervention.

In their study population, 8% of patients with IIH received CSF diversion procedures a mean of 1.3 years after diagnosis, and these patients showed significantly increased unscheduled health care admission rates, compared with IIH patients who had not undergone such procedures.

“There are frequent complications with the shunts after surgery, which causes a high revision rate,” Dr. Pickrell commented. In this study, 40% of patients undergoing CSF diversion needed at least one CSF shunt revision procedure.

The study was supported by the Brain Repair and Intracranial Neurotherapeutics unit, Wales Gene Park, Health Data Research UK, Engineering and Physical Sciences Research Council, Economic and Social Research Council, Department of Health and Social Care (England), Chief Scientist Office of the Scottish Government Health and Social Care Directorates, Health and Social Care Research and Development Division (Wales), Public Health Agency (Northern Ireland), British Heart Foundation, and Wellcome Trust. The authors reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The incidence of idiopathic intracranial hypertension (IIH) – characterized by increased cerebrospinal fluid (CSF) pressure – is rising considerably, corresponding to population increases in body mass index (BMI), a new study has shown. “The condition is associated with a high rate of health care utilization, so the increasing incidence has important implications for health care professionals and policy makers in addressing the associated comorbidities,” said senior author William Owen Pickrell, PhD, Swansea University (Wales).

The study was published online Jan. 20 in Neurology.

IIH is a condition of unknown etiology that is strongly associated with obesity, the researchers noted. Predominantly affecting women of childbearing age, it causes chronic disabling headaches, visual disturbance, and in a minority of patients, permanent visual loss. The definitive management is weight loss, but a minority of patients require surgery to preserve vision.

People with IIH potentially have high rates of health care utilization, multiple specialist consultations, diagnostic tests, CSF diversion procedures, and complications related to CSF diversion surgery.  
 

Population study in Wales

Given that there is a paucity of data regarding the epidemiology, health care utilization, and outcomes of people with IIH, Dr. Pickrell and colleagues conducted the current retrospective cohort study, which aimed to determine the temporal trends of IIH incidence and prevalence in Wales and health care utilization associated with IIH. They also investigated the effects of socioeconomic deprivation and obesity on IIH epidemiology.

For the study, they used and validated primary and secondary care IIH diagnostic codes within the Secure Anonymised Information Linkage data bank, which is part of the national e-health records research infrastructure for Wales, to ascertain IIH cases and controls between 2003 and 2017. In total, 35 million patient-years of data were analyzed. Information was recorded on body mass index, deprivation quintile, CSF diversion surgery, and unscheduled hospital admissions in case and control cohorts.

“This is the first time the diagnostic codes for this condition have been validated. This is important as it is critical if we are studying a condition to know that the individuals we are studying actually have that condition,” Dr. Pickrell commented. “We were able to establish that the diagnostic codes were 92% sensitive and 87% specific – that’s pretty good.”

Results showed a significant increase in IIH incidence and prevalence in Wales. The prevalence of IIH in Wales increased sixfold from 12/100,000 in 2003 to 76/100,000 in 2017, and the incidence of IIH increased threefold from 2.3/100,000 per year in 2003 to 7.8/100,000 per year in 2017. This corresponded with increases in obesity rates: 29% of the population was obese in 2003, compared with 40% in 2017.
 

Reasons for the increase

“The considerable increase in IIH incidence is multifactorial but likely predominately due to rising obesity rates,” the authors noted. “The worldwide prevalence of obesity nearly tripled between 1975 and 2016 and therefore these results also have global relevance.”

The increase in IIH incidence may also be attributable to increased IIH diagnosis rates because of raised awareness of the condition and greater use of digital fundoscopy at routine optometry appointments, they suggested.

“We found a strong association between increasing BMI, sex (being female), and IIH. Around 85% of our IIH cohort were female, similar to other studies, and we also found a significant association with increased deprivation and IIH, particularly in women,” the authors reported.

IIH is associated with increasing deprivation in women even after adjusting for obesity suggesting additional etiologic factors associated with deprivation apart from BMI; this effect was not seen in men, pointing to sex-specific drivers for IIH, they added.

The results also show that individuals with IIH have increased rates of unscheduled health care utilization compared with a matched-control cohort. The rate ratio for unscheduled hospital admissions in the IIH cohort, compared with controls was 5.28.

“A considerable proportion of this excess in unscheduled hospital admissions occurs at the time of diagnosis and can be explained by the need for urgent investigation of papilloedema with brain imaging and spinal fluid analysis. However, there is also a considerable excess in unscheduled hospital admissions up to 2 years after diagnosis,” the authors reported.

They suggested that these admissions are likely to be for severe headache, and they say there is some scope to reduce emergency admissions through better management of headache, patient education, and rapid access to outpatient specialist advice.

They also pointed out that the rate of unscheduled admissions is higher in the IIH cohort in the 3 years leading up to diagnosis, suggesting an opportunity for earlier diagnosis and earlier intervention.

In their study population, 8% of patients with IIH received CSF diversion procedures a mean of 1.3 years after diagnosis, and these patients showed significantly increased unscheduled health care admission rates, compared with IIH patients who had not undergone such procedures.

“There are frequent complications with the shunts after surgery, which causes a high revision rate,” Dr. Pickrell commented. In this study, 40% of patients undergoing CSF diversion needed at least one CSF shunt revision procedure.

The study was supported by the Brain Repair and Intracranial Neurotherapeutics unit, Wales Gene Park, Health Data Research UK, Engineering and Physical Sciences Research Council, Economic and Social Research Council, Department of Health and Social Care (England), Chief Scientist Office of the Scottish Government Health and Social Care Directorates, Health and Social Care Research and Development Division (Wales), Public Health Agency (Northern Ireland), British Heart Foundation, and Wellcome Trust. The authors reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

The incidence of idiopathic intracranial hypertension (IIH) – characterized by increased cerebrospinal fluid (CSF) pressure – is rising considerably, corresponding to population increases in body mass index (BMI), a new study has shown. “The condition is associated with a high rate of health care utilization, so the increasing incidence has important implications for health care professionals and policy makers in addressing the associated comorbidities,” said senior author William Owen Pickrell, PhD, Swansea University (Wales).

The study was published online Jan. 20 in Neurology.

IIH is a condition of unknown etiology that is strongly associated with obesity, the researchers noted. Predominantly affecting women of childbearing age, it causes chronic disabling headaches, visual disturbance, and in a minority of patients, permanent visual loss. The definitive management is weight loss, but a minority of patients require surgery to preserve vision.

People with IIH potentially have high rates of health care utilization, multiple specialist consultations, diagnostic tests, CSF diversion procedures, and complications related to CSF diversion surgery.  
 

Population study in Wales

Given that there is a paucity of data regarding the epidemiology, health care utilization, and outcomes of people with IIH, Dr. Pickrell and colleagues conducted the current retrospective cohort study, which aimed to determine the temporal trends of IIH incidence and prevalence in Wales and health care utilization associated with IIH. They also investigated the effects of socioeconomic deprivation and obesity on IIH epidemiology.

For the study, they used and validated primary and secondary care IIH diagnostic codes within the Secure Anonymised Information Linkage data bank, which is part of the national e-health records research infrastructure for Wales, to ascertain IIH cases and controls between 2003 and 2017. In total, 35 million patient-years of data were analyzed. Information was recorded on body mass index, deprivation quintile, CSF diversion surgery, and unscheduled hospital admissions in case and control cohorts.

“This is the first time the diagnostic codes for this condition have been validated. This is important as it is critical if we are studying a condition to know that the individuals we are studying actually have that condition,” Dr. Pickrell commented. “We were able to establish that the diagnostic codes were 92% sensitive and 87% specific – that’s pretty good.”

Results showed a significant increase in IIH incidence and prevalence in Wales. The prevalence of IIH in Wales increased sixfold from 12/100,000 in 2003 to 76/100,000 in 2017, and the incidence of IIH increased threefold from 2.3/100,000 per year in 2003 to 7.8/100,000 per year in 2017. This corresponded with increases in obesity rates: 29% of the population was obese in 2003, compared with 40% in 2017.
 

Reasons for the increase

“The considerable increase in IIH incidence is multifactorial but likely predominately due to rising obesity rates,” the authors noted. “The worldwide prevalence of obesity nearly tripled between 1975 and 2016 and therefore these results also have global relevance.”

The increase in IIH incidence may also be attributable to increased IIH diagnosis rates because of raised awareness of the condition and greater use of digital fundoscopy at routine optometry appointments, they suggested.

“We found a strong association between increasing BMI, sex (being female), and IIH. Around 85% of our IIH cohort were female, similar to other studies, and we also found a significant association with increased deprivation and IIH, particularly in women,” the authors reported.

IIH is associated with increasing deprivation in women even after adjusting for obesity suggesting additional etiologic factors associated with deprivation apart from BMI; this effect was not seen in men, pointing to sex-specific drivers for IIH, they added.

The results also show that individuals with IIH have increased rates of unscheduled health care utilization compared with a matched-control cohort. The rate ratio for unscheduled hospital admissions in the IIH cohort, compared with controls was 5.28.

“A considerable proportion of this excess in unscheduled hospital admissions occurs at the time of diagnosis and can be explained by the need for urgent investigation of papilloedema with brain imaging and spinal fluid analysis. However, there is also a considerable excess in unscheduled hospital admissions up to 2 years after diagnosis,” the authors reported.

They suggested that these admissions are likely to be for severe headache, and they say there is some scope to reduce emergency admissions through better management of headache, patient education, and rapid access to outpatient specialist advice.

They also pointed out that the rate of unscheduled admissions is higher in the IIH cohort in the 3 years leading up to diagnosis, suggesting an opportunity for earlier diagnosis and earlier intervention.

In their study population, 8% of patients with IIH received CSF diversion procedures a mean of 1.3 years after diagnosis, and these patients showed significantly increased unscheduled health care admission rates, compared with IIH patients who had not undergone such procedures.

“There are frequent complications with the shunts after surgery, which causes a high revision rate,” Dr. Pickrell commented. In this study, 40% of patients undergoing CSF diversion needed at least one CSF shunt revision procedure.

The study was supported by the Brain Repair and Intracranial Neurotherapeutics unit, Wales Gene Park, Health Data Research UK, Engineering and Physical Sciences Research Council, Economic and Social Research Council, Department of Health and Social Care (England), Chief Scientist Office of the Scottish Government Health and Social Care Directorates, Health and Social Care Research and Development Division (Wales), Public Health Agency (Northern Ireland), British Heart Foundation, and Wellcome Trust. The authors reported no relevant financial relationships.

A version of this article first appeared on Medscape.com.

Women who experienced severe complications during pregnancy were more than twice as likely to die at any time after their last pregnancy, including post partum and beyond, based on data from more than 1 million women.

“Current data suggest that up to 88% of maternal deaths are preceded by severe maternal morbidity,” but the long-term risk of mortality and the effect of severe maternal morbidity has not been well studied, wrote U. Vivian Ukah, MPH, PhD, of McGill University, Montreal, and colleagues.

In a longitudinal cohort study published in Obstetrics & Gynecology, the researchers identified 1,229,306 pregnant women who delivered in Quebec between 1989 and 2016.

The primary outcome of in-hospital mortality after the last pregnancy, either post partum (within 42 days of delivery) or long term (43 days to 29 years after delivery).

Overall, 2.9% of the study population experienced severe maternal morbidity, with an associated mortality rate of 0.86 per 1,000 person-years versus 0.41 per 1,000 person-years in women without severe maternal morbidity. The median time to death for women with severe maternal mortality was 6.8 years, compared with 151 years for those without severe maternal morbidity.

The death rate at any time after delivery, post partum and beyond, was twice as high among women with severe maternal morbidity. The morbidities most often associated with long-term mortality after 42 days were severe cardiac complications (hazard ratio, 7.00), acute renal failure (HR, 4.35), and cerebrovascular accidents (HR, 4.03).

However, the mortality risk following severe maternal morbidity decreased over time, the researchers noted. Severe maternal morbidity was associated with 6.73 times the mortality risk, compared with no morbidity, during the period from 43 days to 11 months, but this difference dropped to 1.91, 1.77, and 1.18 times the risk, compared with no comorbidity, at 1-4 years, 5-9 years, and 10-29 years, respectively.

The study findings were limited by several factors, including the inability to prove causality, the use of only in-hospital mortality data, and the potential for missed cases that fell outside the Canadian Perinatal Surveillance System definition of severe maternal morbidity, the researchers noted.

However, the results suggest that identifying severe maternal morbidity may help identify women at risk for postpartum and long-term premature mortality. “Women with severe maternal morbidity may benefit from continued surveillance and preventative interventions to reduce the risk of premature mortality,” they concluded.

Increased morbidity rates drive need for research

“In this retrospective longitudinal cohort study of over 1.2 million women delivering in Quebec between 1989 and 2016, Dr. Ukah and her colleagues demonstrated the association between severe maternal morbidity [SMM] and an accelerated risk of mortality beyond the postpartum period, compared with women who do not experience SMM,” Rachel Humphrey, MD, a maternal-fetal medicine specialist at Advent Health in Orlando, said in an interview. “This study is important as there has been a steady increase in SMM in recent years. In the United States, the CDC reports that SMM affected more than 50,000 women in 2014 alone. Across multiple countries the decline in overall health of women giving birth is felt to contribute to SMM. As the rates of preexisting conditions such as maternal obesity, hypertension, diabetes, and advanced age increases, we can assume that SMM will increase as well. This study clearly depicts the association between SMM and maternal death at 43 days to years after the complicated delivery. We can assume that, as SMM increases, so will the risk of mortality beyond the postpartum period for these women who initially survive their serious pregnancy complication.”

Dr. Humphrey said that, in some respects, the study results are to be expected. “It is logical to assume that a patient with a life-threatening issue at delivery such as severe cardiac complications, acute renal failure and cerebrovascular accident would be at higher risk for long-term morbidity and mortality. This study also adds to the large body of evidence linking socioeconomic deprivation with SMM. But there were unexpected findings in this study. I did not expect certain types of SMM to be associated with an increased risk of death years after the event.For example, hysterectomy at delivery carried a hazard ratio of 3.54 for death at 5-9 years after the event. The association between severe hemorrhage and fully adjusted hazard ratio was similarly increased at 2.96 [2.37-3.71].”

 

More screening and prospective studies needed

“Recognizing the association between SMM and accelerated long-term risk of mortality is a first step in determining what interventions might improve health and longevity in women who experience SMM,” said Dr. Humphrey. “With the absence of prospective studies, it still is logical to assume that close medical follow-up and lifestyle interventions are appropriate in this population. Screening for and actively managing chronic conditions such as diabetes, dyslipidemia, and hypertension seems appropriate for these patients.”

