Venous Thromboembolism

ORLANDO – A small study suggests health care providers may fail to ask patients about heavy menstrual bleeding before or during treatment with oral anticoagulants.

Jennifer Smith/MDedge News

Researchers performed a chart review at a single center, which indicated that 60% of women were not asked about heavy menstrual bleeding before they were prescribed an oral anticoagulant.

Six months after the women started anticoagulant therapy, 29% required treatment for heavy menstrual bleeding. Charts for the remaining 71% of women contained no information about heavy menstrual bleeding.

“We were unable to distinguish between true absence of heavy menstrual bleeding and absence of reporting,” said Bethany T. Samuelson Bannow, MD, of Oregon Health & Science University, Portland.

Dr. Samuelson Bannow presented these findings at the annual meeting of the American Society of Hematology.

She explained that heavy menstrual bleeding is defined as more than 80 mL of blood loss per cycle. It affects 10%-15% of women in their lifetime, and anticoagulants increase the risk of heavy menstrual bleeding.

Studies have shown that heavy menstrual bleeding occurs in 22%-65% of women treated with vitamin K agonists and 20%-27% of women treated with rivaroxaban (Blood. 2017;130[24]:2603-9). However, many anticoagulant studies don’t include heavy menstrual bleeding as an outcome.

To gain more insight, Dr. Samuelson Bannow and colleagues conducted a chart review. Their study included 236 women of reproductive age treated at Oregon Health & Science University between Jan. 1, 2012, and Dec. 31, 2018.

The patients’ median age was 37 years (range, 18-50 years). Most patients (67%) were receiving an oral anticoagulant for venous thromboembolism. The rest were on anticoagulant therapy for arterial thrombosis (6%), atrial fibrillation (6%), a mechanical valve (1%), or “other” reasons (20%).

Dr. Samuelson Bannow said the other group was “almost exclusively women who were receiving prophylaxis” postoperatively or for travel. Most women in this group were receiving rivaroxaban.

Rivaroxaban was the most commonly prescribed anticoagulant in the entire cohort (41%), followed by warfarin (34%) and apixaban (25%).

At the time of anticoagulant prescription, 12% of women reported a history of heavy menstrual bleeding, and 28% did not. For most patients – 60% – there was no discussion of menstrual history documented.

Six months after starting oral anticoagulant therapy, 29% of patients required treatment for heavy menstrual bleeding. For 71% of patients, there was no documentation on the treatment of heavy menstrual bleeding.

Treatment for heavy menstrual bleeding was required in 33% of patients on rivaroxaban, 24% of those on apixaban, and 29% of those on warfarin, a significant difference (P less than .001).

“Rates of heavy menstrual bleeding … are higher in rivaroxaban users,” Dr. Samuelson Bannow said. “This is not the first study to demonstrate this. However, [the rate of heavy menstrual bleeding in this study] is still a lot lower than we would expect based on past levels with warfarin. This tells us we’re probably missing a lot of heavy menstrual bleeding. That’s not too surprising considering how few providers are actually asking about the menses.”

Dr. Samuelson Bannow and colleagues disclosed no conflicts of interest.

jensmith@mdedge.com

SOURCE: Samuelson Bannow BT et al. ASH 2019, Abstract 60.

ORLANDO – A small study suggests health care providers may fail to ask patients about heavy menstrual bleeding before or during treatment with oral anticoagulants.

Jennifer Smith/MDedge News

Researchers performed a chart review at a single center, which indicated that 60% of women were not asked about heavy menstrual bleeding before they were prescribed an oral anticoagulant.

Six months after the women started anticoagulant therapy, 29% required treatment for heavy menstrual bleeding. Charts for the remaining 71% of women contained no information about heavy menstrual bleeding.

“We were unable to distinguish between true absence of heavy menstrual bleeding and absence of reporting,” said Bethany T. Samuelson Bannow, MD, of Oregon Health & Science University, Portland.

Dr. Samuelson Bannow presented these findings at the annual meeting of the American Society of Hematology.

She explained that heavy menstrual bleeding is defined as more than 80 mL of blood loss per cycle. It affects 10%-15% of women in their lifetime, and anticoagulants increase the risk of heavy menstrual bleeding.

Studies have shown that heavy menstrual bleeding occurs in 22%-65% of women treated with vitamin K agonists and 20%-27% of women treated with rivaroxaban (Blood. 2017;130[24]:2603-9). However, many anticoagulant studies don’t include heavy menstrual bleeding as an outcome.

