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No invasive strategy benefit at 5 years in ISCHEMIA-CKD extension study
A trip to the cath lab for possible revascularization after a positive stress test, compared with a wait-and-see approach backed by optimal medications, did not improve 5-year survival for patients with advanced chronic kidney disease (CKD) in the ISCHEMIA-CKD trial’s extension study, ISCHEMIA-CKD EXTEND.
The long-term results, from the same 777 patients followed for an average of 2.2 years in the main trial, are consistent with the overall findings of no survival advantage with an initially invasive strategy, compared with one that is initially conservative. The finding applies to patients like those in the trial who had moderate to severe ischemia at stress testing and whose CKD put them in an especially high-risk and little-studied coronary artery disease (CAD) category.
Indeed, in a reflection of that high-risk status, 5-year all-cause mortality reached about 40% and cardiovascular (CV) mortality approached 30%, with no significant differences between patients in the invasive- and conservative-strategy groups.
Those numbers arguably put CKD’s effect on CAD survival in about the same league as an ejection fraction (EF) of 35% or less. For context, all-cause mortality over 3-4 years was about 32% in the REVIVED-BCIS2 trial of such patients with ischemic reduced-EF cardiomyopathy, whether or not they were revascularized, observed Sripal Bangalore, MD, MHA.
Yet in ISCHEMIA-CKD EXTEND, “you’re seeing in a group of patients, with largely preserved EF but advanced CKD, a mortality rate close to 40% at 5 years,” said Dr. Bangalore of New York University.
Although the study doesn’t show benefit from the initially invasive approach in CKD patients with stable CAD, for those with acute coronary syndromes (ACS), it seems to suggest that “at least the invasive strategy is safe,” Dr. Bangalore said during a press conference preceding his presentation of the study Aug. 29 at the annual congress of the European Society of Cardiology, held in Barcelona.
REVIVED-BCIS2 was also presented at the ESC sessions on Aug. 27, as reported by this news organization.
ISCHEMIA-CKD EXTEND “is a large trial and a very well-done trial. The results are robust, and they should influence clinical practice,” Deepak L. Bhatt, MD, MPH, Brigham and Women’s Hospital Heart & Vascular Center, Boston, said as the invited discussant after Dr. Bangalore’s presentation.
“The main message here, really, is don’t just go looking for ischemia, at least with the modalities used in this trial, in your CKD patients as a routine practice, and then try to stomp out that ischemia with revascularization,” Dr. Bhatt said. “The right thing to do in these high-risk patients is to focus on lifestyle modification and intensive medical therapy.”
A caveat, he said, is that the trial’s results don’t apply to the types of patients excluded from it, including those with recent ACS and those who are highly symptomatic or have an EF of less than 35%.
“Those CKD patients likely benefit from an invasive strategy with anatomically appropriate revascularization,” whether percutaneous coronary intervention (PCI) or coronary bypass surgery, Dr. Bhatt said.
At a median follow-up of 5 years in the extension study, the rates of death from any cause were 40.6% for patients in the invasive-strategy group and 37.4% for those in the conservative-strategy group. That yielded a hazard ratio of 1.12 (95% confidence interval, 0.89-1.41; P = .32) after adjustment for age, sex, diabetes status, EF, dialysis status, and – for patients not on dialysis – baseline estimated glomerular filtration rate.
The rates of CV death were 29% for patients managed invasively and 27% for those initially managed conservatively, for a similarly adjusted HR of 1.04 (95% CI, 0.80-1.37; P = .75).
In subgroup analyses, Dr. Bangalore reported, there were no significant differences in all-cause or CV mortality by diabetes status, by severity of baseline ischemia, or by whether the patient had recently experienced new or more frequent angina at study entry, was on guideline-directed medical therapy at baseline, or was on dialysis.
Among the contributions of ISCHEMIA-CKD and its 5-year extension study, Dr. Bangalore told this news organization, is that the relative safety of revascularization they showed may help to counter “renalism,” that is, the aversion to invasive intervention in patients with advanced CKD in clinical practice.
For example, if a patient with advanced CKD presents with an acute myocardial infarction, “people are hesitant to take them to the cath lab,” Dr. Bangalore said. But “if you follow protocols, if you follow strategies to minimize the risk, you can safely go ahead and do it.”
But in patients with stable CAD, as the ISCHEMIA-CKD studies show, “routinely revascularizing them may not have significant benefits.”
ISCHEMIC-CKD and its extension study were funded by the National Heart, Lung, and Blood Institute. Dr. Bangalore discloses receiving research grants from NHLBI and serving as a consultant for Abbott Vascular, Biotronik, Boston Scientific, Amgen, Pfizer, Merck, and Reata. Dr. Bhatt has disclosed grants and/or personal fees from many companies; personal fees from WebMD and other publications or organizations; and having other relationships with Medscape Cardiology and other publications or organizations.
A version of this article first appeared on Medscape.com.
A trip to the cath lab for possible revascularization after a positive stress test, compared with a wait-and-see approach backed by optimal medications, did not improve 5-year survival for patients with advanced chronic kidney disease (CKD) in the ISCHEMIA-CKD trial’s extension study, ISCHEMIA-CKD EXTEND.
The long-term results, from the same 777 patients followed for an average of 2.2 years in the main trial, are consistent with the overall findings of no survival advantage with an initially invasive strategy, compared with one that is initially conservative. The finding applies to patients like those in the trial who had moderate to severe ischemia at stress testing and whose CKD put them in an especially high-risk and little-studied coronary artery disease (CAD) category.
Indeed, in a reflection of that high-risk status, 5-year all-cause mortality reached about 40% and cardiovascular (CV) mortality approached 30%, with no significant differences between patients in the invasive- and conservative-strategy groups.
Those numbers arguably put CKD’s effect on CAD survival in about the same league as an ejection fraction (EF) of 35% or less. For context, all-cause mortality over 3-4 years was about 32% in the REVIVED-BCIS2 trial of such patients with ischemic reduced-EF cardiomyopathy, whether or not they were revascularized, observed Sripal Bangalore, MD, MHA.
Yet in ISCHEMIA-CKD EXTEND, “you’re seeing in a group of patients, with largely preserved EF but advanced CKD, a mortality rate close to 40% at 5 years,” said Dr. Bangalore of New York University.
Although the study doesn’t show benefit from the initially invasive approach in CKD patients with stable CAD, for those with acute coronary syndromes (ACS), it seems to suggest that “at least the invasive strategy is safe,” Dr. Bangalore said during a press conference preceding his presentation of the study Aug. 29 at the annual congress of the European Society of Cardiology, held in Barcelona.
REVIVED-BCIS2 was also presented at the ESC sessions on Aug. 27, as reported by this news organization.
ISCHEMIA-CKD EXTEND “is a large trial and a very well-done trial. The results are robust, and they should influence clinical practice,” Deepak L. Bhatt, MD, MPH, Brigham and Women’s Hospital Heart & Vascular Center, Boston, said as the invited discussant after Dr. Bangalore’s presentation.
“The main message here, really, is don’t just go looking for ischemia, at least with the modalities used in this trial, in your CKD patients as a routine practice, and then try to stomp out that ischemia with revascularization,” Dr. Bhatt said. “The right thing to do in these high-risk patients is to focus on lifestyle modification and intensive medical therapy.”
A caveat, he said, is that the trial’s results don’t apply to the types of patients excluded from it, including those with recent ACS and those who are highly symptomatic or have an EF of less than 35%.
“Those CKD patients likely benefit from an invasive strategy with anatomically appropriate revascularization,” whether percutaneous coronary intervention (PCI) or coronary bypass surgery, Dr. Bhatt said.
At a median follow-up of 5 years in the extension study, the rates of death from any cause were 40.6% for patients in the invasive-strategy group and 37.4% for those in the conservative-strategy group. That yielded a hazard ratio of 1.12 (95% confidence interval, 0.89-1.41; P = .32) after adjustment for age, sex, diabetes status, EF, dialysis status, and – for patients not on dialysis – baseline estimated glomerular filtration rate.
The rates of CV death were 29% for patients managed invasively and 27% for those initially managed conservatively, for a similarly adjusted HR of 1.04 (95% CI, 0.80-1.37; P = .75).
In subgroup analyses, Dr. Bangalore reported, there were no significant differences in all-cause or CV mortality by diabetes status, by severity of baseline ischemia, or by whether the patient had recently experienced new or more frequent angina at study entry, was on guideline-directed medical therapy at baseline, or was on dialysis.
Among the contributions of ISCHEMIA-CKD and its 5-year extension study, Dr. Bangalore told this news organization, is that the relative safety of revascularization they showed may help to counter “renalism,” that is, the aversion to invasive intervention in patients with advanced CKD in clinical practice.
For example, if a patient with advanced CKD presents with an acute myocardial infarction, “people are hesitant to take them to the cath lab,” Dr. Bangalore said. But “if you follow protocols, if you follow strategies to minimize the risk, you can safely go ahead and do it.”
But in patients with stable CAD, as the ISCHEMIA-CKD studies show, “routinely revascularizing them may not have significant benefits.”
ISCHEMIC-CKD and its extension study were funded by the National Heart, Lung, and Blood Institute. Dr. Bangalore discloses receiving research grants from NHLBI and serving as a consultant for Abbott Vascular, Biotronik, Boston Scientific, Amgen, Pfizer, Merck, and Reata. Dr. Bhatt has disclosed grants and/or personal fees from many companies; personal fees from WebMD and other publications or organizations; and having other relationships with Medscape Cardiology and other publications or organizations.
A version of this article first appeared on Medscape.com.
A trip to the cath lab for possible revascularization after a positive stress test, compared with a wait-and-see approach backed by optimal medications, did not improve 5-year survival for patients with advanced chronic kidney disease (CKD) in the ISCHEMIA-CKD trial’s extension study, ISCHEMIA-CKD EXTEND.
The long-term results, from the same 777 patients followed for an average of 2.2 years in the main trial, are consistent with the overall findings of no survival advantage with an initially invasive strategy, compared with one that is initially conservative. The finding applies to patients like those in the trial who had moderate to severe ischemia at stress testing and whose CKD put them in an especially high-risk and little-studied coronary artery disease (CAD) category.
Indeed, in a reflection of that high-risk status, 5-year all-cause mortality reached about 40% and cardiovascular (CV) mortality approached 30%, with no significant differences between patients in the invasive- and conservative-strategy groups.
Those numbers arguably put CKD’s effect on CAD survival in about the same league as an ejection fraction (EF) of 35% or less. For context, all-cause mortality over 3-4 years was about 32% in the REVIVED-BCIS2 trial of such patients with ischemic reduced-EF cardiomyopathy, whether or not they were revascularized, observed Sripal Bangalore, MD, MHA.
Yet in ISCHEMIA-CKD EXTEND, “you’re seeing in a group of patients, with largely preserved EF but advanced CKD, a mortality rate close to 40% at 5 years,” said Dr. Bangalore of New York University.
Although the study doesn’t show benefit from the initially invasive approach in CKD patients with stable CAD, for those with acute coronary syndromes (ACS), it seems to suggest that “at least the invasive strategy is safe,” Dr. Bangalore said during a press conference preceding his presentation of the study Aug. 29 at the annual congress of the European Society of Cardiology, held in Barcelona.
REVIVED-BCIS2 was also presented at the ESC sessions on Aug. 27, as reported by this news organization.
ISCHEMIA-CKD EXTEND “is a large trial and a very well-done trial. The results are robust, and they should influence clinical practice,” Deepak L. Bhatt, MD, MPH, Brigham and Women’s Hospital Heart & Vascular Center, Boston, said as the invited discussant after Dr. Bangalore’s presentation.
“The main message here, really, is don’t just go looking for ischemia, at least with the modalities used in this trial, in your CKD patients as a routine practice, and then try to stomp out that ischemia with revascularization,” Dr. Bhatt said. “The right thing to do in these high-risk patients is to focus on lifestyle modification and intensive medical therapy.”
A caveat, he said, is that the trial’s results don’t apply to the types of patients excluded from it, including those with recent ACS and those who are highly symptomatic or have an EF of less than 35%.
“Those CKD patients likely benefit from an invasive strategy with anatomically appropriate revascularization,” whether percutaneous coronary intervention (PCI) or coronary bypass surgery, Dr. Bhatt said.
At a median follow-up of 5 years in the extension study, the rates of death from any cause were 40.6% for patients in the invasive-strategy group and 37.4% for those in the conservative-strategy group. That yielded a hazard ratio of 1.12 (95% confidence interval, 0.89-1.41; P = .32) after adjustment for age, sex, diabetes status, EF, dialysis status, and – for patients not on dialysis – baseline estimated glomerular filtration rate.
The rates of CV death were 29% for patients managed invasively and 27% for those initially managed conservatively, for a similarly adjusted HR of 1.04 (95% CI, 0.80-1.37; P = .75).
In subgroup analyses, Dr. Bangalore reported, there were no significant differences in all-cause or CV mortality by diabetes status, by severity of baseline ischemia, or by whether the patient had recently experienced new or more frequent angina at study entry, was on guideline-directed medical therapy at baseline, or was on dialysis.
Among the contributions of ISCHEMIA-CKD and its 5-year extension study, Dr. Bangalore told this news organization, is that the relative safety of revascularization they showed may help to counter “renalism,” that is, the aversion to invasive intervention in patients with advanced CKD in clinical practice.
For example, if a patient with advanced CKD presents with an acute myocardial infarction, “people are hesitant to take them to the cath lab,” Dr. Bangalore said. But “if you follow protocols, if you follow strategies to minimize the risk, you can safely go ahead and do it.”
But in patients with stable CAD, as the ISCHEMIA-CKD studies show, “routinely revascularizing them may not have significant benefits.”
ISCHEMIC-CKD and its extension study were funded by the National Heart, Lung, and Blood Institute. Dr. Bangalore discloses receiving research grants from NHLBI and serving as a consultant for Abbott Vascular, Biotronik, Boston Scientific, Amgen, Pfizer, Merck, and Reata. Dr. Bhatt has disclosed grants and/or personal fees from many companies; personal fees from WebMD and other publications or organizations; and having other relationships with Medscape Cardiology and other publications or organizations.
A version of this article first appeared on Medscape.com.
FROM ESC CONGRESS 2022
Gastrointestinal Stromal Tumor Arising From the Small Intestine in a Heart Transplant Recipient on Hemodialysis and Chronic Immunosuppression: A Case Report
Background
Gastrointestinal stromal tumors (GISTs) are rare mesenchymal tumors with worse prognosis if arising from the small bowel. Surgery remains the mainstay of treatment for patients with resectable tumors. Imatinib has become the standard treatment in cKIT-positive GISTs with significant morbidity in neoadjuvant, adjuvant, and palliative settings. There are limited data on efficacy and safety of imatinib in dialysis patients, and chemotherapy dosing is challenging in dialysis patients with multiple comorbidities.
Presentation
A 68-year-old male with a history of orthotopic heart transplantation on sirolimus with prednisone, cardiac allograft vasculopathy, plus ESRD on peritoneal dialysis (PD), presented with lower abdominal pain and fever. Abdominal imaging revealed a right lower quadrant (RLQ) mass with concern for bowel perforation.
Diagnosis and Treatment
The patient underwent exploratory laparoscopy with small bowel resection, excision of the mesenteric small bowel mass, drainage and washout of intraabdominal abscess, removal of PD catheter, and transition to hemodialysis. Pathology revealed a 14.5-cm high-grade GIST with mixed spindle and epithelioid types involving the ileal wall and mesentery, consistent with pT4 primary tumor and stage IIIB disease. Molecular testing was positive for c-KIT and DOG-1 mutations.
After a prolonged recovery, repeat abdominal imaging demonstrated metastatic liver disease and a new RLQ lesion. The patient was started on palliative imatinib 100 mg daily with subsequent increase to 200 mg daily. He was monitored closely for toxicities but reported only mild nausea controlled with ondansetron. Hemodialysis was continued 3 times per week. Follow up scans 3 months later showed improvement in RLQ mass and hepatic lesions. The patient remains on the current dose 15 months after the diagnosis.
Conclusion
To our knowledge, this is the first case of a small intestinal GIST in a heart transplant recipient treated with dose-reduced imatinib with concurrent dialysis and immunosuppression. Treatment decision-making was complex given concern for cardiotoxicity with pre-existing cardiac disease and drug-drug interactions with immunosuppressive agents. While some literature suggests standard dose imatinib with dialysis, no large-scale studies evaluated pharmacokinetics of imatinib with creatinine clearance < 20 mL/min. There is a need for further studies to determine dosing strategies for such patients.
Background
Gastrointestinal stromal tumors (GISTs) are rare mesenchymal tumors with worse prognosis if arising from the small bowel. Surgery remains the mainstay of treatment for patients with resectable tumors. Imatinib has become the standard treatment in cKIT-positive GISTs with significant morbidity in neoadjuvant, adjuvant, and palliative settings. There are limited data on efficacy and safety of imatinib in dialysis patients, and chemotherapy dosing is challenging in dialysis patients with multiple comorbidities.
Presentation
A 68-year-old male with a history of orthotopic heart transplantation on sirolimus with prednisone, cardiac allograft vasculopathy, plus ESRD on peritoneal dialysis (PD), presented with lower abdominal pain and fever. Abdominal imaging revealed a right lower quadrant (RLQ) mass with concern for bowel perforation.
Diagnosis and Treatment
The patient underwent exploratory laparoscopy with small bowel resection, excision of the mesenteric small bowel mass, drainage and washout of intraabdominal abscess, removal of PD catheter, and transition to hemodialysis. Pathology revealed a 14.5-cm high-grade GIST with mixed spindle and epithelioid types involving the ileal wall and mesentery, consistent with pT4 primary tumor and stage IIIB disease. Molecular testing was positive for c-KIT and DOG-1 mutations.
After a prolonged recovery, repeat abdominal imaging demonstrated metastatic liver disease and a new RLQ lesion. The patient was started on palliative imatinib 100 mg daily with subsequent increase to 200 mg daily. He was monitored closely for toxicities but reported only mild nausea controlled with ondansetron. Hemodialysis was continued 3 times per week. Follow up scans 3 months later showed improvement in RLQ mass and hepatic lesions. The patient remains on the current dose 15 months after the diagnosis.