As for further research, “I am interested to know through prospective clinical trials if specific health maintenance screens and interventions would have a positive impact on the life expectancy of survivors of SMM,” said Dr. Humphrey. “I applaud this team for providing data up to 27 years after an obstetric complication, and I am interested to see if Dr. Ukah and her team will continue their research to determine if there is a ‘second peak’ in mortality in the survivors of SMM when they are elderly. Finally, I would be interested to see more detailed data from this team on the associations between socioeconomic deprivation and short- and long-term mortality for women in their study. This information may help further fuel the movement toward social changes to maximize the health of the women and families we serve.”

The study was supported by the Heart & Stroke Foundation of Canada and awards to the lead author and others from the Fonds de recherche du Québec-Santé. The researchers and Dr. Humphrey had no financial conflicts to disclose.

Women who experienced severe complications during pregnancy were more than twice as likely to die at any time after their last pregnancy, including post partum and beyond, based on data from more than 1 million women.

“Current data suggest that up to 88% of maternal deaths are preceded by severe maternal morbidity,” but the long-term risk of mortality and the effect of severe maternal morbidity has not been well studied, wrote U. Vivian Ukah, MPH, PhD, of McGill University, Montreal, and colleagues.

In a longitudinal cohort study published in Obstetrics & Gynecology, the researchers identified 1,229,306 pregnant women who delivered in Quebec between 1989 and 2016.

The primary outcome of in-hospital mortality after the last pregnancy, either post partum (within 42 days of delivery) or long term (43 days to 29 years after delivery).

Overall, 2.9% of the study population experienced severe maternal morbidity, with an associated mortality rate of 0.86 per 1,000 person-years versus 0.41 per 1,000 person-years in women without severe maternal morbidity. The median time to death for women with severe maternal mortality was 6.8 years, compared with 151 years for those without severe maternal morbidity.

The death rate at any time after delivery, post partum and beyond, was twice as high among women with severe maternal morbidity. The morbidities most often associated with long-term mortality after 42 days were severe cardiac complications (hazard ratio, 7.00), acute renal failure (HR, 4.35), and cerebrovascular accidents (HR, 4.03).

However, the mortality risk following severe maternal morbidity decreased over time, the researchers noted. Severe maternal morbidity was associated with 6.73 times the mortality risk, compared with no morbidity, during the period from 43 days to 11 months, but this difference dropped to 1.91, 1.77, and 1.18 times the risk, compared with no comorbidity, at 1-4 years, 5-9 years, and 10-29 years, respectively.

The study findings were limited by several factors, including the inability to prove causality, the use of only in-hospital mortality data, and the potential for missed cases that fell outside the Canadian Perinatal Surveillance System definition of severe maternal morbidity, the researchers noted.

However, the results suggest that identifying severe maternal morbidity may help identify women at risk for postpartum and long-term premature mortality. “Women with severe maternal morbidity may benefit from continued surveillance and preventative interventions to reduce the risk of premature mortality,” they concluded.

Increased morbidity rates drive need for research

“In this retrospective longitudinal cohort study of over 1.2 million women delivering in Quebec between 1989 and 2016, Dr. Ukah and her colleagues demonstrated the association between severe maternal morbidity [SMM] and an accelerated risk of mortality beyond the postpartum period, compared with women who do not experience SMM,” Rachel Humphrey, MD, a maternal-fetal medicine specialist at Advent Health in Orlando, said in an interview. “This study is important as there has been a steady increase in SMM in recent years. In the United States, the CDC reports that SMM affected more than 50,000 women in 2014 alone. Across multiple countries the decline in overall health of women giving birth is felt to contribute to SMM. As the rates of preexisting conditions such as maternal obesity, hypertension, diabetes, and advanced age increases, we can assume that SMM will increase as well. This study clearly depicts the association between SMM and maternal death at 43 days to years after the complicated delivery. We can assume that, as SMM increases, so will the risk of mortality beyond the postpartum period for these women who initially survive their serious pregnancy complication.”

Dr. Humphrey said that, in some respects, the study results are to be expected. “It is logical to assume that a patient with a life-threatening issue at delivery such as severe cardiac complications, acute renal failure and cerebrovascular accident would be at higher risk for long-term morbidity and mortality. This study also adds to the large body of evidence linking socioeconomic deprivation with SMM. But there were unexpected findings in this study. I did not expect certain types of SMM to be associated with an increased risk of death years after the event.For example, hysterectomy at delivery carried a hazard ratio of 3.54 for death at 5-9 years after the event. The association between severe hemorrhage and fully adjusted hazard ratio was similarly increased at 2.96 [2.37-3.71].”

 

More screening and prospective studies needed

“Recognizing the association between SMM and accelerated long-term risk of mortality is a first step in determining what interventions might improve health and longevity in women who experience SMM,” said Dr. Humphrey. “With the absence of prospective studies, it still is logical to assume that close medical follow-up and lifestyle interventions are appropriate in this population. Screening for and actively managing chronic conditions such as diabetes, dyslipidemia, and hypertension seems appropriate for these patients.”

As for further research, “I am interested to know through prospective clinical trials if specific health maintenance screens and interventions would have a positive impact on the life expectancy of survivors of SMM,” said Dr. Humphrey. “I applaud this team for providing data up to 27 years after an obstetric complication, and I am interested to see if Dr. Ukah and her team will continue their research to determine if there is a ‘second peak’ in mortality in the survivors of SMM when they are elderly. Finally, I would be interested to see more detailed data from this team on the associations between socioeconomic deprivation and short- and long-term mortality for women in their study. This information may help further fuel the movement toward social changes to maximize the health of the women and families we serve.”

The study was supported by the Heart & Stroke Foundation of Canada and awards to the lead author and others from the Fonds de recherche du Québec-Santé. The researchers and Dr. Humphrey had no financial conflicts to disclose.

Women who experienced severe complications during pregnancy were more than twice as likely to die at any time after their last pregnancy, including post partum and beyond, based on data from more than 1 million women.

“Current data suggest that up to 88% of maternal deaths are preceded by severe maternal morbidity,” but the long-term risk of mortality and the effect of severe maternal morbidity has not been well studied, wrote U. Vivian Ukah, MPH, PhD, of McGill University, Montreal, and colleagues.

In a longitudinal cohort study published in Obstetrics & Gynecology, the researchers identified 1,229,306 pregnant women who delivered in Quebec between 1989 and 2016.

The primary outcome of in-hospital mortality after the last pregnancy, either post partum (within 42 days of delivery) or long term (43 days to 29 years after delivery).

Overall, 2.9% of the study population experienced severe maternal morbidity, with an associated mortality rate of 0.86 per 1,000 person-years versus 0.41 per 1,000 person-years in women without severe maternal morbidity. The median time to death for women with severe maternal mortality was 6.8 years, compared with 151 years for those without severe maternal morbidity.

The death rate at any time after delivery, post partum and beyond, was twice as high among women with severe maternal morbidity. The morbidities most often associated with long-term mortality after 42 days were severe cardiac complications (hazard ratio, 7.00), acute renal failure (HR, 4.35), and cerebrovascular accidents (HR, 4.03).

However, the mortality risk following severe maternal morbidity decreased over time, the researchers noted. Severe maternal morbidity was associated with 6.73 times the mortality risk, compared with no morbidity, during the period from 43 days to 11 months, but this difference dropped to 1.91, 1.77, and 1.18 times the risk, compared with no comorbidity, at 1-4 years, 5-9 years, and 10-29 years, respectively.

The study findings were limited by several factors, including the inability to prove causality, the use of only in-hospital mortality data, and the potential for missed cases that fell outside the Canadian Perinatal Surveillance System definition of severe maternal morbidity, the researchers noted.

However, the results suggest that identifying severe maternal morbidity may help identify women at risk for postpartum and long-term premature mortality. “Women with severe maternal morbidity may benefit from continued surveillance and preventative interventions to reduce the risk of premature mortality,” they concluded.

Increased morbidity rates drive need for research

“In this retrospective longitudinal cohort study of over 1.2 million women delivering in Quebec between 1989 and 2016, Dr. Ukah and her colleagues demonstrated the association between severe maternal morbidity [SMM] and an accelerated risk of mortality beyond the postpartum period, compared with women who do not experience SMM,” Rachel Humphrey, MD, a maternal-fetal medicine specialist at Advent Health in Orlando, said in an interview. “This study is important as there has been a steady increase in SMM in recent years. In the United States, the CDC reports that SMM affected more than 50,000 women in 2014 alone. Across multiple countries the decline in overall health of women giving birth is felt to contribute to SMM. As the rates of preexisting conditions such as maternal obesity, hypertension, diabetes, and advanced age increases, we can assume that SMM will increase as well. This study clearly depicts the association between SMM and maternal death at 43 days to years after the complicated delivery. We can assume that, as SMM increases, so will the risk of mortality beyond the postpartum period for these women who initially survive their serious pregnancy complication.”

Dr. Humphrey said that, in some respects, the study results are to be expected. “It is logical to assume that a patient with a life-threatening issue at delivery such as severe cardiac complications, acute renal failure and cerebrovascular accident would be at higher risk for long-term morbidity and mortality. This study also adds to the large body of evidence linking socioeconomic deprivation with SMM. But there were unexpected findings in this study. I did not expect certain types of SMM to be associated with an increased risk of death years after the event.For example, hysterectomy at delivery carried a hazard ratio of 3.54 for death at 5-9 years after the event. The association between severe hemorrhage and fully adjusted hazard ratio was similarly increased at 2.96 [2.37-3.71].”

 

More screening and prospective studies needed

“Recognizing the association between SMM and accelerated long-term risk of mortality is a first step in determining what interventions might improve health and longevity in women who experience SMM,” said Dr. Humphrey. “With the absence of prospective studies, it still is logical to assume that close medical follow-up and lifestyle interventions are appropriate in this population. Screening for and actively managing chronic conditions such as diabetes, dyslipidemia, and hypertension seems appropriate for these patients.”

As for further research, “I am interested to know through prospective clinical trials if specific health maintenance screens and interventions would have a positive impact on the life expectancy of survivors of SMM,” said Dr. Humphrey. “I applaud this team for providing data up to 27 years after an obstetric complication, and I am interested to see if Dr. Ukah and her team will continue their research to determine if there is a ‘second peak’ in mortality in the survivors of SMM when they are elderly. Finally, I would be interested to see more detailed data from this team on the associations between socioeconomic deprivation and short- and long-term mortality for women in their study. This information may help further fuel the movement toward social changes to maximize the health of the women and families we serve.”

The study was supported by the Heart & Stroke Foundation of Canada and awards to the lead author and others from the Fonds de recherche du Québec-Santé. The researchers and Dr. Humphrey had no financial conflicts to disclose.

While many people were committing to their New Year’s resolutions to lose weight, in January 2020 Cosmopolitan UK magazine released covers portraying 11 women of different shapes and sizes, with the headline, “This is healthy!” Each version of the cover features one or more of the 11 women wearing athletic gear and makeup, some of whom are caught mid-action – boxing, doing yoga, or simply rejoicing in being who they are. Seeing these, I was reminded of a patient I cared for as an intern.

Janet Spears (not her real name) was thin. Standing barely 5 feet 3 inches, she weighed 110 pounds. For those out there who think of size in terms of body mass index (BMI), it was about 20 kg/m², solidly in the “normal” category. At the age of 62, despite this healthy BMI, she had so much plaque in her arteries that she needed surgery to improve blood flow to her foot.

Admittedly, whenever I had read about people with high cholesterol, type 2 diabetes, or atherosclerosis, I pictured bigger people. But when I met Ms. Spears, I realized that one’s health cannot necessarily be inferred from physical appearance.

As a bariatric surgeon board certified in obesity medicine, I’ve probably spent more time thinking and learning about obesity than most people – and yet I still didn’t know what to make of the Cosmopolitan covers.

I saw the reaction on Twitter before I saw the magazines themselves, and I quickly observed a number of people decrying the covers, suggesting that they promote obesity:

Multiple people suggested that this was inappropriate, especially in the context of the COVID-19 pandemic and the fact that people with obesity are at risk for worse outcomes, compared with those without obesity. (As an aside, these comments suggest that people did not read the associated article, which is about fitness and body image more than it is about obesity.)
 

Does size reflect health?

Putting the pandemic aside for a moment, the question the magazine covers raise is whether physical appearance reflects health. That’s what got me thinking about Ms. Spears, who, though appearing healthy, was sick enough that she needed to have major surgery. This whole conversation hinges, of course, on one’s definition of health.

A common knee-jerk response, especially from physicians, would be to say that obesity is by definition unhealthy. Some researchers have suggested though that a segment of people with obesity fall into a category called metabolically healthy obesity, which is typically characterized by a limited set of data such as cholesterol, blood sugar, and blood pressure. Indeed, some people with obesity have normal values in those categories.

Being metabolically healthy, however, does not preclude other medical problems associated with obesity, including joint pain, cancer, and mood disorders, among other issues. So even those who have metabolically healthy obesity are not necessarily immune to the many other obesity-related conditions.
 

What about body positivity?

As I delved further into the conversation about these covers, I saw people embracing the idea of promoting different-sized bodies. With almost two thirds of the U.S. population having overweight or obesity, one might argue that it’s high time magazine covers and the media reflect the reality in our hometowns. Unrealistic images in the media are associated with negative self-image and disordered eating, so perhaps embracing the shapes of real people may help us all have healthier attitudes toward our bodies.

That said, this idea can be taken too far. The Health at Every Size movement, which some might consider to be the ultimate body-positivity movement, espouses the idea that size and health are completely unrelated. That crosses a line between what we know to be true – that, at a population level, higher weight is associated with more medical problems – and fake news.

Another idea to consider is fitness, as opposed to health. Fitness can be defined multiple ways, but if we consider it to be measured exercise capacity, those who are more fit have a longer life expectancy than those with lower fitness levels at a given BMI. While some feel that the Cosmopolitan covers promote obesity and are therefore irresponsible, it’s at least as likely that highlighting people with obesity being active may inspire others with obesity to do the same.

Now let’s bring the pandemic back into the picture. As much as we all wish that it was over, with uncontrolled spread in every state and record numbers of people dying, COVID-19 is still very much a part of our reality. Having obesity increases the risk of having a severe case of COVID-19 if infected. Patients with obesity are also more likely than those without obesity to be hospitalized, require intensive care, and die with COVID-19.
 