To gain more insight, Dr. Samuelson Bannow and colleagues conducted a chart review. Their study included 236 women of reproductive age treated at Oregon Health & Science University between Jan. 1, 2012, and Dec. 31, 2018.

The patients’ median age was 37 years (range, 18-50 years). Most patients (67%) were receiving an oral anticoagulant for venous thromboembolism. The rest were on anticoagulant therapy for arterial thrombosis (6%), atrial fibrillation (6%), a mechanical valve (1%), or “other” reasons (20%).

Dr. Samuelson Bannow said the other group was “almost exclusively women who were receiving prophylaxis” postoperatively or for travel. Most women in this group were receiving rivaroxaban.

Rivaroxaban was the most commonly prescribed anticoagulant in the entire cohort (41%), followed by warfarin (34%) and apixaban (25%).

At the time of anticoagulant prescription, 12% of women reported a history of heavy menstrual bleeding, and 28% did not. For most patients – 60% – there was no discussion of menstrual history documented.

Six months after starting oral anticoagulant therapy, 29% of patients required treatment for heavy menstrual bleeding. For 71% of patients, there was no documentation on the treatment of heavy menstrual bleeding.

Treatment for heavy menstrual bleeding was required in 33% of patients on rivaroxaban, 24% of those on apixaban, and 29% of those on warfarin, a significant difference (P less than .001).

“Rates of heavy menstrual bleeding … are higher in rivaroxaban users,” Dr. Samuelson Bannow said. “This is not the first study to demonstrate this. However, [the rate of heavy menstrual bleeding in this study] is still a lot lower than we would expect based on past levels with warfarin. This tells us we’re probably missing a lot of heavy menstrual bleeding. That’s not too surprising considering how few providers are actually asking about the menses.”

Dr. Samuelson Bannow and colleagues disclosed no conflicts of interest.

jensmith@mdedge.com

SOURCE: Samuelson Bannow BT et al. ASH 2019, Abstract 60.

ORLANDO – A small study suggests health care providers may fail to ask patients about heavy menstrual bleeding before or during treatment with oral anticoagulants.

Jennifer Smith/MDedge News

Researchers performed a chart review at a single center, which indicated that 60% of women were not asked about heavy menstrual bleeding before they were prescribed an oral anticoagulant.

Six months after the women started anticoagulant therapy, 29% required treatment for heavy menstrual bleeding. Charts for the remaining 71% of women contained no information about heavy menstrual bleeding.

“We were unable to distinguish between true absence of heavy menstrual bleeding and absence of reporting,” said Bethany T. Samuelson Bannow, MD, of Oregon Health & Science University, Portland.

Dr. Samuelson Bannow presented these findings at the annual meeting of the American Society of Hematology.

She explained that heavy menstrual bleeding is defined as more than 80 mL of blood loss per cycle. It affects 10%-15% of women in their lifetime, and anticoagulants increase the risk of heavy menstrual bleeding.

Studies have shown that heavy menstrual bleeding occurs in 22%-65% of women treated with vitamin K agonists and 20%-27% of women treated with rivaroxaban (Blood. 2017;130[24]:2603-9). However, many anticoagulant studies don’t include heavy menstrual bleeding as an outcome.

To gain more insight, Dr. Samuelson Bannow and colleagues conducted a chart review. Their study included 236 women of reproductive age treated at Oregon Health & Science University between Jan. 1, 2012, and Dec. 31, 2018.

The patients’ median age was 37 years (range, 18-50 years). Most patients (67%) were receiving an oral anticoagulant for venous thromboembolism. The rest were on anticoagulant therapy for arterial thrombosis (6%), atrial fibrillation (6%), a mechanical valve (1%), or “other” reasons (20%).

Dr. Samuelson Bannow said the other group was “almost exclusively women who were receiving prophylaxis” postoperatively or for travel. Most women in this group were receiving rivaroxaban.

Rivaroxaban was the most commonly prescribed anticoagulant in the entire cohort (41%), followed by warfarin (34%) and apixaban (25%).

At the time of anticoagulant prescription, 12% of women reported a history of heavy menstrual bleeding, and 28% did not. For most patients – 60% – there was no discussion of menstrual history documented.

Six months after starting oral anticoagulant therapy, 29% of patients required treatment for heavy menstrual bleeding. For 71% of patients, there was no documentation on the treatment of heavy menstrual bleeding.