Conclusion
To our knowledge, this is the first case of a small intestinal GIST in a heart transplant recipient treated with dose-reduced imatinib with concurrent dialysis and immunosuppression. Treatment decision-making was complex given concern for cardiotoxicity with pre-existing cardiac disease and drug-drug interactions with immunosuppressive agents. While some literature suggests standard dose imatinib with dialysis, no large-scale studies evaluated pharmacokinetics of imatinib with creatinine clearance < 20 mL/min. There is a need for further studies to determine dosing strategies for such patients.
Background
Gastrointestinal stromal tumors (GISTs) are rare mesenchymal tumors with worse prognosis if arising from the small bowel. Surgery remains the mainstay of treatment for patients with resectable tumors. Imatinib has become the standard treatment in cKIT-positive GISTs with significant morbidity in neoadjuvant, adjuvant, and palliative settings. There are limited data on efficacy and safety of imatinib in dialysis patients, and chemotherapy dosing is challenging in dialysis patients with multiple comorbidities.
Presentation
A 68-year-old male with a history of orthotopic heart transplantation on sirolimus with prednisone, cardiac allograft vasculopathy, plus ESRD on peritoneal dialysis (PD), presented with lower abdominal pain and fever. Abdominal imaging revealed a right lower quadrant (RLQ) mass with concern for bowel perforation.
Diagnosis and Treatment
The patient underwent exploratory laparoscopy with small bowel resection, excision of the mesenteric small bowel mass, drainage and washout of intraabdominal abscess, removal of PD catheter, and transition to hemodialysis. Pathology revealed a 14.5-cm high-grade GIST with mixed spindle and epithelioid types involving the ileal wall and mesentery, consistent with pT4 primary tumor and stage IIIB disease. Molecular testing was positive for c-KIT and DOG-1 mutations.
After a prolonged recovery, repeat abdominal imaging demonstrated metastatic liver disease and a new RLQ lesion. The patient was started on palliative imatinib 100 mg daily with subsequent increase to 200 mg daily. He was monitored closely for toxicities but reported only mild nausea controlled with ondansetron. Hemodialysis was continued 3 times per week. Follow up scans 3 months later showed improvement in RLQ mass and hepatic lesions. The patient remains on the current dose 15 months after the diagnosis.
Conclusion
To our knowledge, this is the first case of a small intestinal GIST in a heart transplant recipient treated with dose-reduced imatinib with concurrent dialysis and immunosuppression. Treatment decision-making was complex given concern for cardiotoxicity with pre-existing cardiac disease and drug-drug interactions with immunosuppressive agents. While some literature suggests standard dose imatinib with dialysis, no large-scale studies evaluated pharmacokinetics of imatinib with creatinine clearance < 20 mL/min. There is a need for further studies to determine dosing strategies for such patients.
Albuminuria linked to higher CVD risk in diabetes
BARCELONA – Fewer than half the adults in Denmark with type 2 diabetes in 2015 had a recent assessment for albuminuria, and those who underwent testing and had albuminuria had a greater than 50% increased rate of incident heart failure, MI, stroke, or all-cause death during 4-year follow-up, in a study of more than 74,000 Danish residents.
Even those in this study with type 2 diabetes but without albuminuria had a 19% rate of these adverse outcomes, highlighting the “substantial” cardiovascular disease risk faced by people with type 2 diabetes even without a clear indication of nephropathy, Saaima Parveen, MD, a cardiology researcher at Herlev and Gentofte University Hospital in Copenhagen, said at the annual congress of the European Society of Cardiology.
This high rate of heart failure, MI, stroke, or death even in the absence of what is conventionally defined as albuminuria – a urinary albumin-to-creatinine ratio (UACR) of at least 30 mg/g – suggests that this threshold for albuminuria may be too high, commented Luis M. Ruilope, MD, professor of public health and preventive medicine at Autonoma University, Madrid, who was not involved with the Danish study.
The study reported by Dr. Parveen “is very important because it shows that the risk of events is high not only in people with diabetes with albuminuria, but also in those without albuminuria,” Dr. Ruilope said in an interview.
The profile of albuminuria as a risk marker for people with type 2 diabetes spiked following the 2021 U.S. approval of finerenone (Kerendia) as an agent specifically targeted to adults with type 2 diabetes and albuminuria. (Finerenone gained marketing approval by in Europe in February 2022 under the same brand name.)
A lower threshold for albuminuria?
“Even patients with a UACR of 10-29 mg/g have risk and should be considered for finerenone treatment, said Dr. Ruilope. “People with type 2 diabetes with a UACR of 10-29 mg/g could explain” the high background risk shown by Dr. Parveen in her reported data. “In people with type 2 diabetes and a UACR of 10-29 mg/g we also see progression of kidney disease, but it’s slower” than in those who meet the current, standard threshold for albuminuria.
Dr. Ruilope was a coinvestigator for both of the finerenone pivotal trials, FIDELIO-DKD and FIGARO-DKD. Although the design of both these studies specified enrollment of people with type 2 diabetes and a UACR of at least 30 mg/g, a few hundred of the total combined enrollment of more than 13,000 patients had UACR values below this level, and analysis of this subgroup could provide some important insights into the value of finerenone for people with “high normal” albuminuria, he said.
The study led by Dr. Parveen used data routinely collected in Danish national records and focused on all Danish adults diagnosed with type 2 diabetes as of Jan. 1, 2015, who also had information in their records for a UACR and an estimated glomerular filtration rate (eGFR) within the preceding year.
The records showed that only 47% of these people had a UACR value during this time frame, and that 57% had a recent measure of their eGFR, despite prevailing recommendations for routine and regular measurements of these parameters for all people with type 2 diabetes.
Dr. Parveen hypothesized that UACR measurement may lag for several reasons, such as reliance by primary care physicians on urine dipstick assessments, which preclude calculation of a UACR, poor adherence to regular medical assessment by people in low socioeconomic groups, and medical examination done outside of morning time periods, which is the best time of day for assessing UACR.
More albuminuria measurement needed in primary care
“Measurement of albuminuria in people with type 2 diabetes is improving in Europe, but is not yet at the level that’s needed,” commented Dr. Ruilope. “We are pushing to have it done more often in primary care practices,” he said.
Among the 74,014 people with type 2 diabetes who had the measurement records that allowed for their inclusion in the study, 40% had albuminuria and 60% did not.
During 4 years of follow-up, the incidence of heart failure, MI, stroke, or all-cause death was 28.6% in those with albuminuria and 18.7% among those without albuminuria, reported Dr. Parveen.
The rates for each event type in those with albuminuria were 7.0% for heart failure, 4.4% for MI, 7.6% for stroke, and 16.6% for all-cause death (each patient could tally more than one type of event). Among those without albuminuria, the rates were 4.0%, 3.2%, 5.5%, and 9.3%, respectively.
The study received no commercial funding. Dr. Parveen and Dr. Ruilope had no disclosures.
BARCELONA – Fewer than half the adults in Denmark with type 2 diabetes in 2015 had a recent assessment for albuminuria, and those who underwent testing and had albuminuria had a greater than 50% increased rate of incident heart failure, MI, stroke, or all-cause death during 4-year follow-up, in a study of more than 74,000 Danish residents.
Even those in this study with type 2 diabetes but without albuminuria had a 19% rate of these adverse outcomes, highlighting the “substantial” cardiovascular disease risk faced by people with type 2 diabetes even without a clear indication of nephropathy, Saaima Parveen, MD, a cardiology researcher at Herlev and Gentofte University Hospital in Copenhagen, said at the annual congress of the European Society of Cardiology.
This high rate of heart failure, MI, stroke, or death even in the absence of what is conventionally defined as albuminuria – a urinary albumin-to-creatinine ratio (UACR) of at least 30 mg/g – suggests that this threshold for albuminuria may be too high, commented Luis M. Ruilope, MD, professor of public health and preventive medicine at Autonoma University, Madrid, who was not involved with the Danish study.
The study reported by Dr. Parveen “is very important because it shows that the risk of events is high not only in people with diabetes with albuminuria, but also in those without albuminuria,” Dr. Ruilope said in an interview.
The profile of albuminuria as a risk marker for people with type 2 diabetes spiked following the 2021 U.S. approval of finerenone (Kerendia) as an agent specifically targeted to adults with type 2 diabetes and albuminuria. (Finerenone gained marketing approval by in Europe in February 2022 under the same brand name.)
A lower threshold for albuminuria?
“Even patients with a UACR of 10-29 mg/g have risk and should be considered for finerenone treatment, said Dr. Ruilope. “People with type 2 diabetes with a UACR of 10-29 mg/g could explain” the high background risk shown by Dr. Parveen in her reported data. “In people with type 2 diabetes and a UACR of 10-29 mg/g we also see progression of kidney disease, but it’s slower” than in those who meet the current, standard threshold for albuminuria.
Dr. Ruilope was a coinvestigator for both of the finerenone pivotal trials, FIDELIO-DKD and FIGARO-DKD. Although the design of both these studies specified enrollment of people with type 2 diabetes and a UACR of at least 30 mg/g, a few hundred of the total combined enrollment of more than 13,000 patients had UACR values below this level, and analysis of this subgroup could provide some important insights into the value of finerenone for people with “high normal” albuminuria, he said.
The study led by Dr. Parveen used data routinely collected in Danish national records and focused on all Danish adults diagnosed with type 2 diabetes as of Jan. 1, 2015, who also had information in their records for a UACR and an estimated glomerular filtration rate (eGFR) within the preceding year.
The records showed that only 47% of these people had a UACR value during this time frame, and that 57% had a recent measure of their eGFR, despite prevailing recommendations for routine and regular measurements of these parameters for all people with type 2 diabetes.
Dr. Parveen hypothesized that UACR measurement may lag for several reasons, such as reliance by primary care physicians on urine dipstick assessments, which preclude calculation of a UACR, poor adherence to regular medical assessment by people in low socioeconomic groups, and medical examination done outside of morning time periods, which is the best time of day for assessing UACR.
More albuminuria measurement needed in primary care
“Measurement of albuminuria in people with type 2 diabetes is improving in Europe, but is not yet at the level that’s needed,” commented Dr. Ruilope. “We are pushing to have it done more often in primary care practices,” he said.
Among the 74,014 people with type 2 diabetes who had the measurement records that allowed for their inclusion in the study, 40% had albuminuria and 60% did not.
During 4 years of follow-up, the incidence of heart failure, MI, stroke, or all-cause death was 28.6% in those with albuminuria and 18.7% among those without albuminuria, reported Dr. Parveen.
The rates for each event type in those with albuminuria were 7.0% for heart failure, 4.4% for MI, 7.6% for stroke, and 16.6% for all-cause death (each patient could tally more than one type of event). Among those without albuminuria, the rates were 4.0%, 3.2%, 5.5%, and 9.3%, respectively.
The study received no commercial funding. Dr. Parveen and Dr. Ruilope had no disclosures.
BARCELONA – Fewer than half the adults in Denmark with type 2 diabetes in 2015 had a recent assessment for albuminuria, and those who underwent testing and had albuminuria had a greater than 50% increased rate of incident heart failure, MI, stroke, or all-cause death during 4-year follow-up, in a study of more than 74,000 Danish residents.
Even those in this study with type 2 diabetes but without albuminuria had a 19% rate of these adverse outcomes, highlighting the “substantial” cardiovascular disease risk faced by people with type 2 diabetes even without a clear indication of nephropathy, Saaima Parveen, MD, a cardiology researcher at Herlev and Gentofte University Hospital in Copenhagen, said at the annual congress of the European Society of Cardiology.
This high rate of heart failure, MI, stroke, or death even in the absence of what is conventionally defined as albuminuria – a urinary albumin-to-creatinine ratio (UACR) of at least 30 mg/g – suggests that this threshold for albuminuria may be too high, commented Luis M. Ruilope, MD, professor of public health and preventive medicine at Autonoma University, Madrid, who was not involved with the Danish study.
The study reported by Dr. Parveen “is very important because it shows that the risk of events is high not only in people with diabetes with albuminuria, but also in those without albuminuria,” Dr. Ruilope said in an interview.
The profile of albuminuria as a risk marker for people with type 2 diabetes spiked following the 2021 U.S. approval of finerenone (Kerendia) as an agent specifically targeted to adults with type 2 diabetes and albuminuria. (Finerenone gained marketing approval by in Europe in February 2022 under the same brand name.)
A lower threshold for albuminuria?
“Even patients with a UACR of 10-29 mg/g have risk and should be considered for finerenone treatment, said Dr. Ruilope. “People with type 2 diabetes with a UACR of 10-29 mg/g could explain” the high background risk shown by Dr. Parveen in her reported data. “In people with type 2 diabetes and a UACR of 10-29 mg/g we also see progression of kidney disease, but it’s slower” than in those who meet the current, standard threshold for albuminuria.
Dr. Ruilope was a coinvestigator for both of the finerenone pivotal trials, FIDELIO-DKD and FIGARO-DKD. Although the design of both these studies specified enrollment of people with type 2 diabetes and a UACR of at least 30 mg/g, a few hundred of the total combined enrollment of more than 13,000 patients had UACR values below this level, and analysis of this subgroup could provide some important insights into the value of finerenone for people with “high normal” albuminuria, he said.
The study led by Dr. Parveen used data routinely collected in Danish national records and focused on all Danish adults diagnosed with type 2 diabetes as of Jan. 1, 2015, who also had information in their records for a UACR and an estimated glomerular filtration rate (eGFR) within the preceding year.
The records showed that only 47% of these people had a UACR value during this time frame, and that 57% had a recent measure of their eGFR, despite prevailing recommendations for routine and regular measurements of these parameters for all people with type 2 diabetes.
Dr. Parveen hypothesized that UACR measurement may lag for several reasons, such as reliance by primary care physicians on urine dipstick assessments, which preclude calculation of a UACR, poor adherence to regular medical assessment by people in low socioeconomic groups, and medical examination done outside of morning time periods, which is the best time of day for assessing UACR.
More albuminuria measurement needed in primary care
“Measurement of albuminuria in people with type 2 diabetes is improving in Europe, but is not yet at the level that’s needed,” commented Dr. Ruilope. “We are pushing to have it done more often in primary care practices,” he said.
Among the 74,014 people with type 2 diabetes who had the measurement records that allowed for their inclusion in the study, 40% had albuminuria and 60% did not.
During 4 years of follow-up, the incidence of heart failure, MI, stroke, or all-cause death was 28.6% in those with albuminuria and 18.7% among those without albuminuria, reported Dr. Parveen.
The rates for each event type in those with albuminuria were 7.0% for heart failure, 4.4% for MI, 7.6% for stroke, and 16.6% for all-cause death (each patient could tally more than one type of event). Among those without albuminuria, the rates were 4.0%, 3.2%, 5.5%, and 9.3%, respectively.
The study received no commercial funding. Dr. Parveen and Dr. Ruilope had no disclosures.
AT ESC CONGRESS 2022
Low calcium, potassium key risk factors for kidney stones
as well as their symptomatic recurrence, a population-based study of dietary factors shows.
“Our research is of particular importance as recommendations for preventing symptomatic recurrence of kidney stones has largely been based on dietary factors associated with the incidence rather than the recurrence of stone formation,” Api Chewcharat, MD, Mayo Clinic, Rochester, Minn., said in a video discussing the study.
“We recommend a daily intake of calcium of approximately 1,200 mg and a diet that is high in potassium, especially high in fruits and vegetables, in order to prevent both incident and recurrent symptomatic kidney stone formation,” he stressed.
The study was published online in Mayo Clinic Proceedings.
Lower dietary calcium, potassium, and fluid associated with increased incidence
Some 411 patients with incident symptomatic kidney stone formation were recruited. Diets were compared between them and 384 controls. Patients were seen at the Mayo Clinic in either Minnesota or Florida between Jan. 1, 2009, and Aug. 31, 2018. “Dietary factors were based on a Viocare food frequency questionnaire administered during a baseline in-person study visit,” Dr. Chewcharat and colleagues observed.
During a median follow-up of 4.1 years, 73 patients experienced a symptomatic recurrence. In a fully adjusted analysis, a dietary calcium intake less than 1,200 mg/d was associated with incident stone formation. Similarly, among participants with a fluid intake less than 3,400 mL/d – about nine 12-oz glasses of fluid – was also associated with incident stone formation, as was a lower intake of dietary potassium, caffeine, and phytate. Phytate is an antioxidant found in whole grains, nuts, and other foods that can increase calcium absorption and urinary calcium excretion.
After excluding patients who were taking either a thiazide diuretic or a calcium supplement, lower dietary calcium and potassium, fluid, and phytate intake remained significantly associated with incident stone formation.
However, only lower dietary calcium intake was associated with a higher risk for symptomatic recurrence, although a lower dietary potassium intake was also associated with a higher risk for symptomatic recurrence in an analysis that adjusted for body mass index, fluid, and energy intake.
As the authors suggested, patients may be less keen to adjust their diet to prevent the development of incident kidney stones. On the other hand, they may be much more willing to adjust their diet to prevent their symptomatic recurrence. The Department of Agriculture currently recommends that individuals get approximately 1,200 mg/d of dietary calcium which, given the study results, appears to be justified for the prevention of symptomatic stone recurrence.
A higher-calcium diet is associated with a higher urinary pH, and citrate confers an alkali load which helps protect against the formation of calcium oxalate stones. Foods that are high in potassium also contain more fluid, citrate, and phytate, which, again, have been reported to be protective against kidney stones. “Changing your diet to prevent kidney stones can be very difficult,” Andrew Rule, MD, a nephrologist at the Mayo Clinic said in a statement.
“Thus, knowing the dietary factors that are most important for preventing kidney stone recurrence can help patients and providers know what to prioritize,” he added.
The authors have no conflicts of interest to declare.
A version of this article first appeared on Medscape.com.
as well as their symptomatic recurrence, a population-based study of dietary factors shows.
“Our research is of particular importance as recommendations for preventing symptomatic recurrence of kidney stones has largely been based on dietary factors associated with the incidence rather than the recurrence of stone formation,” Api Chewcharat, MD, Mayo Clinic, Rochester, Minn., said in a video discussing the study.