Guiding the conversation

Pandemic or not, the truth is that obesity is related to multiple medical problems. That does not mean that every person with obesity has medical problems. The musician Lizzo, for example, is someone with obesity who considers herself to be healthy. She posts images and videos of working out and shares her personal fitness routine with her millions of fans. As a physician, I worry about the medical conditions – metabolic or otherwise – that someone like her may develop. But I love how she embraces who she is while striving to be healthier.

Most of the critical comments I have seen about the Cosmopolitan covers have, at best, bordered on fat shaming; others are solidly in that category. And the vitriol aimed at the larger models is despicable. It seems that conversations about obesity often vacillate from one extreme (fat shaming) to the other (extreme body positivity).

Although it may not sell magazines, I would love to see more nuanced, fact-based discussions, both in the media and in our clinics. We can start by acknowledging the fact that people of different sizes can be healthy. The truth is that we can’t tell very much about a person’s health from their outward appearance, and we should probably stop trying to make such inferences.

Assessment of health is most accurately judged by each person with their medical team, not by observers who use media images as part of their own propaganda machine, pushing one extreme view or another. As physicians, we have the opportunity and the responsibility to support our patients in the pursuit of health, without shame or judgment. Maybe that’s a New Year’s resolution worth committing to.

Arghavan Salles, MD, PhD, is a bariatric surgeon.

A version of this article first appeared on Medscape.com.

While many people were committing to their New Year’s resolutions to lose weight, in January 2020 Cosmopolitan UK magazine released covers portraying 11 women of different shapes and sizes, with the headline, “This is healthy!” Each version of the cover features one or more of the 11 women wearing athletic gear and makeup, some of whom are caught mid-action – boxing, doing yoga, or simply rejoicing in being who they are. Seeing these, I was reminded of a patient I cared for as an intern.

Janet Spears (not her real name) was thin. Standing barely 5 feet 3 inches, she weighed 110 pounds. For those out there who think of size in terms of body mass index (BMI), it was about 20 kg/m², solidly in the “normal” category. At the age of 62, despite this healthy BMI, she had so much plaque in her arteries that she needed surgery to improve blood flow to her foot.

Admittedly, whenever I had read about people with high cholesterol, type 2 diabetes, or atherosclerosis, I pictured bigger people. But when I met Ms. Spears, I realized that one’s health cannot necessarily be inferred from physical appearance.

As a bariatric surgeon board certified in obesity medicine, I’ve probably spent more time thinking and learning about obesity than most people – and yet I still didn’t know what to make of the Cosmopolitan covers.

I saw the reaction on Twitter before I saw the magazines themselves, and I quickly observed a number of people decrying the covers, suggesting that they promote obesity:

Multiple people suggested that this was inappropriate, especially in the context of the COVID-19 pandemic and the fact that people with obesity are at risk for worse outcomes, compared with those without obesity. (As an aside, these comments suggest that people did not read the associated article, which is about fitness and body image more than it is about obesity.)
 

Does size reflect health?

Putting the pandemic aside for a moment, the question the magazine covers raise is whether physical appearance reflects health. That’s what got me thinking about Ms. Spears, who, though appearing healthy, was sick enough that she needed to have major surgery. This whole conversation hinges, of course, on one’s definition of health.

A common knee-jerk response, especially from physicians, would be to say that obesity is by definition unhealthy. Some researchers have suggested though that a segment of people with obesity fall into a category called metabolically healthy obesity, which is typically characterized by a limited set of data such as cholesterol, blood sugar, and blood pressure. Indeed, some people with obesity have normal values in those categories.

Being metabolically healthy, however, does not preclude other medical problems associated with obesity, including joint pain, cancer, and mood disorders, among other issues. So even those who have metabolically healthy obesity are not necessarily immune to the many other obesity-related conditions.
 

What about body positivity?

As I delved further into the conversation about these covers, I saw people embracing the idea of promoting different-sized bodies. With almost two thirds of the U.S. population having overweight or obesity, one might argue that it’s high time magazine covers and the media reflect the reality in our hometowns. Unrealistic images in the media are associated with negative self-image and disordered eating, so perhaps embracing the shapes of real people may help us all have healthier attitudes toward our bodies.

That said, this idea can be taken too far. The Health at Every Size movement, which some might consider to be the ultimate body-positivity movement, espouses the idea that size and health are completely unrelated. That crosses a line between what we know to be true – that, at a population level, higher weight is associated with more medical problems – and fake news.

Another idea to consider is fitness, as opposed to health. Fitness can be defined multiple ways, but if we consider it to be measured exercise capacity, those who are more fit have a longer life expectancy than those with lower fitness levels at a given BMI. While some feel that the Cosmopolitan covers promote obesity and are therefore irresponsible, it’s at least as likely that highlighting people with obesity being active may inspire others with obesity to do the same.

Now let’s bring the pandemic back into the picture. As much as we all wish that it was over, with uncontrolled spread in every state and record numbers of people dying, COVID-19 is still very much a part of our reality. Having obesity increases the risk of having a severe case of COVID-19 if infected. Patients with obesity are also more likely than those without obesity to be hospitalized, require intensive care, and die with COVID-19.
 

Guiding the conversation

Pandemic or not, the truth is that obesity is related to multiple medical problems. That does not mean that every person with obesity has medical problems. The musician Lizzo, for example, is someone with obesity who considers herself to be healthy. She posts images and videos of working out and shares her personal fitness routine with her millions of fans. As a physician, I worry about the medical conditions – metabolic or otherwise – that someone like her may develop. But I love how she embraces who she is while striving to be healthier.

Most of the critical comments I have seen about the Cosmopolitan covers have, at best, bordered on fat shaming; others are solidly in that category. And the vitriol aimed at the larger models is despicable. It seems that conversations about obesity often vacillate from one extreme (fat shaming) to the other (extreme body positivity).

Although it may not sell magazines, I would love to see more nuanced, fact-based discussions, both in the media and in our clinics. We can start by acknowledging the fact that people of different sizes can be healthy. The truth is that we can’t tell very much about a person’s health from their outward appearance, and we should probably stop trying to make such inferences.

Assessment of health is most accurately judged by each person with their medical team, not by observers who use media images as part of their own propaganda machine, pushing one extreme view or another. As physicians, we have the opportunity and the responsibility to support our patients in the pursuit of health, without shame or judgment. Maybe that’s a New Year’s resolution worth committing to.

Arghavan Salles, MD, PhD, is a bariatric surgeon.

A version of this article first appeared on Medscape.com.

While many people were committing to their New Year’s resolutions to lose weight, in January 2020 Cosmopolitan UK magazine released covers portraying 11 women of different shapes and sizes, with the headline, “This is healthy!” Each version of the cover features one or more of the 11 women wearing athletic gear and makeup, some of whom are caught mid-action – boxing, doing yoga, or simply rejoicing in being who they are. Seeing these, I was reminded of a patient I cared for as an intern.

Janet Spears (not her real name) was thin. Standing barely 5 feet 3 inches, she weighed 110 pounds. For those out there who think of size in terms of body mass index (BMI), it was about 20 kg/m², solidly in the “normal” category. At the age of 62, despite this healthy BMI, she had so much plaque in her arteries that she needed surgery to improve blood flow to her foot.

Admittedly, whenever I had read about people with high cholesterol, type 2 diabetes, or atherosclerosis, I pictured bigger people. But when I met Ms. Spears, I realized that one’s health cannot necessarily be inferred from physical appearance.

As a bariatric surgeon board certified in obesity medicine, I’ve probably spent more time thinking and learning about obesity than most people – and yet I still didn’t know what to make of the Cosmopolitan covers.

I saw the reaction on Twitter before I saw the magazines themselves, and I quickly observed a number of people decrying the covers, suggesting that they promote obesity:

Multiple people suggested that this was inappropriate, especially in the context of the COVID-19 pandemic and the fact that people with obesity are at risk for worse outcomes, compared with those without obesity. (As an aside, these comments suggest that people did not read the associated article, which is about fitness and body image more than it is about obesity.)
 

Does size reflect health?

Putting the pandemic aside for a moment, the question the magazine covers raise is whether physical appearance reflects health. That’s what got me thinking about Ms. Spears, who, though appearing healthy, was sick enough that she needed to have major surgery. This whole conversation hinges, of course, on one’s definition of health.

A common knee-jerk response, especially from physicians, would be to say that obesity is by definition unhealthy. Some researchers have suggested though that a segment of people with obesity fall into a category called metabolically healthy obesity, which is typically characterized by a limited set of data such as cholesterol, blood sugar, and blood pressure. Indeed, some people with obesity have normal values in those categories.

Being metabolically healthy, however, does not preclude other medical problems associated with obesity, including joint pain, cancer, and mood disorders, among other issues. So even those who have metabolically healthy obesity are not necessarily immune to the many other obesity-related conditions.
 

What about body positivity?

As I delved further into the conversation about these covers, I saw people embracing the idea of promoting different-sized bodies. With almost two thirds of the U.S. population having overweight or obesity, one might argue that it’s high time magazine covers and the media reflect the reality in our hometowns. Unrealistic images in the media are associated with negative self-image and disordered eating, so perhaps embracing the shapes of real people may help us all have healthier attitudes toward our bodies.

That said, this idea can be taken too far. The Health at Every Size movement, which some might consider to be the ultimate body-positivity movement, espouses the idea that size and health are completely unrelated. That crosses a line between what we know to be true – that, at a population level, higher weight is associated with more medical problems – and fake news.

Another idea to consider is fitness, as opposed to health. Fitness can be defined multiple ways, but if we consider it to be measured exercise capacity, those who are more fit have a longer life expectancy than those with lower fitness levels at a given BMI. While some feel that the Cosmopolitan covers promote obesity and are therefore irresponsible, it’s at least as likely that highlighting people with obesity being active may inspire others with obesity to do the same.

Now let’s bring the pandemic back into the picture. As much as we all wish that it was over, with uncontrolled spread in every state and record numbers of people dying, COVID-19 is still very much a part of our reality. Having obesity increases the risk of having a severe case of COVID-19 if infected. Patients with obesity are also more likely than those without obesity to be hospitalized, require intensive care, and die with COVID-19.
 

Guiding the conversation

Pandemic or not, the truth is that obesity is related to multiple medical problems. That does not mean that every person with obesity has medical problems. The musician Lizzo, for example, is someone with obesity who considers herself to be healthy. She posts images and videos of working out and shares her personal fitness routine with her millions of fans. As a physician, I worry about the medical conditions – metabolic or otherwise – that someone like her may develop. But I love how she embraces who she is while striving to be healthier.

Most of the critical comments I have seen about the Cosmopolitan covers have, at best, bordered on fat shaming; others are solidly in that category. And the vitriol aimed at the larger models is despicable. It seems that conversations about obesity often vacillate from one extreme (fat shaming) to the other (extreme body positivity).

Although it may not sell magazines, I would love to see more nuanced, fact-based discussions, both in the media and in our clinics. We can start by acknowledging the fact that people of different sizes can be healthy. The truth is that we can’t tell very much about a person’s health from their outward appearance, and we should probably stop trying to make such inferences.

Assessment of health is most accurately judged by each person with their medical team, not by observers who use media images as part of their own propaganda machine, pushing one extreme view or another. As physicians, we have the opportunity and the responsibility to support our patients in the pursuit of health, without shame or judgment. Maybe that’s a New Year’s resolution worth committing to.

Arghavan Salles, MD, PhD, is a bariatric surgeon.

A version of this article first appeared on Medscape.com.

In a phase 2 randomized clinical trial of adults with type 2 diabetes and obesity, investigational drug bimagrumab (BYM338, Novartis) – a monoclonal antibody that blocks activin type II receptors and stimulates skeletal muscle growth – led to big reductions in total body fat mass and A1c and significant increases in lean mass compared with placebo.

The efficacy and safety findings “suggest that blockade of the activin receptor with bimagrumab could provide a novel pharmacologic approach for managing patients with type 2 diabetes with excess adiposity,” Steven B. Heymsfield, MD, Pennington Biomedical Research Center, Louisiana State University System, Baton Rouge, and colleagues reported in their study, published online Jan. 13 in JAMA Network Open. 

Preliminary findings from the study of 75 patients treated for 48 weeks – in which neither group ate less despite intensive nutrition advice – were presented at Obesity Week in 2019.

As reported then, Lee M. Kaplan, MD, PhD, noted that the 6.5% weight loss in the bimagrumab group was similar to that seen with antiobesity medications that suppress appetite.

“What it suggests,” he said in an interview, “is that there may be a completely new mechanism at play here,” because patients receiving bimagrumab weren’t eating less but were losing the same amount of weight as reported for weight-loss drugs that work by decreasing appetite.

“Is this going to be the kind of complementary drug with a different mechanism that’s going to augment the effects of other drugs?” wondered Dr. Kaplan, director of the Obesity, Metabolism & Nutrition Institute at Massachusetts General Hospital, Boston, who has previously served as a scientific consultant to Novartis.

Asked about future plans for bimagrumab, a Novartis spokesperson said in an interview, “We are currently reviewing the program strategy and considering next steps.”
 

Four FDA-approved weight-loss drugs now approved

The Food and Drug Administration approval for lorcaserin (Belviq, Belviq XR, Eisai) for weight loss was rescinded on Feb. 13, 2020, when a postmarketing trial revealed an increased occurrence of cancer, leaving four drugs approved for weight loss in the United States, plus several drugs in development, Dr. Heymsfield and colleagues wrote.

The current phase 2 trial was designed to determine the safety and efficacy of bimagrumab – which had originally been studied to see if it would increase lean muscle mass in people with sarcopenia – on total body fat mass and glycemic control in patients with type 2 diabetes and overweight or obesity.

Researchers enrolled 75 adults at eight sites in the United States and one in Wales, United Kingdom, from 2017 to 2019.

On average, patients were 60 years old with an A1c of 7.8% and a body mass index of 32.9 kg/m²; they weighed 93.6 kg and had a fat mass of 35 kg.

Patients received an intravenous infusion of bimagrumab (10 mg/kg up to 1,200 mg in 5% dextrose solution) or placebo (5% dextrose solution) every 4 weeks for 48 weeks. They met with a registered dietitian at each monthly study visit and had a virtual check-in between visits.

Participants were advised to follow a diet that would cut 500 calories a day and encouraged to follow the American Diabetes Association walking program.

Body fat mass was measured by dual-energy x-ray absorptiometry (DEXA).

There were more women in the bimagrumab group than in the placebo group (62% vs. 32%), but baseline BMI, total body fat mass, and A1c were similar in both groups.
 