Treatment for heavy menstrual bleeding was required in 33% of patients on rivaroxaban, 24% of those on apixaban, and 29% of those on warfarin, a significant difference (P less than .001).

“Rates of heavy menstrual bleeding … are higher in rivaroxaban users,” Dr. Samuelson Bannow said. “This is not the first study to demonstrate this. However, [the rate of heavy menstrual bleeding in this study] is still a lot lower than we would expect based on past levels with warfarin. This tells us we’re probably missing a lot of heavy menstrual bleeding. That’s not too surprising considering how few providers are actually asking about the menses.”

Dr. Samuelson Bannow and colleagues disclosed no conflicts of interest.

jensmith@mdedge.com

SOURCE: Samuelson Bannow BT et al. ASH 2019, Abstract 60.

ORLANDO – The latest American Society of Hematology guideline on venous thromboembolism (VTE) tackles 30 key questions regarding prophylaxis in hospitalized patients undergoing surgery, according to the chair of the guideline panel, who highlighted 9 of those questions during a special session at the society’s annual meeting.

Andrew D. Bowser/MDedge News

The clinical practice guideline, published just about a week before the annual meeting of the American Society of Hematology, focuses mainly on pharmacologic prophylaxis in specific surgical settings, said David R. Anderson, MD, dean of the faculty of medicine of Dalhousie University, Halifax, N.S.

“Our guidelines focused upon clinically important symptomatic outcomes, with less emphasis being placed on asymptomatic deep vein thrombosis detected by screening tests,” Dr. Anderson said.

At the special education session, Dr. Anderson highlighted several specific recommendations on prophylaxis in surgical patients.

Pharmacologic prophylaxis is not recommended for patients experiencing major trauma deemed to be at high risk of bleeding. Its use does reduce risk of symptomatic pulmonary embolism (PE) and deep vein thrombosis (DVT) by about 10 events per 1,000 patients treated; however, Dr. Anderson said, the panel’s opinion was that this benefit was outweighed by increased risk of major bleeding, at 24 events per 1,000 patients treated.

“We do recommend, however that this risk of bleeding must be reevaluated over the course of recovery of patients, and this may change the decision around this intervention over time,” Dr. Anderson told attendees at the special session.

That’s because pharmacologic prophylaxis is recommended in surgical patients at low to moderate risk of bleeding. In this scenario, the incremental risk of major bleeding (14 events per 1,000 patients treated) is outweighed by the benefit of the reduction of symptomatic VTE events, according to Dr. Anderson.

When pharmacologic prophylaxis is used, the panel recommends combined prophylaxis – mechanical prophylaxis in addition to pharmacologic prophylaxis – especially in those patients at high or very high risk of VTE. Evidence shows that the combination approach significantly reduces risk of PE, and strongly suggests it may also reduce risk of symptomatic proximal DVT, Dr. Anderson said.

In surgical patients not receiving pharmacologic prophylaxis, mechanical prophylaxis is recommended over no mechanical prophylaxis, he added. Moreover, in those patients receiving mechanical prophylaxis, the ASH panel recommends use of intermittent compression devices over graduated compression stockings.

The panel comes out against prophylactic inferior vena cava (IVC) filter insertion in the guidelines. Dr. Anderson said that the “small reduction” in PE risk seen in observational studies is outweighed by increased risk of DVT, and a resulting trend for increased mortality, associated with insertion of the devices.

“We did not consider other risks of IVC filters such as filter embolization or perforation, which again would be complications that would support our recommendation against routine use of these devices in patients undergoing major surgery,” he said.

In terms of the type of pharmacologic prophylaxis to use, the panel said low-molecular-weight heparin or unfractionated heparin would be reasonable choices in this setting. Available data do not demonstrate any significant differences between these choices for major clinical outcomes, Dr. Anderson added.

The guideline also addresses duration of pharmacologic prophylaxis, stating that extended prophylaxis – of at least 3 weeks – is favored over short-term prophylaxis, or up to 2 weeks of treatment. The extended approach significantly reduces risk of symptomatic PE and proximal DVT, though most of the supporting data come from studies of major joint arthroplasty and major general surgical procedures for patients with cancer. “We need more studies in other clinical areas to examine this particular question,” Dr. Anderson said.

The guideline on prophylaxis in surgical patients was published in Blood Advances (2019 Dec 3;3[23]:3898-944). Six other ASH VTE guidelines, all published in 2018, covered prophylaxis in medical patients, diagnosis, VTE in pregnancy, optimal anticoagulation, heparin-induced thrombocytopenia, and pediatric considerations. The guidelines are available on the ASH website.