“We recommend a daily intake of calcium of approximately 1,200 mg and a diet that is high in potassium, especially high in fruits and vegetables, in order to prevent both incident and recurrent symptomatic kidney stone formation,” he stressed.
The study was published online in Mayo Clinic Proceedings.
Lower dietary calcium, potassium, and fluid associated with increased incidence
Some 411 patients with incident symptomatic kidney stone formation were recruited. Diets were compared between them and 384 controls. Patients were seen at the Mayo Clinic in either Minnesota or Florida between Jan. 1, 2009, and Aug. 31, 2018. “Dietary factors were based on a Viocare food frequency questionnaire administered during a baseline in-person study visit,” Dr. Chewcharat and colleagues observed.
During a median follow-up of 4.1 years, 73 patients experienced a symptomatic recurrence. In a fully adjusted analysis, a dietary calcium intake less than 1,200 mg/d was associated with incident stone formation. Similarly, among participants with a fluid intake less than 3,400 mL/d – about nine 12-oz glasses of fluid – was also associated with incident stone formation, as was a lower intake of dietary potassium, caffeine, and phytate. Phytate is an antioxidant found in whole grains, nuts, and other foods that can increase calcium absorption and urinary calcium excretion.
After excluding patients who were taking either a thiazide diuretic or a calcium supplement, lower dietary calcium and potassium, fluid, and phytate intake remained significantly associated with incident stone formation.
However, only lower dietary calcium intake was associated with a higher risk for symptomatic recurrence, although a lower dietary potassium intake was also associated with a higher risk for symptomatic recurrence in an analysis that adjusted for body mass index, fluid, and energy intake.
As the authors suggested, patients may be less keen to adjust their diet to prevent the development of incident kidney stones. On the other hand, they may be much more willing to adjust their diet to prevent their symptomatic recurrence. The Department of Agriculture currently recommends that individuals get approximately 1,200 mg/d of dietary calcium which, given the study results, appears to be justified for the prevention of symptomatic stone recurrence.
A higher-calcium diet is associated with a higher urinary pH, and citrate confers an alkali load which helps protect against the formation of calcium oxalate stones. Foods that are high in potassium also contain more fluid, citrate, and phytate, which, again, have been reported to be protective against kidney stones. “Changing your diet to prevent kidney stones can be very difficult,” Andrew Rule, MD, a nephrologist at the Mayo Clinic said in a statement.
“Thus, knowing the dietary factors that are most important for preventing kidney stone recurrence can help patients and providers know what to prioritize,” he added.
The authors have no conflicts of interest to declare.
A version of this article first appeared on Medscape.com.
as well as their symptomatic recurrence, a population-based study of dietary factors shows.
“Our research is of particular importance as recommendations for preventing symptomatic recurrence of kidney stones has largely been based on dietary factors associated with the incidence rather than the recurrence of stone formation,” Api Chewcharat, MD, Mayo Clinic, Rochester, Minn., said in a video discussing the study.
“We recommend a daily intake of calcium of approximately 1,200 mg and a diet that is high in potassium, especially high in fruits and vegetables, in order to prevent both incident and recurrent symptomatic kidney stone formation,” he stressed.
The study was published online in Mayo Clinic Proceedings.
Lower dietary calcium, potassium, and fluid associated with increased incidence
Some 411 patients with incident symptomatic kidney stone formation were recruited. Diets were compared between them and 384 controls. Patients were seen at the Mayo Clinic in either Minnesota or Florida between Jan. 1, 2009, and Aug. 31, 2018. “Dietary factors were based on a Viocare food frequency questionnaire administered during a baseline in-person study visit,” Dr. Chewcharat and colleagues observed.
During a median follow-up of 4.1 years, 73 patients experienced a symptomatic recurrence. In a fully adjusted analysis, a dietary calcium intake less than 1,200 mg/d was associated with incident stone formation. Similarly, among participants with a fluid intake less than 3,400 mL/d – about nine 12-oz glasses of fluid – was also associated with incident stone formation, as was a lower intake of dietary potassium, caffeine, and phytate. Phytate is an antioxidant found in whole grains, nuts, and other foods that can increase calcium absorption and urinary calcium excretion.
After excluding patients who were taking either a thiazide diuretic or a calcium supplement, lower dietary calcium and potassium, fluid, and phytate intake remained significantly associated with incident stone formation.
However, only lower dietary calcium intake was associated with a higher risk for symptomatic recurrence, although a lower dietary potassium intake was also associated with a higher risk for symptomatic recurrence in an analysis that adjusted for body mass index, fluid, and energy intake.
As the authors suggested, patients may be less keen to adjust their diet to prevent the development of incident kidney stones. On the other hand, they may be much more willing to adjust their diet to prevent their symptomatic recurrence. The Department of Agriculture currently recommends that individuals get approximately 1,200 mg/d of dietary calcium which, given the study results, appears to be justified for the prevention of symptomatic stone recurrence.
A higher-calcium diet is associated with a higher urinary pH, and citrate confers an alkali load which helps protect against the formation of calcium oxalate stones. Foods that are high in potassium also contain more fluid, citrate, and phytate, which, again, have been reported to be protective against kidney stones. “Changing your diet to prevent kidney stones can be very difficult,” Andrew Rule, MD, a nephrologist at the Mayo Clinic said in a statement.
“Thus, knowing the dietary factors that are most important for preventing kidney stone recurrence can help patients and providers know what to prioritize,” he added.
The authors have no conflicts of interest to declare.
A version of this article first appeared on Medscape.com.
FROM MAYO CLINIC PRECEEDINGS
Supporting Patients on Complex Care Journeys: How Technology Can Bridge the Gaps
From Memora Health (Dr. Flyckt and Dr. Colbert), San Francisco, CA; and Harvard Medical School (Dr. Colbert), Boston, MA.
A close relative was recently diagnosed with follicular lymphoma. He was cared for at a high-ranked cancer center by physicians with demonstrated expertise, and even had the support of a care navigator. Still, he was often left feeling overwhelmed and confused, holding an inch-thick stack of papers, instructions, and pamphlets. As he left his treatment planning visit, reeling from the emotional burden of his diagnosis and all the unfamiliar terminology, he didn’t know what to do or what to expect. Later, when he experienced early signs of tumor lysis syndrome, he struggled to reach his care team for triage and guidance. When he went to the emergency room, his oncologist was never informed.
This scenario is unfortunately common, and versions of this scenario play out thousands of times each day across the US health system. Within the clinic and hospital setting, patients receive excellent care from their providers, but a disconnect emerges once the patient leaves these medical settings: patients at home struggle to find guidance and support, while care teams lack the tools to engage patients between visits or monitor their health across care settings, providers, or episodes of care.
Leveraging Technology to Move From Episodes of Care to Complex Care Journeys
The use of automated messaging, artificial intelligence and natural language processing–driven chat experiences, and text-based support is becoming more common. However, health care lags behind other industries in the adoption of these technologies.1,2 The slow pace can be warranted, given that health care is more complicated and higher risk than inquiring about a lost package, ordering groceries, or applying for a mortgage. At the same time, many of the consumer engagement tools used to guide an applicant through the multiple steps and complexities of their home loan process or to prompt viewers to select new shows to binge have applications in health care.
Over the past few years, technologies have emerged that guide patients through complex care journeys and allow care teams to monitor and engage patients between visits. These solutions come in different formats, but generally patients can receive messages on their phones that contain disease-specific educational content, prompts to fill prescriptions and take medications, and reminders and guidance on how to prepare for appointments and procedures. These programs also collect relevant data from patients through survey and electronic patient-reported outcomes instruments, as well as connected patient monitoring devices, that help track patient progress and identify issues as they arise. Many programs also incorporate symptom triage pathways and use natural language processing to respond automatically to patient questions and concerns.3,4
These technology solutions can automate many tasks that in the past required a care team member to spend hours on the phone. Newly freed from such repetitive tasks, care teams can now focus on more in-depth interactions with those patients who are most in need—the types of interactions that are more satisfying and rewarding. Such assistance is particularly needed today with the staffing shortages faced by most health systems.5
In addition, technology allows teams to see the panel of patients they are caring for and to quickly identify and take action on any specific needs or issues. Care teams can focus on any patient and see where they are in their journey. When appropriate, some solutions also allow care teams to engage directly with patients through text-messaging, creating a seamless experience and unified communication channel. Ideally, these solutions should be linked or embedded within the electronic health record or other primary system of record, so that teams can easily access these tools through their existing workflows and avoid creating yet another interface to navigate.
The Impact of Low-Tech Solutions to Deliver High-Touch Support
There is evidence showing that digital patient navigation tools impact patient care. In the oncology setting, patients with a digital navigator have achieved over 95% adherence rates with complex oral chemotherapy regimens (Memora Health Unpublished Data. 2022.). In the postpartum setting, a text message–based program improved screening rates for postpartum depression and did so with very high patient satisfaction ratings.6 Particularly notable is the fact that this depression screening program achieved these results in a population that was predominantly low income, with more than half belonging to underrepresented minority populations.6
We believe these digital patient navigation technologies, specifically low-tech solutions that don’t require app downloads, portal log-ins, or high-speed internet, will transform care delivery over the next 5 to 10 years. Successful management of complex conditions like diabetes or cancer requires more than 3 hours of care each day,7 yet most patients spend only 1 or 2 hours per month directly interacting with their health care providers. However, most patients carry their phones with them at all times, and artificial intelligence–enabled text support is “always on” to provide support, monitoring, and guidance, wherever a patient happens to be when assistance is needed.
Shifting the Model to Support a Lifetime of Care
While still in the early stages of development, these tools have the potential to radically alter the practice of medicine, shifting the focus from episodic interactions to continuous journey-based care delivery. Outside of an acute event bringing a patient into the clinic or emergency room, many patients go a year or more without seeing their primary care providers.8 During that time, an immense amount of information is underreported or completely lost. Capturing this information in real-time and more holistically over a person’s lifetime of care could provide physicians better insight to both better manage and more fully evaluate the success of treatment plans by tracking patient symptoms, pain, and functional status over time. With this more longitudinal view of the patient, we see a pathway towards achieving the Quadruple Aim: patients who are more supported will achieve better outcomes at lower cost, they will have a better experience, and care teams will be empowered to focus their time on more satisfying activities rather than repetitive administrative tasks.
Corresponding author: James A. Colbert, MD, MBA; jamie@memorahealth.com
Disclosures: Dr. Flyckt and Dr. Colbert are employed by Memora Health, an organization that helps health care systems digitize and automate care journeys.
1. Hermes S, Riasanow T, Clemons EK, et al. The digital transformation of the healthcare industry: exploring the rise of emerging platform ecosystems and their influence on the role of patients. Bus Res. 2020;13:1033-1069. doi:10.1007/s40685-020-00125-x
2. Van Velthoven MH, Cordon C. Sustainable adoption of digital health innovations: perspectives from a stakeholder workshop. J Med Internet Res. 2019;21(3):e11922. doi:10.2196/11922
3. Campbell K, Louie P, Levine B, Gililland J. Using patient engagement platforms in the postoperative management of patients. Curr Rev Musculoskelet Med. 2020;13(4):479-484. doi:10.1007/s12178-020-09638-8
4. Xu L, Sanders L, Li K, Chow JCL. Chatbot for health care and oncology applications using artificial intelligence and machine learning: systematic review. JMIR Cancer. 2021;7(4):e27850. doi:10.2196/27850
5. Data brief: health care workforce challenges threaten hospitals’ ability to care for patients. American Hospital Association. Accessed July 24, 2022. www.aha.org/fact-sheets/2021-11-01-data-brief-health-care-workforce-challenges-threaten-hospitals-ability-care
6. Gaulton JS, Leitner K, Hahn L, et al. Healing at home: applying innovation principles to redesign and optimise postpartum care. BMJ Innovations. 2022;8:37-41.
7. Østbye T, Yarnall KS, Krause KM, et al. Is there time for management of patients with chronic diseases in primary care? Ann Fam Med. 2005;3(3):209-214. doi:10.1370/afm.310
8. Ganguli I, Shi Z, E. Orav J, et al. Declining use of primary care among commercially insured adults in the united states, 2008–2016. Ann Intern Med. 2020;172:240-247. doi:10.7326/M19-1834
From Memora Health (Dr. Flyckt and Dr. Colbert), San Francisco, CA; and Harvard Medical School (Dr. Colbert), Boston, MA.
A close relative was recently diagnosed with follicular lymphoma. He was cared for at a high-ranked cancer center by physicians with demonstrated expertise, and even had the support of a care navigator. Still, he was often left feeling overwhelmed and confused, holding an inch-thick stack of papers, instructions, and pamphlets. As he left his treatment planning visit, reeling from the emotional burden of his diagnosis and all the unfamiliar terminology, he didn’t know what to do or what to expect. Later, when he experienced early signs of tumor lysis syndrome, he struggled to reach his care team for triage and guidance. When he went to the emergency room, his oncologist was never informed.
This scenario is unfortunately common, and versions of this scenario play out thousands of times each day across the US health system. Within the clinic and hospital setting, patients receive excellent care from their providers, but a disconnect emerges once the patient leaves these medical settings: patients at home struggle to find guidance and support, while care teams lack the tools to engage patients between visits or monitor their health across care settings, providers, or episodes of care.
Leveraging Technology to Move From Episodes of Care to Complex Care Journeys
The use of automated messaging, artificial intelligence and natural language processing–driven chat experiences, and text-based support is becoming more common. However, health care lags behind other industries in the adoption of these technologies.1,2 The slow pace can be warranted, given that health care is more complicated and higher risk than inquiring about a lost package, ordering groceries, or applying for a mortgage. At the same time, many of the consumer engagement tools used to guide an applicant through the multiple steps and complexities of their home loan process or to prompt viewers to select new shows to binge have applications in health care.
Over the past few years, technologies have emerged that guide patients through complex care journeys and allow care teams to monitor and engage patients between visits. These solutions come in different formats, but generally patients can receive messages on their phones that contain disease-specific educational content, prompts to fill prescriptions and take medications, and reminders and guidance on how to prepare for appointments and procedures. These programs also collect relevant data from patients through survey and electronic patient-reported outcomes instruments, as well as connected patient monitoring devices, that help track patient progress and identify issues as they arise. Many programs also incorporate symptom triage pathways and use natural language processing to respond automatically to patient questions and concerns.3,4
These technology solutions can automate many tasks that in the past required a care team member to spend hours on the phone. Newly freed from such repetitive tasks, care teams can now focus on more in-depth interactions with those patients who are most in need—the types of interactions that are more satisfying and rewarding. Such assistance is particularly needed today with the staffing shortages faced by most health systems.5
In addition, technology allows teams to see the panel of patients they are caring for and to quickly identify and take action on any specific needs or issues. Care teams can focus on any patient and see where they are in their journey. When appropriate, some solutions also allow care teams to engage directly with patients through text-messaging, creating a seamless experience and unified communication channel. Ideally, these solutions should be linked or embedded within the electronic health record or other primary system of record, so that teams can easily access these tools through their existing workflows and avoid creating yet another interface to navigate.
The Impact of Low-Tech Solutions to Deliver High-Touch Support
There is evidence showing that digital patient navigation tools impact patient care. In the oncology setting, patients with a digital navigator have achieved over 95% adherence rates with complex oral chemotherapy regimens (Memora Health Unpublished Data. 2022.). In the postpartum setting, a text message–based program improved screening rates for postpartum depression and did so with very high patient satisfaction ratings.6 Particularly notable is the fact that this depression screening program achieved these results in a population that was predominantly low income, with more than half belonging to underrepresented minority populations.6
We believe these digital patient navigation technologies, specifically low-tech solutions that don’t require app downloads, portal log-ins, or high-speed internet, will transform care delivery over the next 5 to 10 years. Successful management of complex conditions like diabetes or cancer requires more than 3 hours of care each day,7 yet most patients spend only 1 or 2 hours per month directly interacting with their health care providers. However, most patients carry their phones with them at all times, and artificial intelligence–enabled text support is “always on” to provide support, monitoring, and guidance, wherever a patient happens to be when assistance is needed.
Shifting the Model to Support a Lifetime of Care
While still in the early stages of development, these tools have the potential to radically alter the practice of medicine, shifting the focus from episodic interactions to continuous journey-based care delivery. Outside of an acute event bringing a patient into the clinic or emergency room, many patients go a year or more without seeing their primary care providers.8 During that time, an immense amount of information is underreported or completely lost. Capturing this information in real-time and more holistically over a person’s lifetime of care could provide physicians better insight to both better manage and more fully evaluate the success of treatment plans by tracking patient symptoms, pain, and functional status over time. With this more longitudinal view of the patient, we see a pathway towards achieving the Quadruple Aim: patients who are more supported will achieve better outcomes at lower cost, they will have a better experience, and care teams will be empowered to focus their time on more satisfying activities rather than repetitive administrative tasks.
Corresponding author: James A. Colbert, MD, MBA; jamie@memorahealth.com
Disclosures: Dr. Flyckt and Dr. Colbert are employed by Memora Health, an organization that helps health care systems digitize and automate care journeys.
From Memora Health (Dr. Flyckt and Dr. Colbert), San Francisco, CA; and Harvard Medical School (Dr. Colbert), Boston, MA.
A close relative was recently diagnosed with follicular lymphoma. He was cared for at a high-ranked cancer center by physicians with demonstrated expertise, and even had the support of a care navigator. Still, he was often left feeling overwhelmed and confused, holding an inch-thick stack of papers, instructions, and pamphlets. As he left his treatment planning visit, reeling from the emotional burden of his diagnosis and all the unfamiliar terminology, he didn’t know what to do or what to expect. Later, when he experienced early signs of tumor lysis syndrome, he struggled to reach his care team for triage and guidance. When he went to the emergency room, his oncologist was never informed.
This scenario is unfortunately common, and versions of this scenario play out thousands of times each day across the US health system. Within the clinic and hospital setting, patients receive excellent care from their providers, but a disconnect emerges once the patient leaves these medical settings: patients at home struggle to find guidance and support, while care teams lack the tools to engage patients between visits or monitor their health across care settings, providers, or episodes of care.