Same caloric intake, less fat tissue, more muscle, smaller waist

At 48 weeks in the bimagrumab vs. placebo group, there was on average (all P < .001):

• A loss of 20.5% vs. 0.5% (−7.5 vs. −0.2 kg) of total body fat mass.
• A loss of 6.5% vs. 0.8% (−5.9 vs. −0.8 kg) of body weight.  
• A gain of 3.6% vs. a loss of 0.8% (1.7 vs. −0.4 kg) of lean mass.

Similarly, the relatively large between-group differences in total body fat mass and body weight at 48 weeks with bimagrumab were accompanied by favorable differences in BMI (−2.19 vs. −0.28 kg/m²; P < .001) and waist circumference (−9.0 vs. 0.5 cm; P < .001), the investigators pointed out.

Moreover, the reduction of abdominal visceral adipose tissue and waist circumference with bimagrumab “was nearly twice that observed in a recently published study of patients with type 2 diabetes treated with an intensive lifestyle program and the glucagon-like peptide 1 (GLP-1) agonist liraglutide,” they noted.

This highlights “the importance of moving away from body weight as a primary efficacy marker of drugs to more metabolically relevant endpoints.”

Also, A1c decreased by 0.76% in the bimagrumab group and increased by 0.04% in the placebo group (P = .005).

Serious adverse events occurred in three patients (8%) in the bimagrumab group (elevated lipase, epigastric pain, pancreatitis, pneumonia) and three patients (8%) in the placebo group (cellulitis, acute coronary syndrome, acute myocardial infarction, worsening gastroparesis, thermal burn).  

Adverse events were reported by 31 of 37 patients in the bimagrumab group, most often mild diarrhea (41%) and muscle spasms (41%), and 31 of 38 patients in the placebo group, most often headache (13%) and upper respiratory tract infection (13%).

The study was funded by Novartis. Dr. Heymsfield has reported receiving personal fees from Tanita and Medifast outside the submitted work. Disclosures for the other authors are listed in the article. Dr. Kaplan has reported previously serving as a scientific consultant to Novartis.

A version of this article first appeared on Medscape.com.

In a phase 2 randomized clinical trial of adults with type 2 diabetes and obesity, investigational drug bimagrumab (BYM338, Novartis) – a monoclonal antibody that blocks activin type II receptors and stimulates skeletal muscle growth – led to big reductions in total body fat mass and A1c and significant increases in lean mass compared with placebo.

The efficacy and safety findings “suggest that blockade of the activin receptor with bimagrumab could provide a novel pharmacologic approach for managing patients with type 2 diabetes with excess adiposity,” Steven B. Heymsfield, MD, Pennington Biomedical Research Center, Louisiana State University System, Baton Rouge, and colleagues reported in their study, published online Jan. 13 in JAMA Network Open. 

Preliminary findings from the study of 75 patients treated for 48 weeks – in which neither group ate less despite intensive nutrition advice – were presented at Obesity Week in 2019.

As reported then, Lee M. Kaplan, MD, PhD, noted that the 6.5% weight loss in the bimagrumab group was similar to that seen with antiobesity medications that suppress appetite.

“What it suggests,” he said in an interview, “is that there may be a completely new mechanism at play here,” because patients receiving bimagrumab weren’t eating less but were losing the same amount of weight as reported for weight-loss drugs that work by decreasing appetite.

“Is this going to be the kind of complementary drug with a different mechanism that’s going to augment the effects of other drugs?” wondered Dr. Kaplan, director of the Obesity, Metabolism & Nutrition Institute at Massachusetts General Hospital, Boston, who has previously served as a scientific consultant to Novartis.

Asked about future plans for bimagrumab, a Novartis spokesperson said in an interview, “We are currently reviewing the program strategy and considering next steps.”
 

Four FDA-approved weight-loss drugs now approved

The Food and Drug Administration approval for lorcaserin (Belviq, Belviq XR, Eisai) for weight loss was rescinded on Feb. 13, 2020, when a postmarketing trial revealed an increased occurrence of cancer, leaving four drugs approved for weight loss in the United States, plus several drugs in development, Dr. Heymsfield and colleagues wrote.

The current phase 2 trial was designed to determine the safety and efficacy of bimagrumab – which had originally been studied to see if it would increase lean muscle mass in people with sarcopenia – on total body fat mass and glycemic control in patients with type 2 diabetes and overweight or obesity.

Researchers enrolled 75 adults at eight sites in the United States and one in Wales, United Kingdom, from 2017 to 2019.

On average, patients were 60 years old with an A1c of 7.8% and a body mass index of 32.9 kg/m²; they weighed 93.6 kg and had a fat mass of 35 kg.

Patients received an intravenous infusion of bimagrumab (10 mg/kg up to 1,200 mg in 5% dextrose solution) or placebo (5% dextrose solution) every 4 weeks for 48 weeks. They met with a registered dietitian at each monthly study visit and had a virtual check-in between visits.

Participants were advised to follow a diet that would cut 500 calories a day and encouraged to follow the American Diabetes Association walking program.

Body fat mass was measured by dual-energy x-ray absorptiometry (DEXA).

There were more women in the bimagrumab group than in the placebo group (62% vs. 32%), but baseline BMI, total body fat mass, and A1c were similar in both groups.
 

Same caloric intake, less fat tissue, more muscle, smaller waist

At 48 weeks in the bimagrumab vs. placebo group, there was on average (all P < .001):

• A loss of 20.5% vs. 0.5% (−7.5 vs. −0.2 kg) of total body fat mass.
• A loss of 6.5% vs. 0.8% (−5.9 vs. −0.8 kg) of body weight.  
• A gain of 3.6% vs. a loss of 0.8% (1.7 vs. −0.4 kg) of lean mass.

Similarly, the relatively large between-group differences in total body fat mass and body weight at 48 weeks with bimagrumab were accompanied by favorable differences in BMI (−2.19 vs. −0.28 kg/m²; P < .001) and waist circumference (−9.0 vs. 0.5 cm; P < .001), the investigators pointed out.

Moreover, the reduction of abdominal visceral adipose tissue and waist circumference with bimagrumab “was nearly twice that observed in a recently published study of patients with type 2 diabetes treated with an intensive lifestyle program and the glucagon-like peptide 1 (GLP-1) agonist liraglutide,” they noted.

This highlights “the importance of moving away from body weight as a primary efficacy marker of drugs to more metabolically relevant endpoints.”

Also, A1c decreased by 0.76% in the bimagrumab group and increased by 0.04% in the placebo group (P = .005).

Serious adverse events occurred in three patients (8%) in the bimagrumab group (elevated lipase, epigastric pain, pancreatitis, pneumonia) and three patients (8%) in the placebo group (cellulitis, acute coronary syndrome, acute myocardial infarction, worsening gastroparesis, thermal burn).  

Adverse events were reported by 31 of 37 patients in the bimagrumab group, most often mild diarrhea (41%) and muscle spasms (41%), and 31 of 38 patients in the placebo group, most often headache (13%) and upper respiratory tract infection (13%).

The study was funded by Novartis. Dr. Heymsfield has reported receiving personal fees from Tanita and Medifast outside the submitted work. Disclosures for the other authors are listed in the article. Dr. Kaplan has reported previously serving as a scientific consultant to Novartis.

A version of this article first appeared on Medscape.com.

In a phase 2 randomized clinical trial of adults with type 2 diabetes and obesity, investigational drug bimagrumab (BYM338, Novartis) – a monoclonal antibody that blocks activin type II receptors and stimulates skeletal muscle growth – led to big reductions in total body fat mass and A1c and significant increases in lean mass compared with placebo.

The efficacy and safety findings “suggest that blockade of the activin receptor with bimagrumab could provide a novel pharmacologic approach for managing patients with type 2 diabetes with excess adiposity,” Steven B. Heymsfield, MD, Pennington Biomedical Research Center, Louisiana State University System, Baton Rouge, and colleagues reported in their study, published online Jan. 13 in JAMA Network Open. 

Preliminary findings from the study of 75 patients treated for 48 weeks – in which neither group ate less despite intensive nutrition advice – were presented at Obesity Week in 2019.

As reported then, Lee M. Kaplan, MD, PhD, noted that the 6.5% weight loss in the bimagrumab group was similar to that seen with antiobesity medications that suppress appetite.

“What it suggests,” he said in an interview, “is that there may be a completely new mechanism at play here,” because patients receiving bimagrumab weren’t eating less but were losing the same amount of weight as reported for weight-loss drugs that work by decreasing appetite.

“Is this going to be the kind of complementary drug with a different mechanism that’s going to augment the effects of other drugs?” wondered Dr. Kaplan, director of the Obesity, Metabolism & Nutrition Institute at Massachusetts General Hospital, Boston, who has previously served as a scientific consultant to Novartis.

Asked about future plans for bimagrumab, a Novartis spokesperson said in an interview, “We are currently reviewing the program strategy and considering next steps.”
 

Four FDA-approved weight-loss drugs now approved

The Food and Drug Administration approval for lorcaserin (Belviq, Belviq XR, Eisai) for weight loss was rescinded on Feb. 13, 2020, when a postmarketing trial revealed an increased occurrence of cancer, leaving four drugs approved for weight loss in the United States, plus several drugs in development, Dr. Heymsfield and colleagues wrote.

The current phase 2 trial was designed to determine the safety and efficacy of bimagrumab – which had originally been studied to see if it would increase lean muscle mass in people with sarcopenia – on total body fat mass and glycemic control in patients with type 2 diabetes and overweight or obesity.

Researchers enrolled 75 adults at eight sites in the United States and one in Wales, United Kingdom, from 2017 to 2019.

On average, patients were 60 years old with an A1c of 7.8% and a body mass index of 32.9 kg/m²; they weighed 93.6 kg and had a fat mass of 35 kg.

Patients received an intravenous infusion of bimagrumab (10 mg/kg up to 1,200 mg in 5% dextrose solution) or placebo (5% dextrose solution) every 4 weeks for 48 weeks. They met with a registered dietitian at each monthly study visit and had a virtual check-in between visits.

Participants were advised to follow a diet that would cut 500 calories a day and encouraged to follow the American Diabetes Association walking program.

Body fat mass was measured by dual-energy x-ray absorptiometry (DEXA).

There were more women in the bimagrumab group than in the placebo group (62% vs. 32%), but baseline BMI, total body fat mass, and A1c were similar in both groups.
 

Same caloric intake, less fat tissue, more muscle, smaller waist

At 48 weeks in the bimagrumab vs. placebo group, there was on average (all P < .001):

• A loss of 20.5% vs. 0.5% (−7.5 vs. −0.2 kg) of total body fat mass.
• A loss of 6.5% vs. 0.8% (−5.9 vs. −0.8 kg) of body weight.  
• A gain of 3.6% vs. a loss of 0.8% (1.7 vs. −0.4 kg) of lean mass.

Similarly, the relatively large between-group differences in total body fat mass and body weight at 48 weeks with bimagrumab were accompanied by favorable differences in BMI (−2.19 vs. −0.28 kg/m²; P < .001) and waist circumference (−9.0 vs. 0.5 cm; P < .001), the investigators pointed out.

Moreover, the reduction of abdominal visceral adipose tissue and waist circumference with bimagrumab “was nearly twice that observed in a recently published study of patients with type 2 diabetes treated with an intensive lifestyle program and the glucagon-like peptide 1 (GLP-1) agonist liraglutide,” they noted.

This highlights “the importance of moving away from body weight as a primary efficacy marker of drugs to more metabolically relevant endpoints.”

Also, A1c decreased by 0.76% in the bimagrumab group and increased by 0.04% in the placebo group (P = .005).

Serious adverse events occurred in three patients (8%) in the bimagrumab group (elevated lipase, epigastric pain, pancreatitis, pneumonia) and three patients (8%) in the placebo group (cellulitis, acute coronary syndrome, acute myocardial infarction, worsening gastroparesis, thermal burn).  

Adverse events were reported by 31 of 37 patients in the bimagrumab group, most often mild diarrhea (41%) and muscle spasms (41%), and 31 of 38 patients in the placebo group, most often headache (13%) and upper respiratory tract infection (13%).

The study was funded by Novartis. Dr. Heymsfield has reported receiving personal fees from Tanita and Medifast outside the submitted work. Disclosures for the other authors are listed in the article. Dr. Kaplan has reported previously serving as a scientific consultant to Novartis.

A version of this article first appeared on Medscape.com.

Study Overview

Objective. To determine the impact of providing genetically tailored and population-based lifestyle advice for weight management on key constructs of the Theory of Planned Behavior (TPB), a widely accepted theory used to help predict human lifestyle-related behaviors.

Design. Pragmatic, cluster, randomized controlled trial.

Settings and participants. This study took place at the East Elgin Family Health Team, a primary care clinic in Aylmer, Ontario, Canada. Recruitment occurred between April 2017 and September 2018, with staggered intervention cohorts occurring from May 2017 to September 2019. Participants enrolled in a weight management program at the clinic were invited to participate in the study if they met the following inclusion criteria: body mass index (BMI) ≥25 kg/m², >18 years of age, English-speaking, willing to undergo genetic testing, having access to a computer with internet at least 1 day per week, and not seeing another health care provider for weight loss advice outside of the study. Exclusion criteria included pregnancy and lactation. All participants provided written informed consent.

Interventions. At baseline, weight management program cohorts (average cohort size was 14 participants) were randomized (1:1) to receive either the standard population-based intervention (Group Lifestyle Balance, or GLB) or a modified GLB intervention, which included the provision of lifestyle genomics (LGx) information and advice (GLB+LGx). Both interventions aimed to assist participants with weight management and healthy lifestyle change, with particular focus on nutrition and physical activity (PA). Interventions were 12 months long, consisting of 23 group-based sessions and 3 one-on-one sessions with a registered dietitian after 3, 6, and 12 months (all sessions were face-to-face). To improve intervention adherence, participants were given reminder calls for their one-on-one appointments and for the start of their program. A sample size was calculated based on the primary outcome indicating that a total of 74 participants were needed (n = 37 per group) for this trial. By September 2019, this sample size was exceeded with 10 randomized groups (n = 140).

The 5 randomized standard GLB groups followed the established GLB program curriculum comprising population-based information and advice while focusing on following a calorie-controlled, moderate-fat (25% of calories) nutrition plan with at least 150 minutes of weekly moderate-intensity PA. Participants were also provided with a 1-page summary report of their nutrition and PA guidelines at the first group meeting outlining population-based targets, including acceptable macronutrient distribution ranges for protein, total fat, saturated fat, monounsaturated fat, polyunsaturated fat, sodium, calories, snacking, and PA.