Dr. Anderson reported having no relevant conflicts of interest.

ORLANDO – The latest American Society of Hematology guideline on venous thromboembolism (VTE) tackles 30 key questions regarding prophylaxis in hospitalized patients undergoing surgery, according to the chair of the guideline panel, who highlighted 9 of those questions during a special session at the society’s annual meeting.

Andrew D. Bowser/MDedge News

The clinical practice guideline, published just about a week before the annual meeting of the American Society of Hematology, focuses mainly on pharmacologic prophylaxis in specific surgical settings, said David R. Anderson, MD, dean of the faculty of medicine of Dalhousie University, Halifax, N.S.

“Our guidelines focused upon clinically important symptomatic outcomes, with less emphasis being placed on asymptomatic deep vein thrombosis detected by screening tests,” Dr. Anderson said.

At the special education session, Dr. Anderson highlighted several specific recommendations on prophylaxis in surgical patients.

Pharmacologic prophylaxis is not recommended for patients experiencing major trauma deemed to be at high risk of bleeding. Its use does reduce risk of symptomatic pulmonary embolism (PE) and deep vein thrombosis (DVT) by about 10 events per 1,000 patients treated; however, Dr. Anderson said, the panel’s opinion was that this benefit was outweighed by increased risk of major bleeding, at 24 events per 1,000 patients treated.

“We do recommend, however that this risk of bleeding must be reevaluated over the course of recovery of patients, and this may change the decision around this intervention over time,” Dr. Anderson told attendees at the special session.

That’s because pharmacologic prophylaxis is recommended in surgical patients at low to moderate risk of bleeding. In this scenario, the incremental risk of major bleeding (14 events per 1,000 patients treated) is outweighed by the benefit of the reduction of symptomatic VTE events, according to Dr. Anderson.

When pharmacologic prophylaxis is used, the panel recommends combined prophylaxis – mechanical prophylaxis in addition to pharmacologic prophylaxis – especially in those patients at high or very high risk of VTE. Evidence shows that the combination approach significantly reduces risk of PE, and strongly suggests it may also reduce risk of symptomatic proximal DVT, Dr. Anderson said.

In surgical patients not receiving pharmacologic prophylaxis, mechanical prophylaxis is recommended over no mechanical prophylaxis, he added. Moreover, in those patients receiving mechanical prophylaxis, the ASH panel recommends use of intermittent compression devices over graduated compression stockings.

The panel comes out against prophylactic inferior vena cava (IVC) filter insertion in the guidelines. Dr. Anderson said that the “small reduction” in PE risk seen in observational studies is outweighed by increased risk of DVT, and a resulting trend for increased mortality, associated with insertion of the devices.

“We did not consider other risks of IVC filters such as filter embolization or perforation, which again would be complications that would support our recommendation against routine use of these devices in patients undergoing major surgery,” he said.

In terms of the type of pharmacologic prophylaxis to use, the panel said low-molecular-weight heparin or unfractionated heparin would be reasonable choices in this setting. Available data do not demonstrate any significant differences between these choices for major clinical outcomes, Dr. Anderson added.

The guideline also addresses duration of pharmacologic prophylaxis, stating that extended prophylaxis – of at least 3 weeks – is favored over short-term prophylaxis, or up to 2 weeks of treatment. The extended approach significantly reduces risk of symptomatic PE and proximal DVT, though most of the supporting data come from studies of major joint arthroplasty and major general surgical procedures for patients with cancer. “We need more studies in other clinical areas to examine this particular question,” Dr. Anderson said.

The guideline on prophylaxis in surgical patients was published in Blood Advances (2019 Dec 3;3[23]:3898-944). Six other ASH VTE guidelines, all published in 2018, covered prophylaxis in medical patients, diagnosis, VTE in pregnancy, optimal anticoagulation, heparin-induced thrombocytopenia, and pediatric considerations. The guidelines are available on the ASH website.

Dr. Anderson reported having no relevant conflicts of interest.

ORLANDO – The latest American Society of Hematology guideline on venous thromboembolism (VTE) tackles 30 key questions regarding prophylaxis in hospitalized patients undergoing surgery, according to the chair of the guideline panel, who highlighted 9 of those questions during a special session at the society’s annual meeting.