Leveraging Technology to Move From Episodes of Care to Complex Care Journeys
The use of automated messaging, artificial intelligence and natural language processing–driven chat experiences, and text-based support is becoming more common. However, health care lags behind other industries in the adoption of these technologies.1,2 The slow pace can be warranted, given that health care is more complicated and higher risk than inquiring about a lost package, ordering groceries, or applying for a mortgage. At the same time, many of the consumer engagement tools used to guide an applicant through the multiple steps and complexities of their home loan process or to prompt viewers to select new shows to binge have applications in health care.
Over the past few years, technologies have emerged that guide patients through complex care journeys and allow care teams to monitor and engage patients between visits. These solutions come in different formats, but generally patients can receive messages on their phones that contain disease-specific educational content, prompts to fill prescriptions and take medications, and reminders and guidance on how to prepare for appointments and procedures. These programs also collect relevant data from patients through survey and electronic patient-reported outcomes instruments, as well as connected patient monitoring devices, that help track patient progress and identify issues as they arise. Many programs also incorporate symptom triage pathways and use natural language processing to respond automatically to patient questions and concerns.3,4
These technology solutions can automate many tasks that in the past required a care team member to spend hours on the phone. Newly freed from such repetitive tasks, care teams can now focus on more in-depth interactions with those patients who are most in need—the types of interactions that are more satisfying and rewarding. Such assistance is particularly needed today with the staffing shortages faced by most health systems.5
In addition, technology allows teams to see the panel of patients they are caring for and to quickly identify and take action on any specific needs or issues. Care teams can focus on any patient and see where they are in their journey. When appropriate, some solutions also allow care teams to engage directly with patients through text-messaging, creating a seamless experience and unified communication channel. Ideally, these solutions should be linked or embedded within the electronic health record or other primary system of record, so that teams can easily access these tools through their existing workflows and avoid creating yet another interface to navigate.
The Impact of Low-Tech Solutions to Deliver High-Touch Support
There is evidence showing that digital patient navigation tools impact patient care. In the oncology setting, patients with a digital navigator have achieved over 95% adherence rates with complex oral chemotherapy regimens (Memora Health Unpublished Data. 2022.). In the postpartum setting, a text message–based program improved screening rates for postpartum depression and did so with very high patient satisfaction ratings.6 Particularly notable is the fact that this depression screening program achieved these results in a population that was predominantly low income, with more than half belonging to underrepresented minority populations.6
We believe these digital patient navigation technologies, specifically low-tech solutions that don’t require app downloads, portal log-ins, or high-speed internet, will transform care delivery over the next 5 to 10 years. Successful management of complex conditions like diabetes or cancer requires more than 3 hours of care each day,7 yet most patients spend only 1 or 2 hours per month directly interacting with their health care providers. However, most patients carry their phones with them at all times, and artificial intelligence–enabled text support is “always on” to provide support, monitoring, and guidance, wherever a patient happens to be when assistance is needed.
Shifting the Model to Support a Lifetime of Care
While still in the early stages of development, these tools have the potential to radically alter the practice of medicine, shifting the focus from episodic interactions to continuous journey-based care delivery. Outside of an acute event bringing a patient into the clinic or emergency room, many patients go a year or more without seeing their primary care providers.8 During that time, an immense amount of information is underreported or completely lost. Capturing this information in real-time and more holistically over a person’s lifetime of care could provide physicians better insight to both better manage and more fully evaluate the success of treatment plans by tracking patient symptoms, pain, and functional status over time. With this more longitudinal view of the patient, we see a pathway towards achieving the Quadruple Aim: patients who are more supported will achieve better outcomes at lower cost, they will have a better experience, and care teams will be empowered to focus their time on more satisfying activities rather than repetitive administrative tasks.
Corresponding author: James A. Colbert, MD, MBA; jamie@memorahealth.com
Disclosures: Dr. Flyckt and Dr. Colbert are employed by Memora Health, an organization that helps health care systems digitize and automate care journeys.
1. Hermes S, Riasanow T, Clemons EK, et al. The digital transformation of the healthcare industry: exploring the rise of emerging platform ecosystems and their influence on the role of patients. Bus Res. 2020;13:1033-1069. doi:10.1007/s40685-020-00125-x
2. Van Velthoven MH, Cordon C. Sustainable adoption of digital health innovations: perspectives from a stakeholder workshop. J Med Internet Res. 2019;21(3):e11922. doi:10.2196/11922
3. Campbell K, Louie P, Levine B, Gililland J. Using patient engagement platforms in the postoperative management of patients. Curr Rev Musculoskelet Med. 2020;13(4):479-484. doi:10.1007/s12178-020-09638-8
4. Xu L, Sanders L, Li K, Chow JCL. Chatbot for health care and oncology applications using artificial intelligence and machine learning: systematic review. JMIR Cancer. 2021;7(4):e27850. doi:10.2196/27850
5. Data brief: health care workforce challenges threaten hospitals’ ability to care for patients. American Hospital Association. Accessed July 24, 2022. www.aha.org/fact-sheets/2021-11-01-data-brief-health-care-workforce-challenges-threaten-hospitals-ability-care
6. Gaulton JS, Leitner K, Hahn L, et al. Healing at home: applying innovation principles to redesign and optimise postpartum care. BMJ Innovations. 2022;8:37-41.
7. Østbye T, Yarnall KS, Krause KM, et al. Is there time for management of patients with chronic diseases in primary care? Ann Fam Med. 2005;3(3):209-214. doi:10.1370/afm.310
8. Ganguli I, Shi Z, E. Orav J, et al. Declining use of primary care among commercially insured adults in the united states, 2008–2016. Ann Intern Med. 2020;172:240-247. doi:10.7326/M19-1834
1. Hermes S, Riasanow T, Clemons EK, et al. The digital transformation of the healthcare industry: exploring the rise of emerging platform ecosystems and their influence on the role of patients. Bus Res. 2020;13:1033-1069. doi:10.1007/s40685-020-00125-x
2. Van Velthoven MH, Cordon C. Sustainable adoption of digital health innovations: perspectives from a stakeholder workshop. J Med Internet Res. 2019;21(3):e11922. doi:10.2196/11922
3. Campbell K, Louie P, Levine B, Gililland J. Using patient engagement platforms in the postoperative management of patients. Curr Rev Musculoskelet Med. 2020;13(4):479-484. doi:10.1007/s12178-020-09638-8
4. Xu L, Sanders L, Li K, Chow JCL. Chatbot for health care and oncology applications using artificial intelligence and machine learning: systematic review. JMIR Cancer. 2021;7(4):e27850. doi:10.2196/27850
5. Data brief: health care workforce challenges threaten hospitals’ ability to care for patients. American Hospital Association. Accessed July 24, 2022. www.aha.org/fact-sheets/2021-11-01-data-brief-health-care-workforce-challenges-threaten-hospitals-ability-care
6. Gaulton JS, Leitner K, Hahn L, et al. Healing at home: applying innovation principles to redesign and optimise postpartum care. BMJ Innovations. 2022;8:37-41.
7. Østbye T, Yarnall KS, Krause KM, et al. Is there time for management of patients with chronic diseases in primary care? Ann Fam Med. 2005;3(3):209-214. doi:10.1370/afm.310
8. Ganguli I, Shi Z, E. Orav J, et al. Declining use of primary care among commercially insured adults in the united states, 2008–2016. Ann Intern Med. 2020;172:240-247. doi:10.7326/M19-1834
FDA approves belimumab for children with lupus nephritis
The Food and Drug Administration has approved belimumab (Benlysta) for treating active lupus nephritis (LN) in children aged 5-17 years. The drug can now be used to treat adult and pediatric patients with systemic lupus erythematosus (SLE) and LN. The decision expands therapeutic options for the estimated 1.5 million Americans currently living with lupus.
“This approval marks a significant step forward in providing treatment options to these children at risk of incurring kidney damage early on in life,” Stevan W. Gibson, president and CEO of the Lupus Foundation of America, said in a press release issued by the manufacturer, GlaxoSmithKline. LN is a condition that sometimes develops in people with lupus. In LN, the autoimmune cells produced by the disease attack the kidney. Roughly 40% of people with SLE experience LN.
Damage to the kidneys causes the body to have difficulty processing waste and toxins. This can create a host of problems, including end-stage kidney disease, which may be treated only with dialysis or kidney transplant. These situations significantly increase mortality among people with lupus, especially children.
Prior to the approval, the only treatment pathway for children with active LN included immunosuppressants and corticosteroids. While they may be effective, use of these classes of drugs may come with many side effects, including susceptibility to other diseases and infections. Belimumab, by contrast, is a B-lymphocyte stimulator protein inhibitor. It inhibits the survival of B cells, which are thought to play a role in the disease’s pathophysiology.
Belimumab was first approved to treat patients with SLE in 2011. It was approved for children with SLE 8 years later. The drug’s indications were expanded to include adults with LN in 2020.
Organizations within the lupus research community have communicated their support of the FDA’s decision. “Our community has much to celebrate with the approval of the first and much-needed treatment for children with lupus nephritis,” Lupus Research Alliance President and CEO Kenneth M. Farber said in a release from the organization.
A version of this article first appeared on Medscape.com.
The Food and Drug Administration has approved belimumab (Benlysta) for treating active lupus nephritis (LN) in children aged 5-17 years. The drug can now be used to treat adult and pediatric patients with systemic lupus erythematosus (SLE) and LN. The decision expands therapeutic options for the estimated 1.5 million Americans currently living with lupus.
“This approval marks a significant step forward in providing treatment options to these children at risk of incurring kidney damage early on in life,” Stevan W. Gibson, president and CEO of the Lupus Foundation of America, said in a press release issued by the manufacturer, GlaxoSmithKline. LN is a condition that sometimes develops in people with lupus. In LN, the autoimmune cells produced by the disease attack the kidney. Roughly 40% of people with SLE experience LN.
Damage to the kidneys causes the body to have difficulty processing waste and toxins. This can create a host of problems, including end-stage kidney disease, which may be treated only with dialysis or kidney transplant. These situations significantly increase mortality among people with lupus, especially children.
Prior to the approval, the only treatment pathway for children with active LN included immunosuppressants and corticosteroids. While they may be effective, use of these classes of drugs may come with many side effects, including susceptibility to other diseases and infections. Belimumab, by contrast, is a B-lymphocyte stimulator protein inhibitor. It inhibits the survival of B cells, which are thought to play a role in the disease’s pathophysiology.
Belimumab was first approved to treat patients with SLE in 2011. It was approved for children with SLE 8 years later. The drug’s indications were expanded to include adults with LN in 2020.
Organizations within the lupus research community have communicated their support of the FDA’s decision. “Our community has much to celebrate with the approval of the first and much-needed treatment for children with lupus nephritis,” Lupus Research Alliance President and CEO Kenneth M. Farber said in a release from the organization.
A version of this article first appeared on Medscape.com.
The Food and Drug Administration has approved belimumab (Benlysta) for treating active lupus nephritis (LN) in children aged 5-17 years. The drug can now be used to treat adult and pediatric patients with systemic lupus erythematosus (SLE) and LN. The decision expands therapeutic options for the estimated 1.5 million Americans currently living with lupus.
“This approval marks a significant step forward in providing treatment options to these children at risk of incurring kidney damage early on in life,” Stevan W. Gibson, president and CEO of the Lupus Foundation of America, said in a press release issued by the manufacturer, GlaxoSmithKline. LN is a condition that sometimes develops in people with lupus. In LN, the autoimmune cells produced by the disease attack the kidney. Roughly 40% of people with SLE experience LN.
Damage to the kidneys causes the body to have difficulty processing waste and toxins. This can create a host of problems, including end-stage kidney disease, which may be treated only with dialysis or kidney transplant. These situations significantly increase mortality among people with lupus, especially children.
Prior to the approval, the only treatment pathway for children with active LN included immunosuppressants and corticosteroids. While they may be effective, use of these classes of drugs may come with many side effects, including susceptibility to other diseases and infections. Belimumab, by contrast, is a B-lymphocyte stimulator protein inhibitor. It inhibits the survival of B cells, which are thought to play a role in the disease’s pathophysiology.
Belimumab was first approved to treat patients with SLE in 2011. It was approved for children with SLE 8 years later. The drug’s indications were expanded to include adults with LN in 2020.
Organizations within the lupus research community have communicated their support of the FDA’s decision. “Our community has much to celebrate with the approval of the first and much-needed treatment for children with lupus nephritis,” Lupus Research Alliance President and CEO Kenneth M. Farber said in a release from the organization.
A version of this article first appeared on Medscape.com.
Rosuvastatin again linked with risks to kidneys
Rosuvastatin for cholesterol lowering was associated with slightly greater risks for kidney harm than atorvastatin, risks that were greater at higher-dose levels, in a large retrospective cohort study.
The most potent statin on the market, rosuvastatin has been linked with excess risk for kidney damage compared with atorvastatin in case reports and small trials, but there has been little surveillance of the issue following its approval in 2003.
The current analysis “is one of the first and largest real-world studies” examining rosuvastatin versus atorvastatin for risk for hematuria, proteinuria, and kidney failure with replacement therapy – dialysis or transplantation – across a range of estimated glomerular filtration rates (eGFR) in a heterogeneous population, the researchers write.
“Our findings suggest the need for greater care in prescribing and monitoring of rosuvastatin, particularly in patients who are receiving high doses” or have severe chronic kidney disease (CKD), they concluded in their report published online in the Journal of the American Society of Nephrology.
The analysis included close to 1 million patients in the United States who were newly prescribed rosuvastatin or atorvastatin from 2011 through 2019; they were followed a median of 3.1 years. Among the findings:
- Users of rosuvastatin had an 8% higher risk for hematuria, a 17% higher risk for proteinuria, and a 15% higher risk for kidney failure with replacement therapy, compared with those on atorvastatin
- The two groups avoided MI and stroke to similar extents
- About 44% of patients with severe CKD G4+ (eGFR < 30 mL/min per 1.73 m2) were prescribed a higher rosuvastatin dosage than the maximum 10 mg/day recommended for such patients by the Food and Drug Administration.
From this study, “we do not know why the adherence of FDA dosing recommendation for rosuvastatin in patients with severe CKD is low,” lead author Jung-Im Shin, MD, PhD, said in an interview.
“It is likely that not many clinicians are aware of rosuvastatin’s dosing recommendations [in severe CKD], or potential risks of hematuria or proteinuria,” speculated Dr. Shin, assistant professor at Johns Hopkins University, Baltimore.
“High-dose rosuvastatin [and its cardiovascular benefits] may not merit the risk, even if small, particularly in low eGFR,” she said. “Our study provides the opportunity to increase awareness of this clinical issue.”
“Future studies are warranted to shed light on the discrepancy between real-world practice and FDA dosing recommendations for high-dose rosuvastatin,” the researchers noted.
‘Greater awareness and education are key’
Invited to comment, Swapnil Hiremath, MD, a nephrologist at the Ottawa Hospital Research Institute, noted that the higher risk for nephrotoxicity with high-dose rosuvastatin versus high-dose atorvastatin was shown in the PLANET 1 trial published in 2015 and in, for example, a case report published in 2016 – which the researchers also mention.
“I was personally surprised” at the high proportion of patients with severe CKD who received higher than recommended doses of rosuvastatin, said Dr. Hiremath, who is also an associate professor at the University of Ottawa and a Freely Filtered podcaster, and not associated with the current study.
“We do see this occasionally,” he continued, “but either because someone is targeting LDL [cholesterol] and hasn’t noted the GFR, or possibly the patient was started on a high dose a long time ago and the kidney function has declined, and no one has noted the high dose.”
“Greater awareness and education are key,” observed Dr. Hiremath. “My personal bias is to have renal pharmacists involved in multidisciplinary clinics when GFR [is] less than 30 or so,” he said. “There are so many other tricky medicine/interaction issues” in patients with kidney disease.
Nevertheless, “I would be careful in drawing too many conclusions from an observational study,” Dr. Hiremath added. “There’s always the threat of residual confounding and selection bias,” which the researchers acknowledge, “and especially competing risks.”
For example, “if there is less cardiovascular death with rosuvastatin, then more people will remain alive to develop kidney failure.”
Dosing in practice unclear
Atorvastatin at 40-mg and 80-mg dosages and rosuvastatin at 20 mg and 40 mg are the only two statins considered high-intensity, the researchers noted.
Development of an 80-mg dosage for rosuvastatin was dropped because of hematuria and proteinuria safety signals highlighted at the time of rosuvastatin’s FDA approval.
However, there has been little postmarketing surveillance to assess real-world risk from high-intensity rosuvastatin, and it remains unclear whether and to what extent clinical practice adheres to the starting dosage recommended by the FDA in severe CKD, 5 mg/day with a maximum of 10 mg/day, the report noted.
The researchers analyzed deidentified electronic health record data from 40 health care organizations in the United States from the OptumLabs Data Warehouse database. They entered 152,101 new rosuvastatin users and 795,799 new atorvastatin users, and excluded patients with a history of rhabdomyolysis.
Patients in the two groups were similar with respect to CKD prevalence, cardiovascular risk factors, and demographics. Their age averaged 60 years, 48% were women, and 82% were White.
Hematuria was defined as dipstick hematuria > + or the presence of more than 3 red blood cells per high-power field in urine microscopy, at least twice. Proteinuria was defined as dipstick proteinuria > ++ or urine albumin-to-creatinine ratio greater than 300 mg/g at least twice.
Overall, 2.9% of patients had hematuria (3.4% of the rosuvastatin group and 2.8% of those taking atorvastatin) and 1% of patients had proteinuria (1.2% and 0.9%, respectively).
After balancing baseline characteristics in both groups using inverse probability of treatment weighting, rosuvastatin treatment, compared with atorvastatin, was associated with significantly greater risks for hematuria (hazard ratio, 1.08), proteinuria (HR, 1.17), and kidney failure requiring replacement therapy (HR, 1.15).
Patients with eGFR less than 30 mL/min per 1.73 m2 had an approximately twofold higher risk for hematuria and ninefold higher risk for proteinuria during the follow-up compared with patients with eGFR of at least 60 mL/min per 1.73 m2.