The 5 randomized modified GLB+LGx groups followed a modified GLB program curriculum in which participants were given genetic-based information and advice, which differed from the advice given to the standard GLB group, while focusing on following a calorie-controlled nutrition plan. The nutrition and PA targets were personalized based on their individual genetic variation. For example, participants with the AA variant of FTO (rs9939609) were advised to engage in at least 30 to 60 minutes of PA daily 6 days per week, with muscle-strengthening activities at least 2 days per week, rather than receiving the standard population-based advice to aim for 150 minutes weekly of PA with at least 2 days per week of muscle-strengthening activity. Participants were also provided with a 1-page summary report of their nutrition and PA guidelines at the first group meeting, which outlined genetic-based information and advice related to protein, total fat, saturated fat, monounsaturated fat, polyunsaturated fat, sodium, calories, snacking, and PA.

Measures and analysis. Change in the TPB components (attitudes, subjective norms and perceived behavioral control) were measured via a TPB questionnaire at 5 time points: baseline (2-week run-in period), immediately after the first group session (where participants received a summary report of either population-based or genetic-based recommendations depending on group assignment), and after 3-, 6- and 12-month follow-ups. Attitudes, subjective norms, and perceived behavioral control were measured on a Likert scale from 1 through 7. Self-reported measures of actual behavioral control (including annual household income, perceptions about events arising in one’s day-to-day life that suddenly take up one’s free time, perceptions about the frequency of feeling ill or tired, and highest achieved level of education) were collected via survey questions and assessed on a Likert scale of 1 through 7. Stage of change was also measured, based on the Transtheoretical Model, using a Likert scale of 1 through 6.

Linear mixed models were used to conduct within- and between-group analyses using SPSS version 26.0, while controlling for measures of actual behavioral control. All analyses were intention-to-treat by originally assigned groups, with mean value imputation conducted for missing data. A Bonferroni correction for multiple testing was used. For all statistical analyses, the level of significance was set at P < 0.05 and trending towards significance at P = 0.05–0.06.

Main results. Participants consisted of primarily middle-age, middle-income, Caucasian females. Baseline attitudes towards the effectiveness of nutrition and PA for weight management were generally positive, and participants perceived that undergoing genetic testing would assist with weight management. Participants had overall neutral subjective norms related to friends and family consuming a healthy diet and engaging in PA, but perceived that their friends, family, and health care team (HCT) believed it was important for them to achieve their nutrition and PA recommendations. Participants overall also perceived that their HCT believed genetic testing could assist with weight management. Baseline measures of perceived behavioral control were overall neutral, with baseline stage of change between “motivation” and “action” (short-term; <3 months).

In within-group analyses, significant improvements (P < 0.05) in attitudes towards the effectiveness of nutrition and PA recommendations for weight management, subjective norms related to both friends and family consuming a healthy diet, and perceived behavioral control in changing PA/dietary intake and managing weight tended to be short-term in the GLB group and long-term for the GLB+LGx group. In all cases of between-group differences for changes in TPB components, the GLB group exhibited reductions in scores, whereas the GLB+LGx group exhibited increases or improvements. Between-group differences (short-term and long-term) in several measures of subjective norms were observed. For example, after 3 months, significant between-group differences were observed in changes in perception that friends believed LGx would help with weight management (P = 0.024). After 12 months, between-group differences trending towards significance were also observed in changes in perception that family members believed genetic testing would help with weight management (P = 0.05). Significant between-group differences and differences trending towards significance were also observed at 12 months for changes in perception that family believed it was important for the participant to achieve the PA recommendations (P = 0.049) and nutrition recommendations (P = 0.05). Between-group differences trending towards significance were also observed at 3 months in attitudes towards the effectiveness of LGx for weight management (P = 0.06). There were no significant between-group differences observed in changes in perceived behavioral control.

Conclusion. Results from this study support the hypothesis that the TPB can help provide a theoretical explanation for why genetically tailored lifestyle information and advice can lead to improvements in lifestyle behavior change.

Commentary

Because health behaviors are critical in areas such as prevention, treatment, and rehabilitation, it is important to describe and understand what drives these behaviors.¹ Theories are important tools in this effort as they aim to explain and predict health behavior and are used in the design and evaluation of interventions.¹ The TPB is one of the most widely accepted behavior change theories and posits that attitudes, subjective norms (or social pressures and behaviors), and perceived behavioral control are significant predictors of an individual’s intention to engage in behaviors.² TPB has been highlighted in the literature as a validated theory for predicting nutrition and PA intentions and resulting behaviors.^3,4

Motivating lifestyle behavior change in clinical practice can be challenging, but some studies have demonstrated how providing genetic information and advice (or lifestyle genomics) can help motivate changes in nutrition and PA among patients.^5-7 Because this has yet to be explained using the TPB, this study is an important contribution to the literature as it aimed to determine the impact of providing genetically tailored and population-based lifestyle advice for weight management on key constructs of the TPB. Briefly, results from within-group analyses in this study demonstrated that the provision of genetically tailored lifestyle information and advice (via the GLB+LGx intervention) tended to impact antecedents of behavior change, more so over the long-term, while population-based advice (via the standard GLB intervention) tended to impact antecedents of behavior change over the short-term (eg, attitudes towards dietary fat intake, perceptions that friends and family consume a healthy diet, and perceptions about the impact of genetic-based advice for weight management). In addition, between-group differences in subjective norms observed at 12 months suggested that social pressures and norms may be influencing long-term changes in lifestyle habits.

While key strengths of this study include its pragmatic cluster randomized controlled trial design, 12-month intervention duration, and intent-to-treat analyses, there are some study limitations, which are acknowledged by the authors. Generalizability is limited to the demographic characteristics of the study population (ie, middle-aged, middle-income, Caucasian females enrolled in a lifestyle change weight management program). Thus, replication of the study is needed in more diverse study populations and with health-related outcomes beyond weight management. In addition, as the authors indicate, future research should ensure the inclusion of theory-based questionnaires in genetic-based intervention studies assessing lifestyle behavior change to elucidate theory-based mechanisms of change.

Applications for Clinical Practice

Population-based research has consistently indicated that nutrition interventions typically impact short-term dietary changes. Confronting the challenge of long-term adherence to nutrition and PA recommendations requires an understanding of factors impacting long-term motivation and behavior change. With increased attention on and research into genetically tailored lifestyle advice (or lifestyle genomics), it is important for clinical practitioners to be familiar with the evidence supporting these approaches. In addition, this research highlights the need to consider individual factors (attitudes, subjective norms, and perceived behavioral control) that may predict successful change in lifestyle habits when providing nutrition and PA recommendations, whether population-based or genetically tailored.

—Katrina F. Mateo, PhD, MPH

Study Overview

Objective. To determine the impact of providing genetically tailored and population-based lifestyle advice for weight management on key constructs of the Theory of Planned Behavior (TPB), a widely accepted theory used to help predict human lifestyle-related behaviors.

Design. Pragmatic, cluster, randomized controlled trial.

Settings and participants. This study took place at the East Elgin Family Health Team, a primary care clinic in Aylmer, Ontario, Canada. Recruitment occurred between April 2017 and September 2018, with staggered intervention cohorts occurring from May 2017 to September 2019. Participants enrolled in a weight management program at the clinic were invited to participate in the study if they met the following inclusion criteria: body mass index (BMI) ≥25 kg/m², >18 years of age, English-speaking, willing to undergo genetic testing, having access to a computer with internet at least 1 day per week, and not seeing another health care provider for weight loss advice outside of the study. Exclusion criteria included pregnancy and lactation. All participants provided written informed consent.

Interventions. At baseline, weight management program cohorts (average cohort size was 14 participants) were randomized (1:1) to receive either the standard population-based intervention (Group Lifestyle Balance, or GLB) or a modified GLB intervention, which included the provision of lifestyle genomics (LGx) information and advice (GLB+LGx). Both interventions aimed to assist participants with weight management and healthy lifestyle change, with particular focus on nutrition and physical activity (PA). Interventions were 12 months long, consisting of 23 group-based sessions and 3 one-on-one sessions with a registered dietitian after 3, 6, and 12 months (all sessions were face-to-face). To improve intervention adherence, participants were given reminder calls for their one-on-one appointments and for the start of their program. A sample size was calculated based on the primary outcome indicating that a total of 74 participants were needed (n = 37 per group) for this trial. By September 2019, this sample size was exceeded with 10 randomized groups (n = 140).

The 5 randomized standard GLB groups followed the established GLB program curriculum comprising population-based information and advice while focusing on following a calorie-controlled, moderate-fat (25% of calories) nutrition plan with at least 150 minutes of weekly moderate-intensity PA. Participants were also provided with a 1-page summary report of their nutrition and PA guidelines at the first group meeting outlining population-based targets, including acceptable macronutrient distribution ranges for protein, total fat, saturated fat, monounsaturated fat, polyunsaturated fat, sodium, calories, snacking, and PA.

The 5 randomized modified GLB+LGx groups followed a modified GLB program curriculum in which participants were given genetic-based information and advice, which differed from the advice given to the standard GLB group, while focusing on following a calorie-controlled nutrition plan. The nutrition and PA targets were personalized based on their individual genetic variation. For example, participants with the AA variant of FTO (rs9939609) were advised to engage in at least 30 to 60 minutes of PA daily 6 days per week, with muscle-strengthening activities at least 2 days per week, rather than receiving the standard population-based advice to aim for 150 minutes weekly of PA with at least 2 days per week of muscle-strengthening activity. Participants were also provided with a 1-page summary report of their nutrition and PA guidelines at the first group meeting, which outlined genetic-based information and advice related to protein, total fat, saturated fat, monounsaturated fat, polyunsaturated fat, sodium, calories, snacking, and PA.

Measures and analysis. Change in the TPB components (attitudes, subjective norms and perceived behavioral control) were measured via a TPB questionnaire at 5 time points: baseline (2-week run-in period), immediately after the first group session (where participants received a summary report of either population-based or genetic-based recommendations depending on group assignment), and after 3-, 6- and 12-month follow-ups. Attitudes, subjective norms, and perceived behavioral control were measured on a Likert scale from 1 through 7. Self-reported measures of actual behavioral control (including annual household income, perceptions about events arising in one’s day-to-day life that suddenly take up one’s free time, perceptions about the frequency of feeling ill or tired, and highest achieved level of education) were collected via survey questions and assessed on a Likert scale of 1 through 7. Stage of change was also measured, based on the Transtheoretical Model, using a Likert scale of 1 through 6.

Linear mixed models were used to conduct within- and between-group analyses using SPSS version 26.0, while controlling for measures of actual behavioral control. All analyses were intention-to-treat by originally assigned groups, with mean value imputation conducted for missing data. A Bonferroni correction for multiple testing was used. For all statistical analyses, the level of significance was set at P < 0.05 and trending towards significance at P = 0.05–0.06.

Main results. Participants consisted of primarily middle-age, middle-income, Caucasian females. Baseline attitudes towards the effectiveness of nutrition and PA for weight management were generally positive, and participants perceived that undergoing genetic testing would assist with weight management. Participants had overall neutral subjective norms related to friends and family consuming a healthy diet and engaging in PA, but perceived that their friends, family, and health care team (HCT) believed it was important for them to achieve their nutrition and PA recommendations. Participants overall also perceived that their HCT believed genetic testing could assist with weight management. Baseline measures of perceived behavioral control were overall neutral, with baseline stage of change between “motivation” and “action” (short-term; <3 months).

In within-group analyses, significant improvements (P < 0.05) in attitudes towards the effectiveness of nutrition and PA recommendations for weight management, subjective norms related to both friends and family consuming a healthy diet, and perceived behavioral control in changing PA/dietary intake and managing weight tended to be short-term in the GLB group and long-term for the GLB+LGx group. In all cases of between-group differences for changes in TPB components, the GLB group exhibited reductions in scores, whereas the GLB+LGx group exhibited increases or improvements. Between-group differences (short-term and long-term) in several measures of subjective norms were observed. For example, after 3 months, significant between-group differences were observed in changes in perception that friends believed LGx would help with weight management (P = 0.024). After 12 months, between-group differences trending towards significance were also observed in changes in perception that family members believed genetic testing would help with weight management (P = 0.05). Significant between-group differences and differences trending towards significance were also observed at 12 months for changes in perception that family believed it was important for the participant to achieve the PA recommendations (P = 0.049) and nutrition recommendations (P = 0.05). Between-group differences trending towards significance were also observed at 3 months in attitudes towards the effectiveness of LGx for weight management (P = 0.06). There were no significant between-group differences observed in changes in perceived behavioral control.

Conclusion. Results from this study support the hypothesis that the TPB can help provide a theoretical explanation for why genetically tailored lifestyle information and advice can lead to improvements in lifestyle behavior change.

Commentary

Because health behaviors are critical in areas such as prevention, treatment, and rehabilitation, it is important to describe and understand what drives these behaviors.¹ Theories are important tools in this effort as they aim to explain and predict health behavior and are used in the design and evaluation of interventions.¹ The TPB is one of the most widely accepted behavior change theories and posits that attitudes, subjective norms (or social pressures and behaviors), and perceived behavioral control are significant predictors of an individual’s intention to engage in behaviors.² TPB has been highlighted in the literature as a validated theory for predicting nutrition and PA intentions and resulting behaviors.^3,4

Motivating lifestyle behavior change in clinical practice can be challenging, but some studies have demonstrated how providing genetic information and advice (or lifestyle genomics) can help motivate changes in nutrition and PA among patients.^5-7 Because this has yet to be explained using the TPB, this study is an important contribution to the literature as it aimed to determine the impact of providing genetically tailored and population-based lifestyle advice for weight management on key constructs of the TPB. Briefly, results from within-group analyses in this study demonstrated that the provision of genetically tailored lifestyle information and advice (via the GLB+LGx intervention) tended to impact antecedents of behavior change, more so over the long-term, while population-based advice (via the standard GLB intervention) tended to impact antecedents of behavior change over the short-term (eg, attitudes towards dietary fat intake, perceptions that friends and family consume a healthy diet, and perceptions about the impact of genetic-based advice for weight management). In addition, between-group differences in subjective norms observed at 12 months suggested that social pressures and norms may be influencing long-term changes in lifestyle habits.