Andrew D. Bowser/MDedge News

The clinical practice guideline, published just about a week before the annual meeting of the American Society of Hematology, focuses mainly on pharmacologic prophylaxis in specific surgical settings, said David R. Anderson, MD, dean of the faculty of medicine of Dalhousie University, Halifax, N.S.

“Our guidelines focused upon clinically important symptomatic outcomes, with less emphasis being placed on asymptomatic deep vein thrombosis detected by screening tests,” Dr. Anderson said.

At the special education session, Dr. Anderson highlighted several specific recommendations on prophylaxis in surgical patients.

Pharmacologic prophylaxis is not recommended for patients experiencing major trauma deemed to be at high risk of bleeding. Its use does reduce risk of symptomatic pulmonary embolism (PE) and deep vein thrombosis (DVT) by about 10 events per 1,000 patients treated; however, Dr. Anderson said, the panel’s opinion was that this benefit was outweighed by increased risk of major bleeding, at 24 events per 1,000 patients treated.

“We do recommend, however that this risk of bleeding must be reevaluated over the course of recovery of patients, and this may change the decision around this intervention over time,” Dr. Anderson told attendees at the special session.

That’s because pharmacologic prophylaxis is recommended in surgical patients at low to moderate risk of bleeding. In this scenario, the incremental risk of major bleeding (14 events per 1,000 patients treated) is outweighed by the benefit of the reduction of symptomatic VTE events, according to Dr. Anderson.

When pharmacologic prophylaxis is used, the panel recommends combined prophylaxis – mechanical prophylaxis in addition to pharmacologic prophylaxis – especially in those patients at high or very high risk of VTE. Evidence shows that the combination approach significantly reduces risk of PE, and strongly suggests it may also reduce risk of symptomatic proximal DVT, Dr. Anderson said.

In surgical patients not receiving pharmacologic prophylaxis, mechanical prophylaxis is recommended over no mechanical prophylaxis, he added. Moreover, in those patients receiving mechanical prophylaxis, the ASH panel recommends use of intermittent compression devices over graduated compression stockings.

The panel comes out against prophylactic inferior vena cava (IVC) filter insertion in the guidelines. Dr. Anderson said that the “small reduction” in PE risk seen in observational studies is outweighed by increased risk of DVT, and a resulting trend for increased mortality, associated with insertion of the devices.

“We did not consider other risks of IVC filters such as filter embolization or perforation, which again would be complications that would support our recommendation against routine use of these devices in patients undergoing major surgery,” he said.

In terms of the type of pharmacologic prophylaxis to use, the panel said low-molecular-weight heparin or unfractionated heparin would be reasonable choices in this setting. Available data do not demonstrate any significant differences between these choices for major clinical outcomes, Dr. Anderson added.

The guideline also addresses duration of pharmacologic prophylaxis, stating that extended prophylaxis – of at least 3 weeks – is favored over short-term prophylaxis, or up to 2 weeks of treatment. The extended approach significantly reduces risk of symptomatic PE and proximal DVT, though most of the supporting data come from studies of major joint arthroplasty and major general surgical procedures for patients with cancer. “We need more studies in other clinical areas to examine this particular question,” Dr. Anderson said.

The guideline on prophylaxis in surgical patients was published in Blood Advances (2019 Dec 3;3[23]:3898-944). Six other ASH VTE guidelines, all published in 2018, covered prophylaxis in medical patients, diagnosis, VTE in pregnancy, optimal anticoagulation, heparin-induced thrombocytopenia, and pediatric considerations. The guidelines are available on the ASH website.

Dr. Anderson reported having no relevant conflicts of interest.

NEW ORLEANS – Smokers with pulmonary embolism (PE) are more likely to be readmitted to the hospital within 30 days of their index admission, according to a retrospective study.

The rate of readmission was significantly higher among patients with tobacco dependence, and tobacco dependence was independently associated with an increased risk of readmission.

“This is the first study to quantify the increased rate of hospital readmission due to smoking,” said study investigator Kam Sing Ho, MD, of Mount Sinai St. Luke’s and Mount Sinai West, New York.

Dr. Ho and colleagues described this study and its results in a poster presented at the annual meeting of the American College of Chest Physicians.

The researchers analyzed data on 168,891 hospital admissions of adults with PE, 34.2% of whom had tobacco dependence. Patients with and without tobacco dependence were propensity matched for baseline characteristics (n = 24,262 in each group).