Patients with eGFR less than 30 mL/min per 1.73 m2 were commonly prescribed high-dose rosuvastatin (29.9% received the 20-mg dose and 14% the 40-mg dose), contrary to the labeling recommendation.
Dr. Shin reported receiving research Funding from the National Institutes of Health and Merck; disclosures for the other authors are in the report. Dr. Hiremath reported having no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Rosuvastatin for cholesterol lowering was associated with slightly greater risks for kidney harm than atorvastatin, risks that were greater at higher-dose levels, in a large retrospective cohort study.
The most potent statin on the market, rosuvastatin has been linked with excess risk for kidney damage compared with atorvastatin in case reports and small trials, but there has been little surveillance of the issue following its approval in 2003.
The current analysis “is one of the first and largest real-world studies” examining rosuvastatin versus atorvastatin for risk for hematuria, proteinuria, and kidney failure with replacement therapy – dialysis or transplantation – across a range of estimated glomerular filtration rates (eGFR) in a heterogeneous population, the researchers write.
“Our findings suggest the need for greater care in prescribing and monitoring of rosuvastatin, particularly in patients who are receiving high doses” or have severe chronic kidney disease (CKD), they concluded in their report published online in the Journal of the American Society of Nephrology.
The analysis included close to 1 million patients in the United States who were newly prescribed rosuvastatin or atorvastatin from 2011 through 2019; they were followed a median of 3.1 years. Among the findings:
- Users of rosuvastatin had an 8% higher risk for hematuria, a 17% higher risk for proteinuria, and a 15% higher risk for kidney failure with replacement therapy, compared with those on atorvastatin
- The two groups avoided MI and stroke to similar extents
- About 44% of patients with severe CKD G4+ (eGFR < 30 mL/min per 1.73 m2) were prescribed a higher rosuvastatin dosage than the maximum 10 mg/day recommended for such patients by the Food and Drug Administration.
From this study, “we do not know why the adherence of FDA dosing recommendation for rosuvastatin in patients with severe CKD is low,” lead author Jung-Im Shin, MD, PhD, said in an interview.
“It is likely that not many clinicians are aware of rosuvastatin’s dosing recommendations [in severe CKD], or potential risks of hematuria or proteinuria,” speculated Dr. Shin, assistant professor at Johns Hopkins University, Baltimore.
“High-dose rosuvastatin [and its cardiovascular benefits] may not merit the risk, even if small, particularly in low eGFR,” she said. “Our study provides the opportunity to increase awareness of this clinical issue.”
“Future studies are warranted to shed light on the discrepancy between real-world practice and FDA dosing recommendations for high-dose rosuvastatin,” the researchers noted.
‘Greater awareness and education are key’
Invited to comment, Swapnil Hiremath, MD, a nephrologist at the Ottawa Hospital Research Institute, noted that the higher risk for nephrotoxicity with high-dose rosuvastatin versus high-dose atorvastatin was shown in the PLANET 1 trial published in 2015 and in, for example, a case report published in 2016 – which the researchers also mention.
“I was personally surprised” at the high proportion of patients with severe CKD who received higher than recommended doses of rosuvastatin, said Dr. Hiremath, who is also an associate professor at the University of Ottawa and a Freely Filtered podcaster, and not associated with the current study.
“We do see this occasionally,” he continued, “but either because someone is targeting LDL [cholesterol] and hasn’t noted the GFR, or possibly the patient was started on a high dose a long time ago and the kidney function has declined, and no one has noted the high dose.”
“Greater awareness and education are key,” observed Dr. Hiremath. “My personal bias is to have renal pharmacists involved in multidisciplinary clinics when GFR [is] less than 30 or so,” he said. “There are so many other tricky medicine/interaction issues” in patients with kidney disease.
Nevertheless, “I would be careful in drawing too many conclusions from an observational study,” Dr. Hiremath added. “There’s always the threat of residual confounding and selection bias,” which the researchers acknowledge, “and especially competing risks.”
For example, “if there is less cardiovascular death with rosuvastatin, then more people will remain alive to develop kidney failure.”
Dosing in practice unclear
Atorvastatin at 40-mg and 80-mg dosages and rosuvastatin at 20 mg and 40 mg are the only two statins considered high-intensity, the researchers noted.
Development of an 80-mg dosage for rosuvastatin was dropped because of hematuria and proteinuria safety signals highlighted at the time of rosuvastatin’s FDA approval.
However, there has been little postmarketing surveillance to assess real-world risk from high-intensity rosuvastatin, and it remains unclear whether and to what extent clinical practice adheres to the starting dosage recommended by the FDA in severe CKD, 5 mg/day with a maximum of 10 mg/day, the report noted.
The researchers analyzed deidentified electronic health record data from 40 health care organizations in the United States from the OptumLabs Data Warehouse database. They entered 152,101 new rosuvastatin users and 795,799 new atorvastatin users, and excluded patients with a history of rhabdomyolysis.
Patients in the two groups were similar with respect to CKD prevalence, cardiovascular risk factors, and demographics. Their age averaged 60 years, 48% were women, and 82% were White.
Hematuria was defined as dipstick hematuria > + or the presence of more than 3 red blood cells per high-power field in urine microscopy, at least twice. Proteinuria was defined as dipstick proteinuria > ++ or urine albumin-to-creatinine ratio greater than 300 mg/g at least twice.
Overall, 2.9% of patients had hematuria (3.4% of the rosuvastatin group and 2.8% of those taking atorvastatin) and 1% of patients had proteinuria (1.2% and 0.9%, respectively).
After balancing baseline characteristics in both groups using inverse probability of treatment weighting, rosuvastatin treatment, compared with atorvastatin, was associated with significantly greater risks for hematuria (hazard ratio, 1.08), proteinuria (HR, 1.17), and kidney failure requiring replacement therapy (HR, 1.15).
Patients with eGFR less than 30 mL/min per 1.73 m2 had an approximately twofold higher risk for hematuria and ninefold higher risk for proteinuria during the follow-up compared with patients with eGFR of at least 60 mL/min per 1.73 m2.
Patients with eGFR less than 30 mL/min per 1.73 m2 were commonly prescribed high-dose rosuvastatin (29.9% received the 20-mg dose and 14% the 40-mg dose), contrary to the labeling recommendation.
Dr. Shin reported receiving research Funding from the National Institutes of Health and Merck; disclosures for the other authors are in the report. Dr. Hiremath reported having no relevant financial relationships.
A version of this article first appeared on Medscape.com.
Rosuvastatin for cholesterol lowering was associated with slightly greater risks for kidney harm than atorvastatin, risks that were greater at higher-dose levels, in a large retrospective cohort study.
The most potent statin on the market, rosuvastatin has been linked with excess risk for kidney damage compared with atorvastatin in case reports and small trials, but there has been little surveillance of the issue following its approval in 2003.
The current analysis “is one of the first and largest real-world studies” examining rosuvastatin versus atorvastatin for risk for hematuria, proteinuria, and kidney failure with replacement therapy – dialysis or transplantation – across a range of estimated glomerular filtration rates (eGFR) in a heterogeneous population, the researchers write.
“Our findings suggest the need for greater care in prescribing and monitoring of rosuvastatin, particularly in patients who are receiving high doses” or have severe chronic kidney disease (CKD), they concluded in their report published online in the Journal of the American Society of Nephrology.
The analysis included close to 1 million patients in the United States who were newly prescribed rosuvastatin or atorvastatin from 2011 through 2019; they were followed a median of 3.1 years. Among the findings:
- Users of rosuvastatin had an 8% higher risk for hematuria, a 17% higher risk for proteinuria, and a 15% higher risk for kidney failure with replacement therapy, compared with those on atorvastatin
- The two groups avoided MI and stroke to similar extents
- About 44% of patients with severe CKD G4+ (eGFR < 30 mL/min per 1.73 m2) were prescribed a higher rosuvastatin dosage than the maximum 10 mg/day recommended for such patients by the Food and Drug Administration.
From this study, “we do not know why the adherence of FDA dosing recommendation for rosuvastatin in patients with severe CKD is low,” lead author Jung-Im Shin, MD, PhD, said in an interview.
“It is likely that not many clinicians are aware of rosuvastatin’s dosing recommendations [in severe CKD], or potential risks of hematuria or proteinuria,” speculated Dr. Shin, assistant professor at Johns Hopkins University, Baltimore.
“High-dose rosuvastatin [and its cardiovascular benefits] may not merit the risk, even if small, particularly in low eGFR,” she said. “Our study provides the opportunity to increase awareness of this clinical issue.”
“Future studies are warranted to shed light on the discrepancy between real-world practice and FDA dosing recommendations for high-dose rosuvastatin,” the researchers noted.
‘Greater awareness and education are key’
Invited to comment, Swapnil Hiremath, MD, a nephrologist at the Ottawa Hospital Research Institute, noted that the higher risk for nephrotoxicity with high-dose rosuvastatin versus high-dose atorvastatin was shown in the PLANET 1 trial published in 2015 and in, for example, a case report published in 2016 – which the researchers also mention.
“I was personally surprised” at the high proportion of patients with severe CKD who received higher than recommended doses of rosuvastatin, said Dr. Hiremath, who is also an associate professor at the University of Ottawa and a Freely Filtered podcaster, and not associated with the current study.
“We do see this occasionally,” he continued, “but either because someone is targeting LDL [cholesterol] and hasn’t noted the GFR, or possibly the patient was started on a high dose a long time ago and the kidney function has declined, and no one has noted the high dose.”
“Greater awareness and education are key,” observed Dr. Hiremath. “My personal bias is to have renal pharmacists involved in multidisciplinary clinics when GFR [is] less than 30 or so,” he said. “There are so many other tricky medicine/interaction issues” in patients with kidney disease.
Nevertheless, “I would be careful in drawing too many conclusions from an observational study,” Dr. Hiremath added. “There’s always the threat of residual confounding and selection bias,” which the researchers acknowledge, “and especially competing risks.”
For example, “if there is less cardiovascular death with rosuvastatin, then more people will remain alive to develop kidney failure.”
Dosing in practice unclear
Atorvastatin at 40-mg and 80-mg dosages and rosuvastatin at 20 mg and 40 mg are the only two statins considered high-intensity, the researchers noted.
Development of an 80-mg dosage for rosuvastatin was dropped because of hematuria and proteinuria safety signals highlighted at the time of rosuvastatin’s FDA approval.
However, there has been little postmarketing surveillance to assess real-world risk from high-intensity rosuvastatin, and it remains unclear whether and to what extent clinical practice adheres to the starting dosage recommended by the FDA in severe CKD, 5 mg/day with a maximum of 10 mg/day, the report noted.
The researchers analyzed deidentified electronic health record data from 40 health care organizations in the United States from the OptumLabs Data Warehouse database. They entered 152,101 new rosuvastatin users and 795,799 new atorvastatin users, and excluded patients with a history of rhabdomyolysis.
Patients in the two groups were similar with respect to CKD prevalence, cardiovascular risk factors, and demographics. Their age averaged 60 years, 48% were women, and 82% were White.
Hematuria was defined as dipstick hematuria > + or the presence of more than 3 red blood cells per high-power field in urine microscopy, at least twice. Proteinuria was defined as dipstick proteinuria > ++ or urine albumin-to-creatinine ratio greater than 300 mg/g at least twice.
Overall, 2.9% of patients had hematuria (3.4% of the rosuvastatin group and 2.8% of those taking atorvastatin) and 1% of patients had proteinuria (1.2% and 0.9%, respectively).
After balancing baseline characteristics in both groups using inverse probability of treatment weighting, rosuvastatin treatment, compared with atorvastatin, was associated with significantly greater risks for hematuria (hazard ratio, 1.08), proteinuria (HR, 1.17), and kidney failure requiring replacement therapy (HR, 1.15).
Patients with eGFR less than 30 mL/min per 1.73 m2 had an approximately twofold higher risk for hematuria and ninefold higher risk for proteinuria during the follow-up compared with patients with eGFR of at least 60 mL/min per 1.73 m2.
Patients with eGFR less than 30 mL/min per 1.73 m2 were commonly prescribed high-dose rosuvastatin (29.9% received the 20-mg dose and 14% the 40-mg dose), contrary to the labeling recommendation.
Dr. Shin reported receiving research Funding from the National Institutes of Health and Merck; disclosures for the other authors are in the report. Dr. Hiremath reported having no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM THE JOURNAL OF THE AMERICAN SOCIETY OF NEPHROLOGY
Could a type 2 diabetes drug tackle kidney stones?
than patients who received placebo during a median 1.5 years of treatment.
These findings are from an analysis of pooled data from phase 1-4 clinical trials of empagliflozin for blood glucose control in 15,081 patients with type 2 diabetes.
Priyadarshini Balasubramanian, MD, presented the study as a poster at the annual meeting of the Endocrine Society; the study also was published online in the Journal of Clinical Endocrinology & Metabolism.
The researchers acknowledge this was a retrospective, post-hoc analysis and that urolithiasis – a stone in the urinary tract, which includes nephrolithiasis, a kidney stone – was an adverse event, not a primary or secondary outcome.
Also, the stone composition, which might help explain how the drug may affect stone formation, is unknown.
Therefore, “dedicated randomized prospective clinical trials are needed to confirm these initial observations in patients both with and without type 2 diabetes,” said Dr. Balasubramanian, a clinical fellow in the section of endocrinology & metabolism, department of internal medicine at Yale University, New Haven, Conn.
However, “if this association is proven, empagliflozin may be used to decrease the risk of kidney stones at least in those with type 2 diabetes, but maybe also in those without diabetes,” Dr. Balasubramanian said in an interview.
Further trials are also needed to determine if this is a class effect, which is likely, she speculated, and to unravel the potential mechanism.
This is important because of the prevalence of kidney stones, which affect up to 15% of the general population and 15%-20% of patients with diabetes, she explained.
‘Provocative’ earlier findings
The current study was prompted by a recent observational study by Kasper B. Kristensen, MD, PhD, and colleagues.
Because SGLT2 inhibitors increase urinary glucose excretion through reduced renal reabsorption of glucose leading to osmotic diuresis and increased urinary flow, they hypothesized that these therapies “may reduce the risk of upper urinary tract stones (nephrolithiasis) by reducing the concentration of lithogenic substances in urine.”
Using data from Danish Health registries, they matched 12,325 individuals newly prescribed an SGLT2 inhibitor 1:1 with patients newly prescribed a glucagonlike peptide-1 (GLP1) agonist, another new class of drugs for treating type 2 diabetes.
They found a hazard ratio of 0.51 (95% confidence interval, 0.37-0.71) for incident nephrolithiasis and a hazard ratio of 0.68 (95% CI, 0.48-0.97) for recurrent nephrolithiasis for patients taking SGLT2 inhibitors versus GLP-1 agonists.
These findings are “striking,” according to Dr. Balasubramanian and colleagues. However, “these data, while provocative, were entirely retrospective and therefore possibly prone to bias,” they add.
Pooled data from 20 trials
The current study analyzed data from 20 randomized controlled trials of glycemic control in type 2 diabetes, in which 10,177 patients had received empagliflozin 10 mg or 25 mg and 4,904 patients had received placebo.
Most patients (46.5%) had participated in the EMPA-REG OUTCOMES trial, which also had the longest follow-up (2.6 years).
The researchers identified patients with a new stone from the urinary tract (including the kidney, ureter, and urethra). Patients had received either the study drug for a median of 543 days or placebo for a median of 549 days.
During treatment, 104 of 10,177 patients in the pooled empagliflozin groups and 79 of 4,904 patients in the pooled placebo groups developed a stone in the urinary tract.
This was equivalent to 0.63 new urinary-tract stones per 100 patient-years in the pooled empagliflozin groups versus 1.01 new urinary-tract stones per 100 patient-years in the pooled placebo groups.
The incidence rate ratio was 0.64 (95% CI, 0.48-0.86), in favor of empagliflozin.
When the analysis was restricted to new kidney stones, the results were similar: 75 of 10,177 patients in the pooled empagliflozin groups and 57 of 4,904 patients in the pooled placebo groups developed a kidney stone.
This was equivalent to 0.45 new kidney stones per 100 patient-years in the pooled empagliflozin groups versus 0.72 new kidney stones per 100 patient-years in the pooled placebo groups.
The IRR was 0.65 (95% CI, 0.46-0.92), in favor of empagliflozin.
Upcoming small RCT in adults without diabetes
Invited to comment on the new study, Dr. Kristensen said: “The reduced risk of SGLT2 inhibitors towards nephrolithiasis is now reported in at least two studies with different methodology, different populations, and different exposure and outcome definitions.”
“I agree that randomized clinical trials designed specifically to confirm these findings appear warranted,” added Dr. Kristensen, from the Institute of Public Health, Clinical Pharmacology, Pharmacy, and Environmental Medicine, University of Southern Denmark in Odense.
There is a need for studies in patients with and without diabetes, he added, especially ones that focus on prevention of nephrolithiasis in patients with kidney stone disease.
A new trial should shed further light on this.
Results are expected by the end of 2022 for SWEETSTONE (Impact of the SGLT2 Inhibitor Empagliflozin on Urinary Supersaturations in Kidney Stone Formers), a randomized, double-blind crossover exploratory study in 46 patients without diabetes.
This should provide preliminary data to “establish the relevance for larger trials assessing the prophylactic potential of empagliflozin in kidney stone disease,” according to an article on the trial protocol recently published in BMJ.
The trials included in the pooled dataset were funded by Boehringer Ingelheim or the Boehringer Ingelheim and Eli Lilly Diabetes Alliance. Dr. Balasubramanian has reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
than patients who received placebo during a median 1.5 years of treatment.
These findings are from an analysis of pooled data from phase 1-4 clinical trials of empagliflozin for blood glucose control in 15,081 patients with type 2 diabetes.
Priyadarshini Balasubramanian, MD, presented the study as a poster at the annual meeting of the Endocrine Society; the study also was published online in the Journal of Clinical Endocrinology & Metabolism.
The researchers acknowledge this was a retrospective, post-hoc analysis and that urolithiasis – a stone in the urinary tract, which includes nephrolithiasis, a kidney stone – was an adverse event, not a primary or secondary outcome.