While key strengths of this study include its pragmatic cluster randomized controlled trial design, 12-month intervention duration, and intent-to-treat analyses, there are some study limitations, which are acknowledged by the authors. Generalizability is limited to the demographic characteristics of the study population (ie, middle-aged, middle-income, Caucasian females enrolled in a lifestyle change weight management program). Thus, replication of the study is needed in more diverse study populations and with health-related outcomes beyond weight management. In addition, as the authors indicate, future research should ensure the inclusion of theory-based questionnaires in genetic-based intervention studies assessing lifestyle behavior change to elucidate theory-based mechanisms of change.

Applications for Clinical Practice

Population-based research has consistently indicated that nutrition interventions typically impact short-term dietary changes. Confronting the challenge of long-term adherence to nutrition and PA recommendations requires an understanding of factors impacting long-term motivation and behavior change. With increased attention on and research into genetically tailored lifestyle advice (or lifestyle genomics), it is important for clinical practitioners to be familiar with the evidence supporting these approaches. In addition, this research highlights the need to consider individual factors (attitudes, subjective norms, and perceived behavioral control) that may predict successful change in lifestyle habits when providing nutrition and PA recommendations, whether population-based or genetically tailored.

—Katrina F. Mateo, PhD, MPH

Study Overview

Objective. To determine the impact of providing genetically tailored and population-based lifestyle advice for weight management on key constructs of the Theory of Planned Behavior (TPB), a widely accepted theory used to help predict human lifestyle-related behaviors.

Design. Pragmatic, cluster, randomized controlled trial.

Settings and participants. This study took place at the East Elgin Family Health Team, a primary care clinic in Aylmer, Ontario, Canada. Recruitment occurred between April 2017 and September 2018, with staggered intervention cohorts occurring from May 2017 to September 2019. Participants enrolled in a weight management program at the clinic were invited to participate in the study if they met the following inclusion criteria: body mass index (BMI) ≥25 kg/m², >18 years of age, English-speaking, willing to undergo genetic testing, having access to a computer with internet at least 1 day per week, and not seeing another health care provider for weight loss advice outside of the study. Exclusion criteria included pregnancy and lactation. All participants provided written informed consent.

Interventions. At baseline, weight management program cohorts (average cohort size was 14 participants) were randomized (1:1) to receive either the standard population-based intervention (Group Lifestyle Balance, or GLB) or a modified GLB intervention, which included the provision of lifestyle genomics (LGx) information and advice (GLB+LGx). Both interventions aimed to assist participants with weight management and healthy lifestyle change, with particular focus on nutrition and physical activity (PA). Interventions were 12 months long, consisting of 23 group-based sessions and 3 one-on-one sessions with a registered dietitian after 3, 6, and 12 months (all sessions were face-to-face). To improve intervention adherence, participants were given reminder calls for their one-on-one appointments and for the start of their program. A sample size was calculated based on the primary outcome indicating that a total of 74 participants were needed (n = 37 per group) for this trial. By September 2019, this sample size was exceeded with 10 randomized groups (n = 140).

The 5 randomized standard GLB groups followed the established GLB program curriculum comprising population-based information and advice while focusing on following a calorie-controlled, moderate-fat (25% of calories) nutrition plan with at least 150 minutes of weekly moderate-intensity PA. Participants were also provided with a 1-page summary report of their nutrition and PA guidelines at the first group meeting outlining population-based targets, including acceptable macronutrient distribution ranges for protein, total fat, saturated fat, monounsaturated fat, polyunsaturated fat, sodium, calories, snacking, and PA.

The 5 randomized modified GLB+LGx groups followed a modified GLB program curriculum in which participants were given genetic-based information and advice, which differed from the advice given to the standard GLB group, while focusing on following a calorie-controlled nutrition plan. The nutrition and PA targets were personalized based on their individual genetic variation. For example, participants with the AA variant of FTO (rs9939609) were advised to engage in at least 30 to 60 minutes of PA daily 6 days per week, with muscle-strengthening activities at least 2 days per week, rather than receiving the standard population-based advice to aim for 150 minutes weekly of PA with at least 2 days per week of muscle-strengthening activity. Participants were also provided with a 1-page summary report of their nutrition and PA guidelines at the first group meeting, which outlined genetic-based information and advice related to protein, total fat, saturated fat, monounsaturated fat, polyunsaturated fat, sodium, calories, snacking, and PA.

Measures and analysis. Change in the TPB components (attitudes, subjective norms and perceived behavioral control) were measured via a TPB questionnaire at 5 time points: baseline (2-week run-in period), immediately after the first group session (where participants received a summary report of either population-based or genetic-based recommendations depending on group assignment), and after 3-, 6- and 12-month follow-ups. Attitudes, subjective norms, and perceived behavioral control were measured on a Likert scale from 1 through 7. Self-reported measures of actual behavioral control (including annual household income, perceptions about events arising in one’s day-to-day life that suddenly take up one’s free time, perceptions about the frequency of feeling ill or tired, and highest achieved level of education) were collected via survey questions and assessed on a Likert scale of 1 through 7. Stage of change was also measured, based on the Transtheoretical Model, using a Likert scale of 1 through 6.

Linear mixed models were used to conduct within- and between-group analyses using SPSS version 26.0, while controlling for measures of actual behavioral control. All analyses were intention-to-treat by originally assigned groups, with mean value imputation conducted for missing data. A Bonferroni correction for multiple testing was used. For all statistical analyses, the level of significance was set at P < 0.05 and trending towards significance at P = 0.05–0.06.

Main results. Participants consisted of primarily middle-age, middle-income, Caucasian females. Baseline attitudes towards the effectiveness of nutrition and PA for weight management were generally positive, and participants perceived that undergoing genetic testing would assist with weight management. Participants had overall neutral subjective norms related to friends and family consuming a healthy diet and engaging in PA, but perceived that their friends, family, and health care team (HCT) believed it was important for them to achieve their nutrition and PA recommendations. Participants overall also perceived that their HCT believed genetic testing could assist with weight management. Baseline measures of perceived behavioral control were overall neutral, with baseline stage of change between “motivation” and “action” (short-term; <3 months).

In within-group analyses, significant improvements (P < 0.05) in attitudes towards the effectiveness of nutrition and PA recommendations for weight management, subjective norms related to both friends and family consuming a healthy diet, and perceived behavioral control in changing PA/dietary intake and managing weight tended to be short-term in the GLB group and long-term for the GLB+LGx group. In all cases of between-group differences for changes in TPB components, the GLB group exhibited reductions in scores, whereas the GLB+LGx group exhibited increases or improvements. Between-group differences (short-term and long-term) in several measures of subjective norms were observed. For example, after 3 months, significant between-group differences were observed in changes in perception that friends believed LGx would help with weight management (P = 0.024). After 12 months, between-group differences trending towards significance were also observed in changes in perception that family members believed genetic testing would help with weight management (P = 0.05). Significant between-group differences and differences trending towards significance were also observed at 12 months for changes in perception that family believed it was important for the participant to achieve the PA recommendations (P = 0.049) and nutrition recommendations (P = 0.05). Between-group differences trending towards significance were also observed at 3 months in attitudes towards the effectiveness of LGx for weight management (P = 0.06). There were no significant between-group differences observed in changes in perceived behavioral control.

Conclusion. Results from this study support the hypothesis that the TPB can help provide a theoretical explanation for why genetically tailored lifestyle information and advice can lead to improvements in lifestyle behavior change.

Commentary

Because health behaviors are critical in areas such as prevention, treatment, and rehabilitation, it is important to describe and understand what drives these behaviors.¹ Theories are important tools in this effort as they aim to explain and predict health behavior and are used in the design and evaluation of interventions.¹ The TPB is one of the most widely accepted behavior change theories and posits that attitudes, subjective norms (or social pressures and behaviors), and perceived behavioral control are significant predictors of an individual’s intention to engage in behaviors.² TPB has been highlighted in the literature as a validated theory for predicting nutrition and PA intentions and resulting behaviors.^3,4

Motivating lifestyle behavior change in clinical practice can be challenging, but some studies have demonstrated how providing genetic information and advice (or lifestyle genomics) can help motivate changes in nutrition and PA among patients.^5-7 Because this has yet to be explained using the TPB, this study is an important contribution to the literature as it aimed to determine the impact of providing genetically tailored and population-based lifestyle advice for weight management on key constructs of the TPB. Briefly, results from within-group analyses in this study demonstrated that the provision of genetically tailored lifestyle information and advice (via the GLB+LGx intervention) tended to impact antecedents of behavior change, more so over the long-term, while population-based advice (via the standard GLB intervention) tended to impact antecedents of behavior change over the short-term (eg, attitudes towards dietary fat intake, perceptions that friends and family consume a healthy diet, and perceptions about the impact of genetic-based advice for weight management). In addition, between-group differences in subjective norms observed at 12 months suggested that social pressures and norms may be influencing long-term changes in lifestyle habits.

While key strengths of this study include its pragmatic cluster randomized controlled trial design, 12-month intervention duration, and intent-to-treat analyses, there are some study limitations, which are acknowledged by the authors. Generalizability is limited to the demographic characteristics of the study population (ie, middle-aged, middle-income, Caucasian females enrolled in a lifestyle change weight management program). Thus, replication of the study is needed in more diverse study populations and with health-related outcomes beyond weight management. In addition, as the authors indicate, future research should ensure the inclusion of theory-based questionnaires in genetic-based intervention studies assessing lifestyle behavior change to elucidate theory-based mechanisms of change.

Applications for Clinical Practice

Population-based research has consistently indicated that nutrition interventions typically impact short-term dietary changes. Confronting the challenge of long-term adherence to nutrition and PA recommendations requires an understanding of factors impacting long-term motivation and behavior change. With increased attention on and research into genetically tailored lifestyle advice (or lifestyle genomics), it is important for clinical practitioners to be familiar with the evidence supporting these approaches. In addition, this research highlights the need to consider individual factors (attitudes, subjective norms, and perceived behavioral control) that may predict successful change in lifestyle habits when providing nutrition and PA recommendations, whether population-based or genetically tailored.

—Katrina F. Mateo, PhD, MPH

Mounting evidence of strikingly high prevalence rates of fatty liver disease, advanced fibrosis, and cirrhosis among patients with type 2 diabetes has led to calls for heightened awareness and screening to identify these patients and target treatments to reduce their risk for irreversible liver damage.

Courtesy Dr. Christos S. Mantzoros

Among these calls is a pending statement from the Endocrine Society, the American Association of Clinical Endocrinologists, the American Gastroenterology Association, and other groups on what the growing appreciation of highly prevalent liver disease in patients with type 2 diabetes (T2D) means for assessing and managing patients. Publication of the statement is expected by spring 2021, said Christos S. Mantzoros, MD, DSc, PhD, chief of endocrinology for the Veterans Affairs Boston Healthcare System and a representative from the Endocrine Society to the statement-writing panel.

This upcoming “Call to Action” from these groups argues for a “need to collaborate across disciplines, and work together on establishing clinical guidelines, and creating new diagnostics and therapeutics,” said Dr. Mantzoros in an interview.

“Over time, it is becoming clearer that management of NAFLD [nonalcoholic fatty liver disease]/NASH [nonalcoholic steatohepatitis] requires a multidisciplinary panel of doctors ranging from primary care practitioners, to endocrinologists, and hepatologists. Given that the nature of the disease crosses scientific discipline boundaries, and that the number of patients is so large (it is estimated that about one in four U.S. adults have NAFLD), not all patients can be treated at the limited number of hepatology centers.

“However, not all stakeholders have fully realized this fact, and no effort had been undertaken so far by any professional society to develop a coordinated approach and clinical care pathway for NAFLD/NASH. The ‘Call to Action’ meeting can be considered as a starting point for such an important effort,” said Dr. Mantzoros, who is also a professor of medicine at Harvard Medical School and director of the human nutrition unit at Beth Israel Deaconess Medical Center, both in Boston.
 

Dramatic prevalence rates in patients with T2D

Results from two independent epidemiology reports, published in December 2020, documented steatosis (the fatty liver of NAFLD) in 70%-74% of unselected U.S. patients with T2D, advanced liver fibrosis accompanying this disease in 6%-15%, and previously unrecognized cirrhosis in 3%-8%.

One of these reports analyzed 825 patients with T2D included in the National Health and Nutritional Examination Survey of 2017-2018 run by the Centers for Disease Control and Prevention. All these patients, selected to be representative of the overall U.S. adult population with T2D, underwent transient elastography to identify steatosis and fibrosis, the first U.S. National Health Survey to run this type of population-based survey. The results showed an overall steatosis prevalence of 74% with grade 3 steatosis in 58%, advanced liver fibrosis in 15%, and cirrhosis in 8%, reported the team of Italian researchers who analyzed the data .

The second study focused on a single-center series of 561 patients with T2D who also underwent screening by transient elastography during 2018-2020 and had no history of NAFLD or other liver disease, or alcohol abuse. The imaging results showed a NAFLD prevalence of 70%, with 54% of the entire group diagnosed with severe steatosis, severe fibrosis in 6%, and cirrhosis in 3%. Among the 54% of patients with severe steatosis, 30% also had severe liver fibrosis. About 70% of the 561 patients assessed came from either the family medicine or general internal medicine clinics of the University of Florida, Gainesville, with the remaining 30% enrolled from the center’s endocrinology/diabetes outpatient clinic.

Neither report documented a NASH prevalence, which cannot receive definitive diagnosis by imaging alone. “This is the first study of its kind in the U.S. to establish the magnitude of [liver] disease burden in random patients with T2D seeking regular outpatient care,” wrote the University of Florida research team, led by Kenneth Cusi, MD, professor and chief of the university’s division of endocrinology, diabetes, and metabolism. Their finding that patients with T2D and previously unknown to have NAFLD had a 15% prevalence of moderate or advanced liver fibrosis “should trigger a call to action by all clinicians taking care of patients with T2D. Patient and physician awareness of the hepatic and extrahepatic complications of NASH, and reversing current diagnosis and treatment inertia will be the only way to avert the looming epidemic of cirrhosis in patients with diabetes.”

“Endocrinologists don’t ‘see’ NAFLD and NASH” in their patients with T2D “ because they don’t think about it,” Dr. Mantzoros declared.

Doug Brunk/Frontline Medical News

“Why is NASH underdiagnosed and undertreated? Because many physicians aren’t aware of it,” agreed Dr. Cusi during a talk in December 2020 at the 18th World Congress on Insulin Resistance, Diabetes, and Cardiovascular Disease (WCIRDC). “You never find what you don’t look for.”

“Endocrinologists should do the tests for NASH [in patients with T2D], but we’re all guilty of not doing it enough,” Tracey McLaughlin, MD, an endocrinologist and professor of medicine at Stanford (Calif.) University, commented during the WCIRDC.