The 30-day readmission rate was significantly higher in patients with tobacco dependence than in those without it – 11.0% and 8.9%, respectively (P less than .001). The most common reason for readmission in both groups was PE.

Dr. Ho said the higher readmission rate among patients with tobacco dependence might be explained by the fact that smokers have a higher level of fibrinogen, which may affect blood viscosity and contribute to thrombus formation (Proc Am Thorac Soc. 2005;2[1]:71-7).

The investigators also found that tobacco dependence was an independent predictor of readmission (hazard ratio, 1.43; P less than .001). And the mortality rate was significantly higher after readmission than after index admission – 6.27% and 3.15%, respectively (P less than .001).

The increased risk of readmission and death among smokers highlights the importance of smoking cessation services. Dr. Ho cited previous research suggesting these services are underused in the hospital setting (BMJ Qual Improv Rep. 2014;3[1]:u204964.w2110).

“Given that smoking is a common phenomenon among patients admitted with pulmonary embolism, we suggest that more rigorous smoking cessation services are implemented prior to discharge for all active smokers,” Dr. Ho said. “[P]atients have the right to be informed on the benefits of smoking cessation and the autonomy to choose. Future research will focus on implementing inpatient smoking cessation at our hospital and its effect on local readmission rate, health resources utilization, and mortality.”

Dr. Ho has no relevant relationships to disclose.

jensmith@mdedge.com

SOURCE: Ho KS et al. CHEST 2019 October. doi: 10.1016/j.chest.2019.08.1551.

NEW ORLEANS – Smokers with pulmonary embolism (PE) are more likely to be readmitted to the hospital within 30 days of their index admission, according to a retrospective study.

The rate of readmission was significantly higher among patients with tobacco dependence, and tobacco dependence was independently associated with an increased risk of readmission.

“This is the first study to quantify the increased rate of hospital readmission due to smoking,” said study investigator Kam Sing Ho, MD, of Mount Sinai St. Luke’s and Mount Sinai West, New York.

Dr. Ho and colleagues described this study and its results in a poster presented at the annual meeting of the American College of Chest Physicians.

The researchers analyzed data on 168,891 hospital admissions of adults with PE, 34.2% of whom had tobacco dependence. Patients with and without tobacco dependence were propensity matched for baseline characteristics (n = 24,262 in each group).

The 30-day readmission rate was significantly higher in patients with tobacco dependence than in those without it – 11.0% and 8.9%, respectively (P less than .001). The most common reason for readmission in both groups was PE.

Dr. Ho said the higher readmission rate among patients with tobacco dependence might be explained by the fact that smokers have a higher level of fibrinogen, which may affect blood viscosity and contribute to thrombus formation (Proc Am Thorac Soc. 2005;2[1]:71-7).

The investigators also found that tobacco dependence was an independent predictor of readmission (hazard ratio, 1.43; P less than .001). And the mortality rate was significantly higher after readmission than after index admission – 6.27% and 3.15%, respectively (P less than .001).

The increased risk of readmission and death among smokers highlights the importance of smoking cessation services. Dr. Ho cited previous research suggesting these services are underused in the hospital setting (BMJ Qual Improv Rep. 2014;3[1]:u204964.w2110).

“Given that smoking is a common phenomenon among patients admitted with pulmonary embolism, we suggest that more rigorous smoking cessation services are implemented prior to discharge for all active smokers,” Dr. Ho said. “[P]atients have the right to be informed on the benefits of smoking cessation and the autonomy to choose. Future research will focus on implementing inpatient smoking cessation at our hospital and its effect on local readmission rate, health resources utilization, and mortality.”

Dr. Ho has no relevant relationships to disclose.

jensmith@mdedge.com

SOURCE: Ho KS et al. CHEST 2019 October. doi: 10.1016/j.chest.2019.08.1551.

NEW ORLEANS – Smokers with pulmonary embolism (PE) are more likely to be readmitted to the hospital within 30 days of their index admission, according to a retrospective study.

The rate of readmission was significantly higher among patients with tobacco dependence, and tobacco dependence was independently associated with an increased risk of readmission.

“This is the first study to quantify the increased rate of hospital readmission due to smoking,” said study investigator Kam Sing Ho, MD, of Mount Sinai St. Luke’s and Mount Sinai West, New York.

Dr. Ho and colleagues described this study and its results in a poster presented at the annual meeting of the American College of Chest Physicians.