Also, the stone composition, which might help explain how the drug may affect stone formation, is unknown.
Therefore, “dedicated randomized prospective clinical trials are needed to confirm these initial observations in patients both with and without type 2 diabetes,” said Dr. Balasubramanian, a clinical fellow in the section of endocrinology & metabolism, department of internal medicine at Yale University, New Haven, Conn.
However, “if this association is proven, empagliflozin may be used to decrease the risk of kidney stones at least in those with type 2 diabetes, but maybe also in those without diabetes,” Dr. Balasubramanian said in an interview.
Further trials are also needed to determine if this is a class effect, which is likely, she speculated, and to unravel the potential mechanism.
This is important because of the prevalence of kidney stones, which affect up to 15% of the general population and 15%-20% of patients with diabetes, she explained.
‘Provocative’ earlier findings
The current study was prompted by a recent observational study by Kasper B. Kristensen, MD, PhD, and colleagues.
Because SGLT2 inhibitors increase urinary glucose excretion through reduced renal reabsorption of glucose leading to osmotic diuresis and increased urinary flow, they hypothesized that these therapies “may reduce the risk of upper urinary tract stones (nephrolithiasis) by reducing the concentration of lithogenic substances in urine.”
Using data from Danish Health registries, they matched 12,325 individuals newly prescribed an SGLT2 inhibitor 1:1 with patients newly prescribed a glucagonlike peptide-1 (GLP1) agonist, another new class of drugs for treating type 2 diabetes.
They found a hazard ratio of 0.51 (95% confidence interval, 0.37-0.71) for incident nephrolithiasis and a hazard ratio of 0.68 (95% CI, 0.48-0.97) for recurrent nephrolithiasis for patients taking SGLT2 inhibitors versus GLP-1 agonists.
These findings are “striking,” according to Dr. Balasubramanian and colleagues. However, “these data, while provocative, were entirely retrospective and therefore possibly prone to bias,” they add.
Pooled data from 20 trials
The current study analyzed data from 20 randomized controlled trials of glycemic control in type 2 diabetes, in which 10,177 patients had received empagliflozin 10 mg or 25 mg and 4,904 patients had received placebo.
Most patients (46.5%) had participated in the EMPA-REG OUTCOMES trial, which also had the longest follow-up (2.6 years).
The researchers identified patients with a new stone from the urinary tract (including the kidney, ureter, and urethra). Patients had received either the study drug for a median of 543 days or placebo for a median of 549 days.
During treatment, 104 of 10,177 patients in the pooled empagliflozin groups and 79 of 4,904 patients in the pooled placebo groups developed a stone in the urinary tract.
This was equivalent to 0.63 new urinary-tract stones per 100 patient-years in the pooled empagliflozin groups versus 1.01 new urinary-tract stones per 100 patient-years in the pooled placebo groups.
The incidence rate ratio was 0.64 (95% CI, 0.48-0.86), in favor of empagliflozin.
When the analysis was restricted to new kidney stones, the results were similar: 75 of 10,177 patients in the pooled empagliflozin groups and 57 of 4,904 patients in the pooled placebo groups developed a kidney stone.
This was equivalent to 0.45 new kidney stones per 100 patient-years in the pooled empagliflozin groups versus 0.72 new kidney stones per 100 patient-years in the pooled placebo groups.
The IRR was 0.65 (95% CI, 0.46-0.92), in favor of empagliflozin.
Upcoming small RCT in adults without diabetes
Invited to comment on the new study, Dr. Kristensen said: “The reduced risk of SGLT2 inhibitors towards nephrolithiasis is now reported in at least two studies with different methodology, different populations, and different exposure and outcome definitions.”
“I agree that randomized clinical trials designed specifically to confirm these findings appear warranted,” added Dr. Kristensen, from the Institute of Public Health, Clinical Pharmacology, Pharmacy, and Environmental Medicine, University of Southern Denmark in Odense.
There is a need for studies in patients with and without diabetes, he added, especially ones that focus on prevention of nephrolithiasis in patients with kidney stone disease.
A new trial should shed further light on this.
Results are expected by the end of 2022 for SWEETSTONE (Impact of the SGLT2 Inhibitor Empagliflozin on Urinary Supersaturations in Kidney Stone Formers), a randomized, double-blind crossover exploratory study in 46 patients without diabetes.
This should provide preliminary data to “establish the relevance for larger trials assessing the prophylactic potential of empagliflozin in kidney stone disease,” according to an article on the trial protocol recently published in BMJ.
The trials included in the pooled dataset were funded by Boehringer Ingelheim or the Boehringer Ingelheim and Eli Lilly Diabetes Alliance. Dr. Balasubramanian has reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
than patients who received placebo during a median 1.5 years of treatment.
These findings are from an analysis of pooled data from phase 1-4 clinical trials of empagliflozin for blood glucose control in 15,081 patients with type 2 diabetes.
Priyadarshini Balasubramanian, MD, presented the study as a poster at the annual meeting of the Endocrine Society; the study also was published online in the Journal of Clinical Endocrinology & Metabolism.
The researchers acknowledge this was a retrospective, post-hoc analysis and that urolithiasis – a stone in the urinary tract, which includes nephrolithiasis, a kidney stone – was an adverse event, not a primary or secondary outcome.
Also, the stone composition, which might help explain how the drug may affect stone formation, is unknown.
Therefore, “dedicated randomized prospective clinical trials are needed to confirm these initial observations in patients both with and without type 2 diabetes,” said Dr. Balasubramanian, a clinical fellow in the section of endocrinology & metabolism, department of internal medicine at Yale University, New Haven, Conn.
However, “if this association is proven, empagliflozin may be used to decrease the risk of kidney stones at least in those with type 2 diabetes, but maybe also in those without diabetes,” Dr. Balasubramanian said in an interview.
Further trials are also needed to determine if this is a class effect, which is likely, she speculated, and to unravel the potential mechanism.
This is important because of the prevalence of kidney stones, which affect up to 15% of the general population and 15%-20% of patients with diabetes, she explained.
‘Provocative’ earlier findings
The current study was prompted by a recent observational study by Kasper B. Kristensen, MD, PhD, and colleagues.
Because SGLT2 inhibitors increase urinary glucose excretion through reduced renal reabsorption of glucose leading to osmotic diuresis and increased urinary flow, they hypothesized that these therapies “may reduce the risk of upper urinary tract stones (nephrolithiasis) by reducing the concentration of lithogenic substances in urine.”
Using data from Danish Health registries, they matched 12,325 individuals newly prescribed an SGLT2 inhibitor 1:1 with patients newly prescribed a glucagonlike peptide-1 (GLP1) agonist, another new class of drugs for treating type 2 diabetes.
They found a hazard ratio of 0.51 (95% confidence interval, 0.37-0.71) for incident nephrolithiasis and a hazard ratio of 0.68 (95% CI, 0.48-0.97) for recurrent nephrolithiasis for patients taking SGLT2 inhibitors versus GLP-1 agonists.
These findings are “striking,” according to Dr. Balasubramanian and colleagues. However, “these data, while provocative, were entirely retrospective and therefore possibly prone to bias,” they add.
Pooled data from 20 trials
The current study analyzed data from 20 randomized controlled trials of glycemic control in type 2 diabetes, in which 10,177 patients had received empagliflozin 10 mg or 25 mg and 4,904 patients had received placebo.
Most patients (46.5%) had participated in the EMPA-REG OUTCOMES trial, which also had the longest follow-up (2.6 years).
The researchers identified patients with a new stone from the urinary tract (including the kidney, ureter, and urethra). Patients had received either the study drug for a median of 543 days or placebo for a median of 549 days.
During treatment, 104 of 10,177 patients in the pooled empagliflozin groups and 79 of 4,904 patients in the pooled placebo groups developed a stone in the urinary tract.
This was equivalent to 0.63 new urinary-tract stones per 100 patient-years in the pooled empagliflozin groups versus 1.01 new urinary-tract stones per 100 patient-years in the pooled placebo groups.
The incidence rate ratio was 0.64 (95% CI, 0.48-0.86), in favor of empagliflozin.
When the analysis was restricted to new kidney stones, the results were similar: 75 of 10,177 patients in the pooled empagliflozin groups and 57 of 4,904 patients in the pooled placebo groups developed a kidney stone.
This was equivalent to 0.45 new kidney stones per 100 patient-years in the pooled empagliflozin groups versus 0.72 new kidney stones per 100 patient-years in the pooled placebo groups.
The IRR was 0.65 (95% CI, 0.46-0.92), in favor of empagliflozin.
Upcoming small RCT in adults without diabetes
Invited to comment on the new study, Dr. Kristensen said: “The reduced risk of SGLT2 inhibitors towards nephrolithiasis is now reported in at least two studies with different methodology, different populations, and different exposure and outcome definitions.”
“I agree that randomized clinical trials designed specifically to confirm these findings appear warranted,” added Dr. Kristensen, from the Institute of Public Health, Clinical Pharmacology, Pharmacy, and Environmental Medicine, University of Southern Denmark in Odense.
There is a need for studies in patients with and without diabetes, he added, especially ones that focus on prevention of nephrolithiasis in patients with kidney stone disease.
A new trial should shed further light on this.
Results are expected by the end of 2022 for SWEETSTONE (Impact of the SGLT2 Inhibitor Empagliflozin on Urinary Supersaturations in Kidney Stone Formers), a randomized, double-blind crossover exploratory study in 46 patients without diabetes.
This should provide preliminary data to “establish the relevance for larger trials assessing the prophylactic potential of empagliflozin in kidney stone disease,” according to an article on the trial protocol recently published in BMJ.
The trials included in the pooled dataset were funded by Boehringer Ingelheim or the Boehringer Ingelheim and Eli Lilly Diabetes Alliance. Dr. Balasubramanian has reported no relevant financial relationships.
A version of this article first appeared on Medscape.com.
FROM ENDO 2022
Updates in aspirin use, aducanumab, and CKD diagnostic criteria in geriatric medicine
I selected these topics as they were among the most discussed by my colleagues in geriatric medicine and inquired about by my primary care patients in geriatric medicine clinic. I hope that these updates provide primary care clinicians who care for older adults with more context and background information regarding new Alzheimer’s disease therapy to better answer patient inquiries, and to feel empowered to deprescribe aspirin and reframe the diagnostic criteria of chronic kidney disease (CKD).
Aspirin for primary prevention
It was welcome news in the geriatrics community when the United States Preventive Services Task Force updated their guidelines in April 2022 to recommend against the initiation of aspirin for primary prevention in adults aged 60 or older. This recommendation was based on studies that found that net benefits of CVD prevention in older adults are outweighed by risk of bleeding.1
The risk of bleeding increases with age and can occur in individuals without common risk factors for bleeding, such as prior gastrointestinal bleeding, peptic ulcer disease, concurrent NSAID use, or corticosteroid use.
While it may be easier to not initiate aspirin for primary prevention, deprescribing aspirin for patients who have been on aspirin long term for primary prevention presents more of a challenge. Modeling data from the USPTSF suggest stopping aspirin at age 75 for those taking aspirin for primary prevention.2
Behavioral change, particularly for patients who have been on aspirin for decades, can be difficult. A 2021 study by Green et al. found that language that resonates the most with older adults when deprescribing emphasized the side effects rather than statements such as “this will not help you” or “do not need anymore.”3
Aducanumab for mild cognitive impairment and mild Alzheimer’s dementia
One of the most discussed topics this past year is the Food and Drug Administration approval of aducanumab (brand name Aduhelm) in June 2021. Aducanumab is the first approved disease-modifying therapy for Alzheimer’s disease and the first drug approved for the treatment of Alzheimer’s disease since 2003. Aducanumab is an antiamyloid monoclonal antibody that was developed to reduce amyloid plaque in the brain, one of the features of Alzheimer’s disease pathology.
Uptake of aducanumab by dementia providers has been limited for several reasons. Firstly, the clinical significance of the drug remains in question. ENGAGE and EMERGE were the two main randomized clinical trials that studied the effect of aducanumab on amyloid burden and clinical stages of dementia over 18 months. While both studies demonstrated that aducanumab reduced amyloid burden based on neuroimaging and in cerebrospinal fluid, the ENGAGE trial found no difference in the stage of dementia. The EMERGE trial did note a small, statistically significant difference in stage of dementia, however the participants of the EMERGE trial had a faster rate of progression of dementia than the placebo participants in the ENGAGE trial, which could have contributed to the difference detected.4
Additionally, exclusion criteria for both trials call into question the generalizability of this study. Participants over age 85, with CKD, prior stroke, or transient ischemic attacks, or on anticoagulation were excluded. One of the drivers for the exclusion criteria is the increased risk of macro and microhemorrhages.
Thirty-five percent of research participants were incidentally noted to have brain edema, an abnormality called amyloid-related imaging abnormality or ARIA-E, that necessitated serial monitoring with brain MRIs. It is also important to highlight that inclusion of African American, Hispanic, and Latinx participants in these studies was less than 5%, despite a higher incidence of Alzheimer’s disease in these populations.5
Lastly, economic implications for the U.S. health care system with increased uptake of aducanumab could be enormous. Originally quoted at $56,000 yearly, Biogen, the maker of aducanumab, recently reduced annual costs to $28,200 per patient.
In April 2022, CMS released a statement that antiamyloid monoclonal antibodies and related services, including PET scans, would be covered under Medicare for those with mild cognitive impairment and mild Alzheimer’s dementia with confirmed presence of amyloid. A study by Mafi et al. estimated that aducanumab could cost Medicare between $7 billion and $37.4 billion annually based on lower and upper bound estimates of eligible Medicare beneficiaries.6
Overdiagnosis of CKD in older adults
The current diagnostic criteria of CKD, which is based on an estimated glomerular filtration rate (eGFR) of less than 60, has been up for debate, as glomerular filtration rate (GFR) physiologically decreases with age. Fixed thresholds can lead to underdiagnosis of CKD in younger adults and overdiagnosis of CKD in older adults. Age-adapted thresholds for the diagnosis of CKD have been proposed, with the suggestion of an eGFR threshold of 45mL/min/1.73 m2 for adults aged 65 and older.7
The clinical implication of using an age-adapted eGFR threshold definition was investigated in a 2021 cohort study by Liu et al.8 In this study, outcomes of adults diagnosed with CKD using a fixed threshold versus age-adapted threshold were compared with a healthy cohort.
A fixed threshold led to a 60% higher incidence of CKD diagnosis. However, incidence of renal failure and all-cause mortality in older adults with an eGFR between 45-59 /min/1.73 m2 with normal or mild albuminuria was of similar magnitude to the healthy cohort at 5 years of follow-up.
These findings support the use of age-adapted thresholds for the diagnosis of CKD in older adults, as an earlier diagnosis of mild CKD does not equate to clinical benefits, but could lead to harms of unnecessary interventions and patient anxiety.
Dr. Mengru “Ruru” Wang is a geriatrician and internist at the University of Washington, Seattle. She practices full-spectrum medicine, seeing patients in primary care, nursing homes, and acute care. Dr. Wang has no disclosures related to this piece.
References
1. Selak Vet al. Predicting bleeding risk to guide aspirin use for the primary prevention of cardiovascular disease: A cohort study. Ann Intern Med. 2019;170(6):357-68. doi: 10.7326/M18-2808.
2. US Preventive Services Task Force. Aspirin Use to Prevent Cardiovascular Disease: US Preventive Services Task Force Recommendation Statement. JAMA. 2022;327(16):1577-84. doi: 10.1001/jama.2022.4983.
3. Green AR et al. Assessment of patient-preferred language to achieve goal-aligned deprescribing in older adults. JAMA Netw Open. 2021;4(4):e212633. doi: 10.1001/jamanetworkopen.2021.2633.
4. Oh ES. Use of anti-amyloid therapy for Alzheimer’s disease in clinical practice. An update on Alzheimer’s disease diagnosis and therapeutics. Presentation at American Geriatrics Society Meeting, 2022. Orlando.
5. Amjad H. Issues of Access and Marginalization. An update on Alzheimer’s disease diagnosis and therapeutics. Presentation at: American Geriatrics Society Meeting, 2022. Orlando.
6. Mafi JN et al. Estimated annual spending on aducanumab in the U.S. Medicare program. JAMA Health Forum. 2022;3(1):e214495. doi: 10.1001/jamahealthforum.2021.4495.
7. Delanaye P et al. CKD: A call for an age-adapted definition. J Am Soc Nephrol. 2019;30(10):1785-1805. doi: 10.1681/ASN.2019030238.
8. Liu Pet al. Accounting for age in the definition of chronic kidney disease. JAMA Intern Med. 2021;181(10):1359-66. doi: 10.1001/jamainternmed.2021.4813.
I selected these topics as they were among the most discussed by my colleagues in geriatric medicine and inquired about by my primary care patients in geriatric medicine clinic. I hope that these updates provide primary care clinicians who care for older adults with more context and background information regarding new Alzheimer’s disease therapy to better answer patient inquiries, and to feel empowered to deprescribe aspirin and reframe the diagnostic criteria of chronic kidney disease (CKD).
Aspirin for primary prevention
It was welcome news in the geriatrics community when the United States Preventive Services Task Force updated their guidelines in April 2022 to recommend against the initiation of aspirin for primary prevention in adults aged 60 or older. This recommendation was based on studies that found that net benefits of CVD prevention in older adults are outweighed by risk of bleeding.1
The risk of bleeding increases with age and can occur in individuals without common risk factors for bleeding, such as prior gastrointestinal bleeding, peptic ulcer disease, concurrent NSAID use, or corticosteroid use.
While it may be easier to not initiate aspirin for primary prevention, deprescribing aspirin for patients who have been on aspirin long term for primary prevention presents more of a challenge. Modeling data from the USPTSF suggest stopping aspirin at age 75 for those taking aspirin for primary prevention.2
Behavioral change, particularly for patients who have been on aspirin for decades, can be difficult. A 2021 study by Green et al. found that language that resonates the most with older adults when deprescribing emphasized the side effects rather than statements such as “this will not help you” or “do not need anymore.”3
Aducanumab for mild cognitive impairment and mild Alzheimer’s dementia
One of the most discussed topics this past year is the Food and Drug Administration approval of aducanumab (brand name Aduhelm) in June 2021. Aducanumab is the first approved disease-modifying therapy for Alzheimer’s disease and the first drug approved for the treatment of Alzheimer’s disease since 2003. Aducanumab is an antiamyloid monoclonal antibody that was developed to reduce amyloid plaque in the brain, one of the features of Alzheimer’s disease pathology.