These prevalence numbers demand that clinicians suspect liver disease “in any patient with diabetes, especially patients with obesity who are older and have components of metabolic syndrome,” said Dr. Mantzoros. “We need to screen, refer the most advanced cases, and treat the early- and mid-stage cases.”
 

How to find NASH

Both the American Diabetes Association and the European Association for the Study of Diabetes call for routine screening of patients with T2D, starting with a check of liver enzymes, such as ALT, but no clear consensus exists for the specifics of screening beyond that. Dr. Mantzoros, Dr. Cusi, and other experts agree that the scheme for assessing liver disease in patients with T2D starts with regular monitoring of elevations in liver enzymes including ALT. Next is noninvasive ultrasound assessment of the extent of liver fibrosis inferred from the organ’s stiffness using transient elastography. Another frequently cited initial screening tool is the Fibrosis-4 (FIB-4) score, which incorporates a patient’s age, platelet count, and levels of ALT and a second liver enzyme, AST.

“There is more consensus about FIB-4 and then elastography, but some people use tests other than FIB-4. Unfortunately there is no perfect diagnostic test today. A top priority is to define the best diagnostic test,” said Dr. Mantzoros, who is leading an effort to try to refine screening using artificial intelligence.

“FIB-4 is simple, easy, and well validated,” commented Dr. Cusi during the WCIRDC last December. “FIB-4 and elastography should get you pretty close” to identifying patients with T2D and significant liver disease.

But in a recent editorial, Dr. Cusi agreed on the need for “more reliable tests for the diagnosis of NASH and advanced fibrosis in patients with T2D. Significant work is being done in the field to validate novel and more sophisticated fibrosis biomarkers. Future studies will help us enter a new era of precision medicine where biomarkers will identify and target therapy to those with more active disease at risk for cirrhosis,” he wrote.

“The ultimate goal is to diagnose fibrosis at an early stage to prevent people from developing cirrhosis,” Dr. Cusi said in a recent written statement. “We’re trying to identify these problems before they’re unfixable. Once someone has cirrhosis, there isn’t a whole lot you can do.”
 

Pioglitazone remains the best-documented treatment

Perhaps some of the inertia in diagnosing NAFLD, NASH, and liver fibrosis in patients with T2D is dissatisfaction with current treatment options, although several proven options exist, notably weight loss and diet, and thiazolidinedione (TZD) pioglitazone. But weight loss and diet pose issues for patient compliance and durability of the intervention, and many clinicians consider pioglitazone flawed by its potential adverse effects.

“When we don’t have an established treatment for something, we tend to not measure it or go after it. That’s been true of liver disease” in patients with T2D, said Yehuda Handelsman, MD, an endocrinologist and diabetes specialist who is medical director of the Metabolic Institute of America in Tarzana, Calif., during the WCIRDC.

Treatment with pioglitazone has resolved NASH in about a third of patients compared with placebo, prevented fibrosis progression, and cut cardiovascular disease events, noted Dr. Cusi during the WCIRDC.

“Pioglitazone is used in only 8% of patients with T2D, or less, but we need to use it more often because of its proven efficacy in patients with T2D and NASH” said Dr. Mantzoros. “The problem is that pioglitazone has side effects, including weight gain and fluid retention, that makes it less attractive unless one thinks about the diagnosis of NASH.”

Others highlight that the adverse effects of pioglitazone have been either misunderstood, or can be effectively minimized with careful dosing.

“The data with the TZDs are much stronger than the data from anything else. TZDs have gotten a bad name because they also work in the kidney and enhance fluid reabsorption. We use modest dosages of pioglitazone, 15 mg or 30 mg a day, to avoid excess fluid retention,” Ralph A. DeFronzo, MD, chief of the diabetes division and professor of medicine at the University of Texas Health Science Center, San Antonio, said during the WCIRDC. “The best drug for NASH is pioglitazone. No other drug beats it” based on current data, Dr. DeFronzo asserted.

Other strategies include the potential to pair pioglitazone with other interventions that can blunt a weight-gain effect. One intriguing combination would combine pioglitazone with a GLP-1 receptor agonist, a drug class that can produce significant weight loss. Results from a phase 2 study showed promise for semaglutide (Rybelsus) in treating patients with NASH.
 

Getting the name right

Another factor that may be keeping NAFLD and NASH from achieving a higher profile for patients with T2D are those names, which focus on what the diseases are not – nonalcoholic – rather than what they are.

A series of recent publications in both the endocrinology and hepatology literature have called for renaming these disorders either “metabolic (dysfunction)–associated fatty liver disease (MALFD)”, or “dysmetabolism-associated fatty liver disease (DALFD)”.

“The names NAFLD and NASH indicate absence of alcohol as a cause, but the disease is also characterized by the absence of other causes, such as autoimmune disorders or hepatitis. The names were coined when we did not know much about these diseases. We now know that it is dysmetabolism that causes these conditions, and so we need to adopt a new, more accurate name,” explained Dr. Mantzoros, who has published support for a name change.

While many agree, some have raised concerns as to whether a name change now is premature. A group of hepatologists recently published a rebuttal to an immediate name change , saying that, “although we are in agreement that metabolic fatty liver disease may more accurately and positively reflect the relevant risk factors better than the age-old term nonalcoholic fatty liver disease, the term still leaves a great deal of ambiguity. A name change will be appropriate when informed by a new understanding of the molecular basis of the disease entity, insights that fundamentally change risk stratification, or other important aspects of the disease. We may be on the cusp of this, but we are not there yet.”

Dr. Mantzoros agreed, but for somewhat different reasons.

“We need to be careful and deliberate, because there is a significant body of knowledge and a lot of data from clinical trials collected using the old definitions. We need to find an appropriate time frame for a [name] transition. We need to find a nice and robust way to productively bridge the old to the new,” he said. “We also need new diagnostic criteria, and new therapies. A new name and definition will facilitate progress.”

Dr. Mantzoros been a shareholder of and consultant to Coherus and Pangea, he has been a consultant to AstraZeneca, Eisai, Genfit, Intercept, Novo Nordisk, P.E.S., and Regeneron, and has received travel support from the Metabolic Institute of America and the California Walnut Commission. Dr. Cusi has been a consultant to and has received research funding from numerous drug companies. Dr. McLaughlin is a consultant to January AI. Dr. Handelsman has been a consultant to numerous drug companies. Dr. DeFronzo received research grants from AstraZeneca, Janssen, and Merck; he has been an adviser to AstraZeneca, Boehringer Ingelheim, Intarcia, Janssen, and Novo Nordisk; and he has been a speaker on behalf of AstraZeneca and Novo Nordisk.

mzoler@mdedge.com

Mounting evidence of strikingly high prevalence rates of fatty liver disease, advanced fibrosis, and cirrhosis among patients with type 2 diabetes has led to calls for heightened awareness and screening to identify these patients and target treatments to reduce their risk for irreversible liver damage.

Courtesy Dr. Christos S. Mantzoros

Among these calls is a pending statement from the Endocrine Society, the American Association of Clinical Endocrinologists, the American Gastroenterology Association, and other groups on what the growing appreciation of highly prevalent liver disease in patients with type 2 diabetes (T2D) means for assessing and managing patients. Publication of the statement is expected by spring 2021, said Christos S. Mantzoros, MD, DSc, PhD, chief of endocrinology for the Veterans Affairs Boston Healthcare System and a representative from the Endocrine Society to the statement-writing panel.

This upcoming “Call to Action” from these groups argues for a “need to collaborate across disciplines, and work together on establishing clinical guidelines, and creating new diagnostics and therapeutics,” said Dr. Mantzoros in an interview.

“Over time, it is becoming clearer that management of NAFLD [nonalcoholic fatty liver disease]/NASH [nonalcoholic steatohepatitis] requires a multidisciplinary panel of doctors ranging from primary care practitioners, to endocrinologists, and hepatologists. Given that the nature of the disease crosses scientific discipline boundaries, and that the number of patients is so large (it is estimated that about one in four U.S. adults have NAFLD), not all patients can be treated at the limited number of hepatology centers.

“However, not all stakeholders have fully realized this fact, and no effort had been undertaken so far by any professional society to develop a coordinated approach and clinical care pathway for NAFLD/NASH. The ‘Call to Action’ meeting can be considered as a starting point for such an important effort,” said Dr. Mantzoros, who is also a professor of medicine at Harvard Medical School and director of the human nutrition unit at Beth Israel Deaconess Medical Center, both in Boston.
 

Dramatic prevalence rates in patients with T2D

Results from two independent epidemiology reports, published in December 2020, documented steatosis (the fatty liver of NAFLD) in 70%-74% of unselected U.S. patients with T2D, advanced liver fibrosis accompanying this disease in 6%-15%, and previously unrecognized cirrhosis in 3%-8%.

One of these reports analyzed 825 patients with T2D included in the National Health and Nutritional Examination Survey of 2017-2018 run by the Centers for Disease Control and Prevention. All these patients, selected to be representative of the overall U.S. adult population with T2D, underwent transient elastography to identify steatosis and fibrosis, the first U.S. National Health Survey to run this type of population-based survey. The results showed an overall steatosis prevalence of 74% with grade 3 steatosis in 58%, advanced liver fibrosis in 15%, and cirrhosis in 8%, reported the team of Italian researchers who analyzed the data .

The second study focused on a single-center series of 561 patients with T2D who also underwent screening by transient elastography during 2018-2020 and had no history of NAFLD or other liver disease, or alcohol abuse. The imaging results showed a NAFLD prevalence of 70%, with 54% of the entire group diagnosed with severe steatosis, severe fibrosis in 6%, and cirrhosis in 3%. Among the 54% of patients with severe steatosis, 30% also had severe liver fibrosis. About 70% of the 561 patients assessed came from either the family medicine or general internal medicine clinics of the University of Florida, Gainesville, with the remaining 30% enrolled from the center’s endocrinology/diabetes outpatient clinic.

Neither report documented a NASH prevalence, which cannot receive definitive diagnosis by imaging alone. “This is the first study of its kind in the U.S. to establish the magnitude of [liver] disease burden in random patients with T2D seeking regular outpatient care,” wrote the University of Florida research team, led by Kenneth Cusi, MD, professor and chief of the university’s division of endocrinology, diabetes, and metabolism. Their finding that patients with T2D and previously unknown to have NAFLD had a 15% prevalence of moderate or advanced liver fibrosis “should trigger a call to action by all clinicians taking care of patients with T2D. Patient and physician awareness of the hepatic and extrahepatic complications of NASH, and reversing current diagnosis and treatment inertia will be the only way to avert the looming epidemic of cirrhosis in patients with diabetes.”

“Endocrinologists don’t ‘see’ NAFLD and NASH” in their patients with T2D “ because they don’t think about it,” Dr. Mantzoros declared.

Doug Brunk/Frontline Medical News

“Why is NASH underdiagnosed and undertreated? Because many physicians aren’t aware of it,” agreed Dr. Cusi during a talk in December 2020 at the 18th World Congress on Insulin Resistance, Diabetes, and Cardiovascular Disease (WCIRDC). “You never find what you don’t look for.”

“Endocrinologists should do the tests for NASH [in patients with T2D], but we’re all guilty of not doing it enough,” Tracey McLaughlin, MD, an endocrinologist and professor of medicine at Stanford (Calif.) University, commented during the WCIRDC.

These prevalence numbers demand that clinicians suspect liver disease “in any patient with diabetes, especially patients with obesity who are older and have components of metabolic syndrome,” said Dr. Mantzoros. “We need to screen, refer the most advanced cases, and treat the early- and mid-stage cases.”
 

How to find NASH

Both the American Diabetes Association and the European Association for the Study of Diabetes call for routine screening of patients with T2D, starting with a check of liver enzymes, such as ALT, but no clear consensus exists for the specifics of screening beyond that. Dr. Mantzoros, Dr. Cusi, and other experts agree that the scheme for assessing liver disease in patients with T2D starts with regular monitoring of elevations in liver enzymes including ALT. Next is noninvasive ultrasound assessment of the extent of liver fibrosis inferred from the organ’s stiffness using transient elastography. Another frequently cited initial screening tool is the Fibrosis-4 (FIB-4) score, which incorporates a patient’s age, platelet count, and levels of ALT and a second liver enzyme, AST.

“There is more consensus about FIB-4 and then elastography, but some people use tests other than FIB-4. Unfortunately there is no perfect diagnostic test today. A top priority is to define the best diagnostic test,” said Dr. Mantzoros, who is leading an effort to try to refine screening using artificial intelligence.

“FIB-4 is simple, easy, and well validated,” commented Dr. Cusi during the WCIRDC last December. “FIB-4 and elastography should get you pretty close” to identifying patients with T2D and significant liver disease.

But in a recent editorial, Dr. Cusi agreed on the need for “more reliable tests for the diagnosis of NASH and advanced fibrosis in patients with T2D. Significant work is being done in the field to validate novel and more sophisticated fibrosis biomarkers. Future studies will help us enter a new era of precision medicine where biomarkers will identify and target therapy to those with more active disease at risk for cirrhosis,” he wrote.

“The ultimate goal is to diagnose fibrosis at an early stage to prevent people from developing cirrhosis,” Dr. Cusi said in a recent written statement. “We’re trying to identify these problems before they’re unfixable. Once someone has cirrhosis, there isn’t a whole lot you can do.”
 

Pioglitazone remains the best-documented treatment

Perhaps some of the inertia in diagnosing NAFLD, NASH, and liver fibrosis in patients with T2D is dissatisfaction with current treatment options, although several proven options exist, notably weight loss and diet, and thiazolidinedione (TZD) pioglitazone. But weight loss and diet pose issues for patient compliance and durability of the intervention, and many clinicians consider pioglitazone flawed by its potential adverse effects.

“When we don’t have an established treatment for something, we tend to not measure it or go after it. That’s been true of liver disease” in patients with T2D, said Yehuda Handelsman, MD, an endocrinologist and diabetes specialist who is medical director of the Metabolic Institute of America in Tarzana, Calif., during the WCIRDC.

Treatment with pioglitazone has resolved NASH in about a third of patients compared with placebo, prevented fibrosis progression, and cut cardiovascular disease events, noted Dr. Cusi during the WCIRDC.

“Pioglitazone is used in only 8% of patients with T2D, or less, but we need to use it more often because of its proven efficacy in patients with T2D and NASH” said Dr. Mantzoros. “The problem is that pioglitazone has side effects, including weight gain and fluid retention, that makes it less attractive unless one thinks about the diagnosis of NASH.”

Others highlight that the adverse effects of pioglitazone have been either misunderstood, or can be effectively minimized with careful dosing.