The researchers analyzed data on 168,891 hospital admissions of adults with PE, 34.2% of whom had tobacco dependence. Patients with and without tobacco dependence were propensity matched for baseline characteristics (n = 24,262 in each group).

The 30-day readmission rate was significantly higher in patients with tobacco dependence than in those without it – 11.0% and 8.9%, respectively (P less than .001). The most common reason for readmission in both groups was PE.

Dr. Ho said the higher readmission rate among patients with tobacco dependence might be explained by the fact that smokers have a higher level of fibrinogen, which may affect blood viscosity and contribute to thrombus formation (Proc Am Thorac Soc. 2005;2[1]:71-7).

The investigators also found that tobacco dependence was an independent predictor of readmission (hazard ratio, 1.43; P less than .001). And the mortality rate was significantly higher after readmission than after index admission – 6.27% and 3.15%, respectively (P less than .001).

The increased risk of readmission and death among smokers highlights the importance of smoking cessation services. Dr. Ho cited previous research suggesting these services are underused in the hospital setting (BMJ Qual Improv Rep. 2014;3[1]:u204964.w2110).

“Given that smoking is a common phenomenon among patients admitted with pulmonary embolism, we suggest that more rigorous smoking cessation services are implemented prior to discharge for all active smokers,” Dr. Ho said. “[P]atients have the right to be informed on the benefits of smoking cessation and the autonomy to choose. Future research will focus on implementing inpatient smoking cessation at our hospital and its effect on local readmission rate, health resources utilization, and mortality.”

Dr. Ho has no relevant relationships to disclose.

jensmith@mdedge.com

SOURCE: Ho KS et al. CHEST 2019 October. doi: 10.1016/j.chest.2019.08.1551.

AUSTIN, TEX. – Patients with chronic inflammatory demyelinating polyneuropathy (CIDP) who receive intravenous immunoglobulin (IVIg) appear to have an increased risk of thromboembolic events if it is administered with a central venous access device (CVAD) when compared against those without a CVAD, according to a recent study.

Although CVADs can reliably deliver IVIg, they also represent an established risk factor for thromboembolic events, Ami Patel, PhD, a senior epidemiologist at CSL Behring, and colleagues noted on their poster at the annual meeting of the American Association for Neuromuscular and Electrodiagnostic Medicine.

The results suggest a need for physicians to be vigilant about patients’ potential risk factors for thromboembolic events, Dr. Patel said in an interview. Further research is planned, however, because the current study did not control for other risk factors or explore other possible confounding, she said.

Dr. Patel and her associates analyzed U.S. claims data (IBM/Truven MarketScan) from 2006 to 2018 and included all patients with a CIDP diagnosis claim and a postdiagnosis code for IVIg. A code for CVAD up to 2 months before CIDP diagnosis without removal before IVIg treatment ended determined those with CVAD exposure, and thromboembolic events included any codes related to arterial, venous, or vascular prostheses.

The researchers then compared patients in a case-control fashion, matching each one with a CVAD to five patients of similar demographics without a CVAD. Characteristics used for matching included medical insurance type, prescription data availability, sex, age, geographic region, and years enrolled in the database.

Among 7,447 patients with at least one IVIg claim, 11.8% (n = 882) had CVAD exposure and 88.2% (n = 6,565) did not. Of those without a CVAD, 3,642 patients were matched to patients with CVAD. A quarter (25.4%) of patients with a CVAD had a thromboembolic event, compared with 11.2% of matched patients without CVADs (P less than .0001).

In the year leading up to IVIg therapy, 16.9% of those with a CVAD and 10.9% of matched patients without one had a previous thromboembolic event (P less than .0001). Patients with a CVAD also had significantly higher rates of hypertension (51.9% vs. 45.0% with placebo; P less than .001) and anticoagulation therapy (7.0% vs. 5.2% with placebo; P less than .05). Differences between the groups were not significant for diabetes (26.9% vs. 24.2%) and hyperlipidemia (19.1% vs. 17.8%).

Occlusion and stenosis of the carotid artery was the most common arterial thromboembolic outcome, occurring in 5.3% of those with a CVAD and in 2.8% of those without a CVAD. The most common venous thromboembolic event was acute venous embolism and thrombosis of lower-extremity deep vessels, which occurred in 7% of those with a CVAD and in 1.8% of those without.