Uptake of aducanumab by dementia providers has been limited for several reasons. Firstly, the clinical significance of the drug remains in question. ENGAGE and EMERGE were the two main randomized clinical trials that studied the effect of aducanumab on amyloid burden and clinical stages of dementia over 18 months. While both studies demonstrated that aducanumab reduced amyloid burden based on neuroimaging and in cerebrospinal fluid, the ENGAGE trial found no difference in the stage of dementia. The EMERGE trial did note a small, statistically significant difference in stage of dementia, however the participants of the EMERGE trial had a faster rate of progression of dementia than the placebo participants in the ENGAGE trial, which could have contributed to the difference detected.4
Additionally, exclusion criteria for both trials call into question the generalizability of this study. Participants over age 85, with CKD, prior stroke, or transient ischemic attacks, or on anticoagulation were excluded. One of the drivers for the exclusion criteria is the increased risk of macro and microhemorrhages.
Thirty-five percent of research participants were incidentally noted to have brain edema, an abnormality called amyloid-related imaging abnormality or ARIA-E, that necessitated serial monitoring with brain MRIs. It is also important to highlight that inclusion of African American, Hispanic, and Latinx participants in these studies was less than 5%, despite a higher incidence of Alzheimer’s disease in these populations.5
Lastly, economic implications for the U.S. health care system with increased uptake of aducanumab could be enormous. Originally quoted at $56,000 yearly, Biogen, the maker of aducanumab, recently reduced annual costs to $28,200 per patient.
In April 2022, CMS released a statement that antiamyloid monoclonal antibodies and related services, including PET scans, would be covered under Medicare for those with mild cognitive impairment and mild Alzheimer’s dementia with confirmed presence of amyloid. A study by Mafi et al. estimated that aducanumab could cost Medicare between $7 billion and $37.4 billion annually based on lower and upper bound estimates of eligible Medicare beneficiaries.6
Overdiagnosis of CKD in older adults
The current diagnostic criteria of CKD, which is based on an estimated glomerular filtration rate (eGFR) of less than 60, has been up for debate, as glomerular filtration rate (GFR) physiologically decreases with age. Fixed thresholds can lead to underdiagnosis of CKD in younger adults and overdiagnosis of CKD in older adults. Age-adapted thresholds for the diagnosis of CKD have been proposed, with the suggestion of an eGFR threshold of 45mL/min/1.73 m2 for adults aged 65 and older.7
The clinical implication of using an age-adapted eGFR threshold definition was investigated in a 2021 cohort study by Liu et al.8 In this study, outcomes of adults diagnosed with CKD using a fixed threshold versus age-adapted threshold were compared with a healthy cohort.
A fixed threshold led to a 60% higher incidence of CKD diagnosis. However, incidence of renal failure and all-cause mortality in older adults with an eGFR between 45-59 /min/1.73 m2 with normal or mild albuminuria was of similar magnitude to the healthy cohort at 5 years of follow-up.
These findings support the use of age-adapted thresholds for the diagnosis of CKD in older adults, as an earlier diagnosis of mild CKD does not equate to clinical benefits, but could lead to harms of unnecessary interventions and patient anxiety.
Dr. Mengru “Ruru” Wang is a geriatrician and internist at the University of Washington, Seattle. She practices full-spectrum medicine, seeing patients in primary care, nursing homes, and acute care. Dr. Wang has no disclosures related to this piece.
References
1. Selak Vet al. Predicting bleeding risk to guide aspirin use for the primary prevention of cardiovascular disease: A cohort study. Ann Intern Med. 2019;170(6):357-68. doi: 10.7326/M18-2808.
2. US Preventive Services Task Force. Aspirin Use to Prevent Cardiovascular Disease: US Preventive Services Task Force Recommendation Statement. JAMA. 2022;327(16):1577-84. doi: 10.1001/jama.2022.4983.
3. Green AR et al. Assessment of patient-preferred language to achieve goal-aligned deprescribing in older adults. JAMA Netw Open. 2021;4(4):e212633. doi: 10.1001/jamanetworkopen.2021.2633.
4. Oh ES. Use of anti-amyloid therapy for Alzheimer’s disease in clinical practice. An update on Alzheimer’s disease diagnosis and therapeutics. Presentation at American Geriatrics Society Meeting, 2022. Orlando.
5. Amjad H. Issues of Access and Marginalization. An update on Alzheimer’s disease diagnosis and therapeutics. Presentation at: American Geriatrics Society Meeting, 2022. Orlando.
6. Mafi JN et al. Estimated annual spending on aducanumab in the U.S. Medicare program. JAMA Health Forum. 2022;3(1):e214495. doi: 10.1001/jamahealthforum.2021.4495.
7. Delanaye P et al. CKD: A call for an age-adapted definition. J Am Soc Nephrol. 2019;30(10):1785-1805. doi: 10.1681/ASN.2019030238.
8. Liu Pet al. Accounting for age in the definition of chronic kidney disease. JAMA Intern Med. 2021;181(10):1359-66. doi: 10.1001/jamainternmed.2021.4813.
I selected these topics as they were among the most discussed by my colleagues in geriatric medicine and inquired about by my primary care patients in geriatric medicine clinic. I hope that these updates provide primary care clinicians who care for older adults with more context and background information regarding new Alzheimer’s disease therapy to better answer patient inquiries, and to feel empowered to deprescribe aspirin and reframe the diagnostic criteria of chronic kidney disease (CKD).
Aspirin for primary prevention
It was welcome news in the geriatrics community when the United States Preventive Services Task Force updated their guidelines in April 2022 to recommend against the initiation of aspirin for primary prevention in adults aged 60 or older. This recommendation was based on studies that found that net benefits of CVD prevention in older adults are outweighed by risk of bleeding.1
The risk of bleeding increases with age and can occur in individuals without common risk factors for bleeding, such as prior gastrointestinal bleeding, peptic ulcer disease, concurrent NSAID use, or corticosteroid use.
While it may be easier to not initiate aspirin for primary prevention, deprescribing aspirin for patients who have been on aspirin long term for primary prevention presents more of a challenge. Modeling data from the USPTSF suggest stopping aspirin at age 75 for those taking aspirin for primary prevention.2
Behavioral change, particularly for patients who have been on aspirin for decades, can be difficult. A 2021 study by Green et al. found that language that resonates the most with older adults when deprescribing emphasized the side effects rather than statements such as “this will not help you” or “do not need anymore.”3
Aducanumab for mild cognitive impairment and mild Alzheimer’s dementia
One of the most discussed topics this past year is the Food and Drug Administration approval of aducanumab (brand name Aduhelm) in June 2021. Aducanumab is the first approved disease-modifying therapy for Alzheimer’s disease and the first drug approved for the treatment of Alzheimer’s disease since 2003. Aducanumab is an antiamyloid monoclonal antibody that was developed to reduce amyloid plaque in the brain, one of the features of Alzheimer’s disease pathology.
Uptake of aducanumab by dementia providers has been limited for several reasons. Firstly, the clinical significance of the drug remains in question. ENGAGE and EMERGE were the two main randomized clinical trials that studied the effect of aducanumab on amyloid burden and clinical stages of dementia over 18 months. While both studies demonstrated that aducanumab reduced amyloid burden based on neuroimaging and in cerebrospinal fluid, the ENGAGE trial found no difference in the stage of dementia. The EMERGE trial did note a small, statistically significant difference in stage of dementia, however the participants of the EMERGE trial had a faster rate of progression of dementia than the placebo participants in the ENGAGE trial, which could have contributed to the difference detected.4
Additionally, exclusion criteria for both trials call into question the generalizability of this study. Participants over age 85, with CKD, prior stroke, or transient ischemic attacks, or on anticoagulation were excluded. One of the drivers for the exclusion criteria is the increased risk of macro and microhemorrhages.
Thirty-five percent of research participants were incidentally noted to have brain edema, an abnormality called amyloid-related imaging abnormality or ARIA-E, that necessitated serial monitoring with brain MRIs. It is also important to highlight that inclusion of African American, Hispanic, and Latinx participants in these studies was less than 5%, despite a higher incidence of Alzheimer’s disease in these populations.5
Lastly, economic implications for the U.S. health care system with increased uptake of aducanumab could be enormous. Originally quoted at $56,000 yearly, Biogen, the maker of aducanumab, recently reduced annual costs to $28,200 per patient.
In April 2022, CMS released a statement that antiamyloid monoclonal antibodies and related services, including PET scans, would be covered under Medicare for those with mild cognitive impairment and mild Alzheimer’s dementia with confirmed presence of amyloid. A study by Mafi et al. estimated that aducanumab could cost Medicare between $7 billion and $37.4 billion annually based on lower and upper bound estimates of eligible Medicare beneficiaries.6
Overdiagnosis of CKD in older adults
The current diagnostic criteria of CKD, which is based on an estimated glomerular filtration rate (eGFR) of less than 60, has been up for debate, as glomerular filtration rate (GFR) physiologically decreases with age. Fixed thresholds can lead to underdiagnosis of CKD in younger adults and overdiagnosis of CKD in older adults. Age-adapted thresholds for the diagnosis of CKD have been proposed, with the suggestion of an eGFR threshold of 45mL/min/1.73 m2 for adults aged 65 and older.7
The clinical implication of using an age-adapted eGFR threshold definition was investigated in a 2021 cohort study by Liu et al.8 In this study, outcomes of adults diagnosed with CKD using a fixed threshold versus age-adapted threshold were compared with a healthy cohort.
A fixed threshold led to a 60% higher incidence of CKD diagnosis. However, incidence of renal failure and all-cause mortality in older adults with an eGFR between 45-59 /min/1.73 m2 with normal or mild albuminuria was of similar magnitude to the healthy cohort at 5 years of follow-up.
These findings support the use of age-adapted thresholds for the diagnosis of CKD in older adults, as an earlier diagnosis of mild CKD does not equate to clinical benefits, but could lead to harms of unnecessary interventions and patient anxiety.
Dr. Mengru “Ruru” Wang is a geriatrician and internist at the University of Washington, Seattle. She practices full-spectrum medicine, seeing patients in primary care, nursing homes, and acute care. Dr. Wang has no disclosures related to this piece.
References
1. Selak Vet al. Predicting bleeding risk to guide aspirin use for the primary prevention of cardiovascular disease: A cohort study. Ann Intern Med. 2019;170(6):357-68. doi: 10.7326/M18-2808.
2. US Preventive Services Task Force. Aspirin Use to Prevent Cardiovascular Disease: US Preventive Services Task Force Recommendation Statement. JAMA. 2022;327(16):1577-84. doi: 10.1001/jama.2022.4983.
3. Green AR et al. Assessment of patient-preferred language to achieve goal-aligned deprescribing in older adults. JAMA Netw Open. 2021;4(4):e212633. doi: 10.1001/jamanetworkopen.2021.2633.
4. Oh ES. Use of anti-amyloid therapy for Alzheimer’s disease in clinical practice. An update on Alzheimer’s disease diagnosis and therapeutics. Presentation at American Geriatrics Society Meeting, 2022. Orlando.
5. Amjad H. Issues of Access and Marginalization. An update on Alzheimer’s disease diagnosis and therapeutics. Presentation at: American Geriatrics Society Meeting, 2022. Orlando.
6. Mafi JN et al. Estimated annual spending on aducanumab in the U.S. Medicare program. JAMA Health Forum. 2022;3(1):e214495. doi: 10.1001/jamahealthforum.2021.4495.
7. Delanaye P et al. CKD: A call for an age-adapted definition. J Am Soc Nephrol. 2019;30(10):1785-1805. doi: 10.1681/ASN.2019030238.
8. Liu Pet al. Accounting for age in the definition of chronic kidney disease. JAMA Intern Med. 2021;181(10):1359-66. doi: 10.1001/jamainternmed.2021.4813.
Experts elevate new drugs for diabetic kidney disease
ATLANTA – U.S. clinicians caring for people with diabetes should take a more aggressive approach to using combined medical treatments proven to slow the otherwise relentless progression of chronic kidney disease (CKD), according to a new joint statement by the American Diabetes Association and a major international nephrology organization presented during the annual scientific sessions of the American Diabetes Association (ADA).
The statement elevates treatment with an agent from the sodium-glucose cotransporter 2 (SGLT2) inhibitor class to first-line for people with diabetes and laboratory-based evidence of advancing CKD. It also re-emphasizes the key role of concurrent first-line treatment with a renin-angiotensin system inhibitor (an ACE inhibitor or angiotensin-receptor blocker), metformin, and a statin.
The new statement also urges clinicians to rapidly add treatment with the new nonsteroidal mineralocorticoid receptor antagonist finerenone (Kerendia) for further renal protection in the many patients suitable for treatment with this agent, and it recommends the second-line addition of a glucagon-like peptide-1 (GLP-1) receptor agonist as the best add-on for any patient who needs additional glycemic control on top of metformin and an SGLT2 inhibitor.
The consensus joint statement with these updates came from a nine-member writing group assembled by the ADA and the Kidney Disease: Improving Global Outcomes (KDIGO) organization.
“We’re going to try to make this feasible. We have to; I don’t think we have a choice,” commented Amy K. Mottl, MD, a nephrologist at the University of North Carolina, Chapel Hill. Dr. Mottl was not involved with writing the consensus statement but has been active in the Diabetic Kidney Disease Collaborative of the American Society of Nephrology, another group promoting a more aggressive multidrug-class approach to treating CKD in people with diabetes.
Wider use of costly drugs
Adoption of this evidence-based approach by U.S. clinicians will both increase the number of agents that many patients receive and drive a significant uptick in the cost and complexity of patient care, a consequence acknowledged by the authors of the joint statement as well as outside experts.
But they view this as unavoidable given what’s now known about the high incidence of worsening CKD in patients with diabetes and the types of interventions proven to blunt this.
Much of the financial implication stems from the price of agents from the new drug classes now emphasized in the consensus recommendations – SGLT2 inhibitors, finerenone, and GLP-1 receptor agonists. All these drugs currently remain on-patent with relatively expensive retail prices in the range of about $600 to $1,000/month.
Commenting on the cost concerns, Dr. Mottl highlighted that she currently has several patients in her practice on agents from two or more of these newer classes, and she has generally found it possible for patients to get much of their expenses covered by insurers and through drug-company assistance programs.
“The major gap is patients on Medicare,” she noted in an interview, because the Federal health insurance program does not allow beneficiaries to receive rebates for their drug costs. “The Diabetic Kidney Disease Collaborative is currently lobbying members of Congress to lift that barrier,” she emphasized.
Improved alignment
Details of the KDIGO recommendations feature in a guideline from that organization that appeared as a draft document online in March 2022. The ADA’s version recently appeared as an update to its Standards of Medical Care in Diabetes – 2022, as reported by this news organization. A panel of five KDIGO representatives and four members appointed by the ADA produced the harmonization statement.
Recommendations from both organizations were largely in agreement at the outset, but following the panel’s review, the two groups are now “very well-aligned,” said Peter Rossing, MD, DMSc, a diabetologist and professor at the Steno Diabetes Center, Copenhagen, and a KDIGO representative to the writing committee, who presented the joint statement at the ADA meeting.
“These are very important drugs that are vastly underused,” commented Josef Coresh, MD, PhD, an epidemiologist and professor at Johns Hopkins Bloomberg School of Public Health, Baltimore, who specializes in CKD and was not involved with the new statement.
“Coherence and simplicity are what we need so that there are no excuses about moving forward” with the recommended combination treatment, he stressed.
Moving too slow
“No one is resisting using these new medications, but they are just moving too slowly, and data now show that it’s moving more slowly in the United States than elsewhere. That may be partly because U.S. patients are charged much more for these drugs, and partly because U.S. health care is so much more fragmented,” Dr. Coresh said in an interview.
The new joint consensus statement may help, “but the fragmentation of the United States system and COVID-19 are big enemies” for any short-term increased use of the highlighted agents, he added.
Evidence for low U.S. use of SGLT2 inhibitors, finerenone, and GLP-1 receptor agonists is becoming well known.
Dr. Rossing cited a 2019 report from the CURE-CKD registry of more than 600,000 U.S. patients with CKD showing that less than 1% received an SGLT2 inhibitor and less than 1% a GLP-1 receptor agonist. Not all these patients had diabetes, but a subgroup analysis of those with diabetes, prediabetes, or hypertension showed that usage of each of these two classes remained at less than 1% even in this group.
A separate report at the ADA meeting documented that of more than 1.3 million people with type 2 diabetes in the U.S. Veterans Affairs Healthcare System during 2019 and 2020, just 10% received an SGLT2 inhibitor and 7% a GLP-1 receptor agonist. And this is in a setting where drug cost is not a limiting factor.
In addition to focusing on the updated scheme for drug intervention in the consensus statement, Dr. Rossing highlighted several other important points that the writing committee emphasized.
Lifestyle optimization is a core first-line element of managing patients with diabetes and CKD, including a healthy diet, exercise, smoking cessation, and weight control. Other key steps for management include optimization of blood pressure, glucose, and lipids. The statement also calls out a potentially helpful role for continuous glucose monitoring in patients with type 1 or type 2 diabetes and CKD.
The statement notes that patients who also have atherosclerotic cardiovascular disease usually qualify for and could potentially benefit from more intensified lipid management with ezetimibe or a PCSK9 (proprotein convertase subtilisin/kexin type 9) inhibitor, as well as a potential role for treatment with antiplatelet agents.
‘If you don’t screen, you won’t find it’
Dr. Rossing also stressed the importance of regular screening for the onset of advanced CKD in patients. Patients whose estimated glomerular filtration rate (eGFR) drops below 60 mL/min/1.73m2, as well as those who develop microalbuminuria with a urinary albumin-to-creatinine ratio of at least 30 mg/g (30 mg/mmol), have a stage of CKD that warrants the drug interventions he outlined.