“The data with the TZDs are much stronger than the data from anything else. TZDs have gotten a bad name because they also work in the kidney and enhance fluid reabsorption. We use modest dosages of pioglitazone, 15 mg or 30 mg a day, to avoid excess fluid retention,” Ralph A. DeFronzo, MD, chief of the diabetes division and professor of medicine at the University of Texas Health Science Center, San Antonio, said during the WCIRDC. “The best drug for NASH is pioglitazone. No other drug beats it” based on current data, Dr. DeFronzo asserted.

Other strategies include the potential to pair pioglitazone with other interventions that can blunt a weight-gain effect. One intriguing combination would combine pioglitazone with a GLP-1 receptor agonist, a drug class that can produce significant weight loss. Results from a phase 2 study showed promise for semaglutide (Rybelsus) in treating patients with NASH.
 

Getting the name right

Another factor that may be keeping NAFLD and NASH from achieving a higher profile for patients with T2D are those names, which focus on what the diseases are not – nonalcoholic – rather than what they are.

A series of recent publications in both the endocrinology and hepatology literature have called for renaming these disorders either “metabolic (dysfunction)–associated fatty liver disease (MALFD)”, or “dysmetabolism-associated fatty liver disease (DALFD)”.

“The names NAFLD and NASH indicate absence of alcohol as a cause, but the disease is also characterized by the absence of other causes, such as autoimmune disorders or hepatitis. The names were coined when we did not know much about these diseases. We now know that it is dysmetabolism that causes these conditions, and so we need to adopt a new, more accurate name,” explained Dr. Mantzoros, who has published support for a name change.

While many agree, some have raised concerns as to whether a name change now is premature. A group of hepatologists recently published a rebuttal to an immediate name change , saying that, “although we are in agreement that metabolic fatty liver disease may more accurately and positively reflect the relevant risk factors better than the age-old term nonalcoholic fatty liver disease, the term still leaves a great deal of ambiguity. A name change will be appropriate when informed by a new understanding of the molecular basis of the disease entity, insights that fundamentally change risk stratification, or other important aspects of the disease. We may be on the cusp of this, but we are not there yet.”

Dr. Mantzoros agreed, but for somewhat different reasons.

“We need to be careful and deliberate, because there is a significant body of knowledge and a lot of data from clinical trials collected using the old definitions. We need to find an appropriate time frame for a [name] transition. We need to find a nice and robust way to productively bridge the old to the new,” he said. “We also need new diagnostic criteria, and new therapies. A new name and definition will facilitate progress.”

Dr. Mantzoros been a shareholder of and consultant to Coherus and Pangea, he has been a consultant to AstraZeneca, Eisai, Genfit, Intercept, Novo Nordisk, P.E.S., and Regeneron, and has received travel support from the Metabolic Institute of America and the California Walnut Commission. Dr. Cusi has been a consultant to and has received research funding from numerous drug companies. Dr. McLaughlin is a consultant to January AI. Dr. Handelsman has been a consultant to numerous drug companies. Dr. DeFronzo received research grants from AstraZeneca, Janssen, and Merck; he has been an adviser to AstraZeneca, Boehringer Ingelheim, Intarcia, Janssen, and Novo Nordisk; and he has been a speaker on behalf of AstraZeneca and Novo Nordisk.

mzoler@mdedge.com

Mounting evidence of strikingly high prevalence rates of fatty liver disease, advanced fibrosis, and cirrhosis among patients with type 2 diabetes has led to calls for heightened awareness and screening to identify these patients and target treatments to reduce their risk for irreversible liver damage.

Courtesy Dr. Christos S. Mantzoros

Among these calls is a pending statement from the Endocrine Society, the American Association of Clinical Endocrinologists, the American Gastroenterology Association, and other groups on what the growing appreciation of highly prevalent liver disease in patients with type 2 diabetes (T2D) means for assessing and managing patients. Publication of the statement is expected by spring 2021, said Christos S. Mantzoros, MD, DSc, PhD, chief of endocrinology for the Veterans Affairs Boston Healthcare System and a representative from the Endocrine Society to the statement-writing panel.

This upcoming “Call to Action” from these groups argues for a “need to collaborate across disciplines, and work together on establishing clinical guidelines, and creating new diagnostics and therapeutics,” said Dr. Mantzoros in an interview.

“Over time, it is becoming clearer that management of NAFLD [nonalcoholic fatty liver disease]/NASH [nonalcoholic steatohepatitis] requires a multidisciplinary panel of doctors ranging from primary care practitioners, to endocrinologists, and hepatologists. Given that the nature of the disease crosses scientific discipline boundaries, and that the number of patients is so large (it is estimated that about one in four U.S. adults have NAFLD), not all patients can be treated at the limited number of hepatology centers.

“However, not all stakeholders have fully realized this fact, and no effort had been undertaken so far by any professional society to develop a coordinated approach and clinical care pathway for NAFLD/NASH. The ‘Call to Action’ meeting can be considered as a starting point for such an important effort,” said Dr. Mantzoros, who is also a professor of medicine at Harvard Medical School and director of the human nutrition unit at Beth Israel Deaconess Medical Center, both in Boston.
 

Dramatic prevalence rates in patients with T2D

Results from two independent epidemiology reports, published in December 2020, documented steatosis (the fatty liver of NAFLD) in 70%-74% of unselected U.S. patients with T2D, advanced liver fibrosis accompanying this disease in 6%-15%, and previously unrecognized cirrhosis in 3%-8%.

One of these reports analyzed 825 patients with T2D included in the National Health and Nutritional Examination Survey of 2017-2018 run by the Centers for Disease Control and Prevention. All these patients, selected to be representative of the overall U.S. adult population with T2D, underwent transient elastography to identify steatosis and fibrosis, the first U.S. National Health Survey to run this type of population-based survey. The results showed an overall steatosis prevalence of 74% with grade 3 steatosis in 58%, advanced liver fibrosis in 15%, and cirrhosis in 8%, reported the team of Italian researchers who analyzed the data .

The second study focused on a single-center series of 561 patients with T2D who also underwent screening by transient elastography during 2018-2020 and had no history of NAFLD or other liver disease, or alcohol abuse. The imaging results showed a NAFLD prevalence of 70%, with 54% of the entire group diagnosed with severe steatosis, severe fibrosis in 6%, and cirrhosis in 3%. Among the 54% of patients with severe steatosis, 30% also had severe liver fibrosis. About 70% of the 561 patients assessed came from either the family medicine or general internal medicine clinics of the University of Florida, Gainesville, with the remaining 30% enrolled from the center’s endocrinology/diabetes outpatient clinic.

Neither report documented a NASH prevalence, which cannot receive definitive diagnosis by imaging alone. “This is the first study of its kind in the U.S. to establish the magnitude of [liver] disease burden in random patients with T2D seeking regular outpatient care,” wrote the University of Florida research team, led by Kenneth Cusi, MD, professor and chief of the university’s division of endocrinology, diabetes, and metabolism. Their finding that patients with T2D and previously unknown to have NAFLD had a 15% prevalence of moderate or advanced liver fibrosis “should trigger a call to action by all clinicians taking care of patients with T2D. Patient and physician awareness of the hepatic and extrahepatic complications of NASH, and reversing current diagnosis and treatment inertia will be the only way to avert the looming epidemic of cirrhosis in patients with diabetes.”

“Endocrinologists don’t ‘see’ NAFLD and NASH” in their patients with T2D “ because they don’t think about it,” Dr. Mantzoros declared.

Doug Brunk/Frontline Medical News

“Why is NASH underdiagnosed and undertreated? Because many physicians aren’t aware of it,” agreed Dr. Cusi during a talk in December 2020 at the 18th World Congress on Insulin Resistance, Diabetes, and Cardiovascular Disease (WCIRDC). “You never find what you don’t look for.”

“Endocrinologists should do the tests for NASH [in patients with T2D], but we’re all guilty of not doing it enough,” Tracey McLaughlin, MD, an endocrinologist and professor of medicine at Stanford (Calif.) University, commented during the WCIRDC.

These prevalence numbers demand that clinicians suspect liver disease “in any patient with diabetes, especially patients with obesity who are older and have components of metabolic syndrome,” said Dr. Mantzoros. “We need to screen, refer the most advanced cases, and treat the early- and mid-stage cases.”
 

How to find NASH

Both the American Diabetes Association and the European Association for the Study of Diabetes call for routine screening of patients with T2D, starting with a check of liver enzymes, such as ALT, but no clear consensus exists for the specifics of screening beyond that. Dr. Mantzoros, Dr. Cusi, and other experts agree that the scheme for assessing liver disease in patients with T2D starts with regular monitoring of elevations in liver enzymes including ALT. Next is noninvasive ultrasound assessment of the extent of liver fibrosis inferred from the organ’s stiffness using transient elastography. Another frequently cited initial screening tool is the Fibrosis-4 (FIB-4) score, which incorporates a patient’s age, platelet count, and levels of ALT and a second liver enzyme, AST.

“There is more consensus about FIB-4 and then elastography, but some people use tests other than FIB-4. Unfortunately there is no perfect diagnostic test today. A top priority is to define the best diagnostic test,” said Dr. Mantzoros, who is leading an effort to try to refine screening using artificial intelligence.

“FIB-4 is simple, easy, and well validated,” commented Dr. Cusi during the WCIRDC last December. “FIB-4 and elastography should get you pretty close” to identifying patients with T2D and significant liver disease.

But in a recent editorial, Dr. Cusi agreed on the need for “more reliable tests for the diagnosis of NASH and advanced fibrosis in patients with T2D. Significant work is being done in the field to validate novel and more sophisticated fibrosis biomarkers. Future studies will help us enter a new era of precision medicine where biomarkers will identify and target therapy to those with more active disease at risk for cirrhosis,” he wrote.

“The ultimate goal is to diagnose fibrosis at an early stage to prevent people from developing cirrhosis,” Dr. Cusi said in a recent written statement. “We’re trying to identify these problems before they’re unfixable. Once someone has cirrhosis, there isn’t a whole lot you can do.”
 

Pioglitazone remains the best-documented treatment

Perhaps some of the inertia in diagnosing NAFLD, NASH, and liver fibrosis in patients with T2D is dissatisfaction with current treatment options, although several proven options exist, notably weight loss and diet, and thiazolidinedione (TZD) pioglitazone. But weight loss and diet pose issues for patient compliance and durability of the intervention, and many clinicians consider pioglitazone flawed by its potential adverse effects.

“When we don’t have an established treatment for something, we tend to not measure it or go after it. That’s been true of liver disease” in patients with T2D, said Yehuda Handelsman, MD, an endocrinologist and diabetes specialist who is medical director of the Metabolic Institute of America in Tarzana, Calif., during the WCIRDC.

Treatment with pioglitazone has resolved NASH in about a third of patients compared with placebo, prevented fibrosis progression, and cut cardiovascular disease events, noted Dr. Cusi during the WCIRDC.

“Pioglitazone is used in only 8% of patients with T2D, or less, but we need to use it more often because of its proven efficacy in patients with T2D and NASH” said Dr. Mantzoros. “The problem is that pioglitazone has side effects, including weight gain and fluid retention, that makes it less attractive unless one thinks about the diagnosis of NASH.”

Others highlight that the adverse effects of pioglitazone have been either misunderstood, or can be effectively minimized with careful dosing.

“The data with the TZDs are much stronger than the data from anything else. TZDs have gotten a bad name because they also work in the kidney and enhance fluid reabsorption. We use modest dosages of pioglitazone, 15 mg or 30 mg a day, to avoid excess fluid retention,” Ralph A. DeFronzo, MD, chief of the diabetes division and professor of medicine at the University of Texas Health Science Center, San Antonio, said during the WCIRDC. “The best drug for NASH is pioglitazone. No other drug beats it” based on current data, Dr. DeFronzo asserted.

Other strategies include the potential to pair pioglitazone with other interventions that can blunt a weight-gain effect. One intriguing combination would combine pioglitazone with a GLP-1 receptor agonist, a drug class that can produce significant weight loss. Results from a phase 2 study showed promise for semaglutide (Rybelsus) in treating patients with NASH.
 

Getting the name right

Another factor that may be keeping NAFLD and NASH from achieving a higher profile for patients with T2D are those names, which focus on what the diseases are not – nonalcoholic – rather than what they are.

A series of recent publications in both the endocrinology and hepatology literature have called for renaming these disorders either “metabolic (dysfunction)–associated fatty liver disease (MALFD)”, or “dysmetabolism-associated fatty liver disease (DALFD)”.

“The names NAFLD and NASH indicate absence of alcohol as a cause, but the disease is also characterized by the absence of other causes, such as autoimmune disorders or hepatitis. The names were coined when we did not know much about these diseases. We now know that it is dysmetabolism that causes these conditions, and so we need to adopt a new, more accurate name,” explained Dr. Mantzoros, who has published support for a name change.

While many agree, some have raised concerns as to whether a name change now is premature. A group of hepatologists recently published a rebuttal to an immediate name change , saying that, “although we are in agreement that metabolic fatty liver disease may more accurately and positively reflect the relevant risk factors better than the age-old term nonalcoholic fatty liver disease, the term still leaves a great deal of ambiguity. A name change will be appropriate when informed by a new understanding of the molecular basis of the disease entity, insights that fundamentally change risk stratification, or other important aspects of the disease. We may be on the cusp of this, but we are not there yet.”

Dr. Mantzoros agreed, but for somewhat different reasons.

“We need to be careful and deliberate, because there is a significant body of knowledge and a lot of data from clinical trials collected using the old definitions. We need to find an appropriate time frame for a [name] transition. We need to find a nice and robust way to productively bridge the old to the new,” he said. “We also need new diagnostic criteria, and new therapies. A new name and definition will facilitate progress.”

Dr. Mantzoros been a shareholder of and consultant to Coherus and Pangea, he has been a consultant to AstraZeneca, Eisai, Genfit, Intercept, Novo Nordisk, P.E.S., and Regeneron, and has received travel support from the Metabolic Institute of America and the California Walnut Commission. Dr. Cusi has been a consultant to and has received research funding from numerous drug companies. Dr. McLaughlin is a consultant to January AI. Dr. Handelsman has been a consultant to numerous drug companies. Dr. DeFronzo received research grants from AstraZeneca, Janssen, and Merck; he has been an adviser to AstraZeneca, Boehringer Ingelheim, Intarcia, Janssen, and Novo Nordisk; and he has been a speaker on behalf of AstraZeneca and Novo Nordisk.

mzoler@mdedge.com