Guidelines from both the ADA and KDIGO were already in place, recommending annual screening of patients with diabetes for both these parameters starting at diagnosis of type 2 diabetes or 5 years following initial diagnosis of type 1 diabetes.
“If you don’t screen, you won’t find it, and you won’t be able to treat,” Dr. Rossing warned. He also highlighted the panel’s recommendation to treat these patients with an SGLT2 inhibitor as long as their eGFR is at least 20 mL/min/1.73m2. Treatment can then continue even when their eGFR drops lower.
Starting treatment with finerenone requires that patients have a normal level of serum potassium, he emphasized.
One reason for developing the new ADA and KDIGO statement is that “discrepancies in clinical practice guideline recommendations from various professional organizations add to confusion that impedes understanding of best practices,” write Katherine R. Tuttle, MD, and associates in a recent commentary.
The goal of the new statement is to harmonize and promote the shared recommendations of the two organizations, added Dr. Tuttle, who is executive director for research at Providence Healthcare, Spokane, Washington, and a KDIGO representative on the statement writing panel.
Dr. Mottl has reported being a consultant to Bayer. Dr. Rossing has reported being a consultant to or speaker on behalf of Astellas, AstraZeneca, Bayer, Boehringer Ingelheim, Eli Lilly, Gilead, MSD, Mundipharma, Novo Nordisk, Sanofi Aventis, and Vifor, as well as receiving research grants from AstraZeneca and Novo Nordisk. Dr. Coresh has reported no relevant financial relationships. Dr. Tuttle has reported being a consultant to AstraZeneca, Bayer, Boehringer Ingelheim, Goldfinch Bio, Janssen, Novo Nordisk, and Travere; receiving honoraria from AstraZeneca, Bayer, Boehringer Ingelheim, Gilead, Goldfinch Bio, Novo Nordisk, and Travere; and receiving research funding from AstraZeneca, Bayer, Boehringer Ingelheim, Eli Lilly, Gilead, Goldfinch Bio, Novo Nordisk, and Travere.
A version of this article first appeared on Medscape.com.
ATLANTA – U.S. clinicians caring for people with diabetes should take a more aggressive approach to using combined medical treatments proven to slow the otherwise relentless progression of chronic kidney disease (CKD), according to a new joint statement by the American Diabetes Association and a major international nephrology organization presented during the annual scientific sessions of the American Diabetes Association (ADA).
The statement elevates treatment with an agent from the sodium-glucose cotransporter 2 (SGLT2) inhibitor class to first-line for people with diabetes and laboratory-based evidence of advancing CKD. It also re-emphasizes the key role of concurrent first-line treatment with a renin-angiotensin system inhibitor (an ACE inhibitor or angiotensin-receptor blocker), metformin, and a statin.
The new statement also urges clinicians to rapidly add treatment with the new nonsteroidal mineralocorticoid receptor antagonist finerenone (Kerendia) for further renal protection in the many patients suitable for treatment with this agent, and it recommends the second-line addition of a glucagon-like peptide-1 (GLP-1) receptor agonist as the best add-on for any patient who needs additional glycemic control on top of metformin and an SGLT2 inhibitor.
The consensus joint statement with these updates came from a nine-member writing group assembled by the ADA and the Kidney Disease: Improving Global Outcomes (KDIGO) organization.
“We’re going to try to make this feasible. We have to; I don’t think we have a choice,” commented Amy K. Mottl, MD, a nephrologist at the University of North Carolina, Chapel Hill. Dr. Mottl was not involved with writing the consensus statement but has been active in the Diabetic Kidney Disease Collaborative of the American Society of Nephrology, another group promoting a more aggressive multidrug-class approach to treating CKD in people with diabetes.
Wider use of costly drugs
Adoption of this evidence-based approach by U.S. clinicians will both increase the number of agents that many patients receive and drive a significant uptick in the cost and complexity of patient care, a consequence acknowledged by the authors of the joint statement as well as outside experts.
But they view this as unavoidable given what’s now known about the high incidence of worsening CKD in patients with diabetes and the types of interventions proven to blunt this.
Much of the financial implication stems from the price of agents from the new drug classes now emphasized in the consensus recommendations – SGLT2 inhibitors, finerenone, and GLP-1 receptor agonists. All these drugs currently remain on-patent with relatively expensive retail prices in the range of about $600 to $1,000/month.
Commenting on the cost concerns, Dr. Mottl highlighted that she currently has several patients in her practice on agents from two or more of these newer classes, and she has generally found it possible for patients to get much of their expenses covered by insurers and through drug-company assistance programs.
“The major gap is patients on Medicare,” she noted in an interview, because the Federal health insurance program does not allow beneficiaries to receive rebates for their drug costs. “The Diabetic Kidney Disease Collaborative is currently lobbying members of Congress to lift that barrier,” she emphasized.
Improved alignment
Details of the KDIGO recommendations feature in a guideline from that organization that appeared as a draft document online in March 2022. The ADA’s version recently appeared as an update to its Standards of Medical Care in Diabetes – 2022, as reported by this news organization. A panel of five KDIGO representatives and four members appointed by the ADA produced the harmonization statement.
Recommendations from both organizations were largely in agreement at the outset, but following the panel’s review, the two groups are now “very well-aligned,” said Peter Rossing, MD, DMSc, a diabetologist and professor at the Steno Diabetes Center, Copenhagen, and a KDIGO representative to the writing committee, who presented the joint statement at the ADA meeting.
“These are very important drugs that are vastly underused,” commented Josef Coresh, MD, PhD, an epidemiologist and professor at Johns Hopkins Bloomberg School of Public Health, Baltimore, who specializes in CKD and was not involved with the new statement.
“Coherence and simplicity are what we need so that there are no excuses about moving forward” with the recommended combination treatment, he stressed.
Moving too slow
“No one is resisting using these new medications, but they are just moving too slowly, and data now show that it’s moving more slowly in the United States than elsewhere. That may be partly because U.S. patients are charged much more for these drugs, and partly because U.S. health care is so much more fragmented,” Dr. Coresh said in an interview.
The new joint consensus statement may help, “but the fragmentation of the United States system and COVID-19 are big enemies” for any short-term increased use of the highlighted agents, he added.
Evidence for low U.S. use of SGLT2 inhibitors, finerenone, and GLP-1 receptor agonists is becoming well known.
Dr. Rossing cited a 2019 report from the CURE-CKD registry of more than 600,000 U.S. patients with CKD showing that less than 1% received an SGLT2 inhibitor and less than 1% a GLP-1 receptor agonist. Not all these patients had diabetes, but a subgroup analysis of those with diabetes, prediabetes, or hypertension showed that usage of each of these two classes remained at less than 1% even in this group.
A separate report at the ADA meeting documented that of more than 1.3 million people with type 2 diabetes in the U.S. Veterans Affairs Healthcare System during 2019 and 2020, just 10% received an SGLT2 inhibitor and 7% a GLP-1 receptor agonist. And this is in a setting where drug cost is not a limiting factor.
In addition to focusing on the updated scheme for drug intervention in the consensus statement, Dr. Rossing highlighted several other important points that the writing committee emphasized.
Lifestyle optimization is a core first-line element of managing patients with diabetes and CKD, including a healthy diet, exercise, smoking cessation, and weight control. Other key steps for management include optimization of blood pressure, glucose, and lipids. The statement also calls out a potentially helpful role for continuous glucose monitoring in patients with type 1 or type 2 diabetes and CKD.
The statement notes that patients who also have atherosclerotic cardiovascular disease usually qualify for and could potentially benefit from more intensified lipid management with ezetimibe or a PCSK9 (proprotein convertase subtilisin/kexin type 9) inhibitor, as well as a potential role for treatment with antiplatelet agents.
‘If you don’t screen, you won’t find it’
Dr. Rossing also stressed the importance of regular screening for the onset of advanced CKD in patients. Patients whose estimated glomerular filtration rate (eGFR) drops below 60 mL/min/1.73m2, as well as those who develop microalbuminuria with a urinary albumin-to-creatinine ratio of at least 30 mg/g (30 mg/mmol), have a stage of CKD that warrants the drug interventions he outlined.
Guidelines from both the ADA and KDIGO were already in place, recommending annual screening of patients with diabetes for both these parameters starting at diagnosis of type 2 diabetes or 5 years following initial diagnosis of type 1 diabetes.
“If you don’t screen, you won’t find it, and you won’t be able to treat,” Dr. Rossing warned. He also highlighted the panel’s recommendation to treat these patients with an SGLT2 inhibitor as long as their eGFR is at least 20 mL/min/1.73m2. Treatment can then continue even when their eGFR drops lower.
Starting treatment with finerenone requires that patients have a normal level of serum potassium, he emphasized.
One reason for developing the new ADA and KDIGO statement is that “discrepancies in clinical practice guideline recommendations from various professional organizations add to confusion that impedes understanding of best practices,” write Katherine R. Tuttle, MD, and associates in a recent commentary.
The goal of the new statement is to harmonize and promote the shared recommendations of the two organizations, added Dr. Tuttle, who is executive director for research at Providence Healthcare, Spokane, Washington, and a KDIGO representative on the statement writing panel.
Dr. Mottl has reported being a consultant to Bayer. Dr. Rossing has reported being a consultant to or speaker on behalf of Astellas, AstraZeneca, Bayer, Boehringer Ingelheim, Eli Lilly, Gilead, MSD, Mundipharma, Novo Nordisk, Sanofi Aventis, and Vifor, as well as receiving research grants from AstraZeneca and Novo Nordisk. Dr. Coresh has reported no relevant financial relationships. Dr. Tuttle has reported being a consultant to AstraZeneca, Bayer, Boehringer Ingelheim, Goldfinch Bio, Janssen, Novo Nordisk, and Travere; receiving honoraria from AstraZeneca, Bayer, Boehringer Ingelheim, Gilead, Goldfinch Bio, Novo Nordisk, and Travere; and receiving research funding from AstraZeneca, Bayer, Boehringer Ingelheim, Eli Lilly, Gilead, Goldfinch Bio, Novo Nordisk, and Travere.
A version of this article first appeared on Medscape.com.
ATLANTA – U.S. clinicians caring for people with diabetes should take a more aggressive approach to using combined medical treatments proven to slow the otherwise relentless progression of chronic kidney disease (CKD), according to a new joint statement by the American Diabetes Association and a major international nephrology organization presented during the annual scientific sessions of the American Diabetes Association (ADA).
The statement elevates treatment with an agent from the sodium-glucose cotransporter 2 (SGLT2) inhibitor class to first-line for people with diabetes and laboratory-based evidence of advancing CKD. It also re-emphasizes the key role of concurrent first-line treatment with a renin-angiotensin system inhibitor (an ACE inhibitor or angiotensin-receptor blocker), metformin, and a statin.
The new statement also urges clinicians to rapidly add treatment with the new nonsteroidal mineralocorticoid receptor antagonist finerenone (Kerendia) for further renal protection in the many patients suitable for treatment with this agent, and it recommends the second-line addition of a glucagon-like peptide-1 (GLP-1) receptor agonist as the best add-on for any patient who needs additional glycemic control on top of metformin and an SGLT2 inhibitor.
The consensus joint statement with these updates came from a nine-member writing group assembled by the ADA and the Kidney Disease: Improving Global Outcomes (KDIGO) organization.
“We’re going to try to make this feasible. We have to; I don’t think we have a choice,” commented Amy K. Mottl, MD, a nephrologist at the University of North Carolina, Chapel Hill. Dr. Mottl was not involved with writing the consensus statement but has been active in the Diabetic Kidney Disease Collaborative of the American Society of Nephrology, another group promoting a more aggressive multidrug-class approach to treating CKD in people with diabetes.
Wider use of costly drugs
Adoption of this evidence-based approach by U.S. clinicians will both increase the number of agents that many patients receive and drive a significant uptick in the cost and complexity of patient care, a consequence acknowledged by the authors of the joint statement as well as outside experts.
But they view this as unavoidable given what’s now known about the high incidence of worsening CKD in patients with diabetes and the types of interventions proven to blunt this.
Much of the financial implication stems from the price of agents from the new drug classes now emphasized in the consensus recommendations – SGLT2 inhibitors, finerenone, and GLP-1 receptor agonists. All these drugs currently remain on-patent with relatively expensive retail prices in the range of about $600 to $1,000/month.
Commenting on the cost concerns, Dr. Mottl highlighted that she currently has several patients in her practice on agents from two or more of these newer classes, and she has generally found it possible for patients to get much of their expenses covered by insurers and through drug-company assistance programs.
“The major gap is patients on Medicare,” she noted in an interview, because the Federal health insurance program does not allow beneficiaries to receive rebates for their drug costs. “The Diabetic Kidney Disease Collaborative is currently lobbying members of Congress to lift that barrier,” she emphasized.
Improved alignment
Details of the KDIGO recommendations feature in a guideline from that organization that appeared as a draft document online in March 2022. The ADA’s version recently appeared as an update to its Standards of Medical Care in Diabetes – 2022, as reported by this news organization. A panel of five KDIGO representatives and four members appointed by the ADA produced the harmonization statement.
Recommendations from both organizations were largely in agreement at the outset, but following the panel’s review, the two groups are now “very well-aligned,” said Peter Rossing, MD, DMSc, a diabetologist and professor at the Steno Diabetes Center, Copenhagen, and a KDIGO representative to the writing committee, who presented the joint statement at the ADA meeting.
“These are very important drugs that are vastly underused,” commented Josef Coresh, MD, PhD, an epidemiologist and professor at Johns Hopkins Bloomberg School of Public Health, Baltimore, who specializes in CKD and was not involved with the new statement.
“Coherence and simplicity are what we need so that there are no excuses about moving forward” with the recommended combination treatment, he stressed.
Moving too slow
“No one is resisting using these new medications, but they are just moving too slowly, and data now show that it’s moving more slowly in the United States than elsewhere. That may be partly because U.S. patients are charged much more for these drugs, and partly because U.S. health care is so much more fragmented,” Dr. Coresh said in an interview.
The new joint consensus statement may help, “but the fragmentation of the United States system and COVID-19 are big enemies” for any short-term increased use of the highlighted agents, he added.
Evidence for low U.S. use of SGLT2 inhibitors, finerenone, and GLP-1 receptor agonists is becoming well known.
Dr. Rossing cited a 2019 report from the CURE-CKD registry of more than 600,000 U.S. patients with CKD showing that less than 1% received an SGLT2 inhibitor and less than 1% a GLP-1 receptor agonist. Not all these patients had diabetes, but a subgroup analysis of those with diabetes, prediabetes, or hypertension showed that usage of each of these two classes remained at less than 1% even in this group.
A separate report at the ADA meeting documented that of more than 1.3 million people with type 2 diabetes in the U.S. Veterans Affairs Healthcare System during 2019 and 2020, just 10% received an SGLT2 inhibitor and 7% a GLP-1 receptor agonist. And this is in a setting where drug cost is not a limiting factor.
In addition to focusing on the updated scheme for drug intervention in the consensus statement, Dr. Rossing highlighted several other important points that the writing committee emphasized.
Lifestyle optimization is a core first-line element of managing patients with diabetes and CKD, including a healthy diet, exercise, smoking cessation, and weight control. Other key steps for management include optimization of blood pressure, glucose, and lipids. The statement also calls out a potentially helpful role for continuous glucose monitoring in patients with type 1 or type 2 diabetes and CKD.
The statement notes that patients who also have atherosclerotic cardiovascular disease usually qualify for and could potentially benefit from more intensified lipid management with ezetimibe or a PCSK9 (proprotein convertase subtilisin/kexin type 9) inhibitor, as well as a potential role for treatment with antiplatelet agents.
‘If you don’t screen, you won’t find it’
Dr. Rossing also stressed the importance of regular screening for the onset of advanced CKD in patients. Patients whose estimated glomerular filtration rate (eGFR) drops below 60 mL/min/1.73m2, as well as those who develop microalbuminuria with a urinary albumin-to-creatinine ratio of at least 30 mg/g (30 mg/mmol), have a stage of CKD that warrants the drug interventions he outlined.
Guidelines from both the ADA and KDIGO were already in place, recommending annual screening of patients with diabetes for both these parameters starting at diagnosis of type 2 diabetes or 5 years following initial diagnosis of type 1 diabetes.
“If you don’t screen, you won’t find it, and you won’t be able to treat,” Dr. Rossing warned. He also highlighted the panel’s recommendation to treat these patients with an SGLT2 inhibitor as long as their eGFR is at least 20 mL/min/1.73m2. Treatment can then continue even when their eGFR drops lower.
Starting treatment with finerenone requires that patients have a normal level of serum potassium, he emphasized.
One reason for developing the new ADA and KDIGO statement is that “discrepancies in clinical practice guideline recommendations from various professional organizations add to confusion that impedes understanding of best practices,” write Katherine R. Tuttle, MD, and associates in a recent commentary.
The goal of the new statement is to harmonize and promote the shared recommendations of the two organizations, added Dr. Tuttle, who is executive director for research at Providence Healthcare, Spokane, Washington, and a KDIGO representative on the statement writing panel.
Dr. Mottl has reported being a consultant to Bayer. Dr. Rossing has reported being a consultant to or speaker on behalf of Astellas, AstraZeneca, Bayer, Boehringer Ingelheim, Eli Lilly, Gilead, MSD, Mundipharma, Novo Nordisk, Sanofi Aventis, and Vifor, as well as receiving research grants from AstraZeneca and Novo Nordisk. Dr. Coresh has reported no relevant financial relationships. Dr. Tuttle has reported being a consultant to AstraZeneca, Bayer, Boehringer Ingelheim, Goldfinch Bio, Janssen, Novo Nordisk, and Travere; receiving honoraria from AstraZeneca, Bayer, Boehringer Ingelheim, Gilead, Goldfinch Bio, Novo Nordisk, and Travere; and receiving research funding from AstraZeneca, Bayer, Boehringer Ingelheim, Eli Lilly, Gilead, Goldfinch Bio, Novo Nordisk, and Travere.
A version of this article first appeared on Medscape.com.
AT ADA 2022