The researchers also compared inpatient admissions and emergency department visits among those with and without a CVAD; both rates were higher in patients with a CVAD. Visits to the emergency department occurred at a rate of 0.14 events per month for those with a CVAD (2.01 distinct months with a claim) and 0.09 events per month for those without a CVAD (0.65 distinct months with a claim). Patients with a CVAD had 1.44 months with an inpatient admissions claim, in comparison with 0.41 months among matched patients without a CVAD. Inpatient admission frequency per month was 0.14 for those with a CVAD and 0.08 for those without.

The research was funded by CSL Behring. Dr. Patel and two of the other five authors are employees of CSL Behring.

SOURCE: Patel A et al. AANEM 2019, Abstract 94.

AUSTIN, TEX. – Patients with chronic inflammatory demyelinating polyneuropathy (CIDP) who receive intravenous immunoglobulin (IVIg) appear to have an increased risk of thromboembolic events if it is administered with a central venous access device (CVAD) when compared against those without a CVAD, according to a recent study.

Although CVADs can reliably deliver IVIg, they also represent an established risk factor for thromboembolic events, Ami Patel, PhD, a senior epidemiologist at CSL Behring, and colleagues noted on their poster at the annual meeting of the American Association for Neuromuscular and Electrodiagnostic Medicine.

The results suggest a need for physicians to be vigilant about patients’ potential risk factors for thromboembolic events, Dr. Patel said in an interview. Further research is planned, however, because the current study did not control for other risk factors or explore other possible confounding, she said.

Dr. Patel and her associates analyzed U.S. claims data (IBM/Truven MarketScan) from 2006 to 2018 and included all patients with a CIDP diagnosis claim and a postdiagnosis code for IVIg. A code for CVAD up to 2 months before CIDP diagnosis without removal before IVIg treatment ended determined those with CVAD exposure, and thromboembolic events included any codes related to arterial, venous, or vascular prostheses.

The researchers then compared patients in a case-control fashion, matching each one with a CVAD to five patients of similar demographics without a CVAD. Characteristics used for matching included medical insurance type, prescription data availability, sex, age, geographic region, and years enrolled in the database.

Among 7,447 patients with at least one IVIg claim, 11.8% (n = 882) had CVAD exposure and 88.2% (n = 6,565) did not. Of those without a CVAD, 3,642 patients were matched to patients with CVAD. A quarter (25.4%) of patients with a CVAD had a thromboembolic event, compared with 11.2% of matched patients without CVADs (P less than .0001).

In the year leading up to IVIg therapy, 16.9% of those with a CVAD and 10.9% of matched patients without one had a previous thromboembolic event (P less than .0001). Patients with a CVAD also had significantly higher rates of hypertension (51.9% vs. 45.0% with placebo; P less than .001) and anticoagulation therapy (7.0% vs. 5.2% with placebo; P less than .05). Differences between the groups were not significant for diabetes (26.9% vs. 24.2%) and hyperlipidemia (19.1% vs. 17.8%).

Occlusion and stenosis of the carotid artery was the most common arterial thromboembolic outcome, occurring in 5.3% of those with a CVAD and in 2.8% of those without a CVAD. The most common venous thromboembolic event was acute venous embolism and thrombosis of lower-extremity deep vessels, which occurred in 7% of those with a CVAD and in 1.8% of those without.

The researchers also compared inpatient admissions and emergency department visits among those with and without a CVAD; both rates were higher in patients with a CVAD. Visits to the emergency department occurred at a rate of 0.14 events per month for those with a CVAD (2.01 distinct months with a claim) and 0.09 events per month for those without a CVAD (0.65 distinct months with a claim). Patients with a CVAD had 1.44 months with an inpatient admissions claim, in comparison with 0.41 months among matched patients without a CVAD. Inpatient admission frequency per month was 0.14 for those with a CVAD and 0.08 for those without.

The research was funded by CSL Behring. Dr. Patel and two of the other five authors are employees of CSL Behring.

SOURCE: Patel A et al. AANEM 2019, Abstract 94.

AUSTIN, TEX. – Patients with chronic inflammatory demyelinating polyneuropathy (CIDP) who receive intravenous immunoglobulin (IVIg) appear to have an increased risk of thromboembolic events if it is administered with a central venous access device (CVAD) when compared against those without a CVAD, according to a recent study.

Although CVADs can reliably deliver IVIg, they also represent an established risk factor for thromboembolic events, Ami Patel, PhD, a senior epidemiologist at CSL Behring, and colleagues noted on their poster at the annual meeting of the American Association for Neuromuscular and Electrodiagnostic Medicine.

The results suggest a need for physicians to be vigilant about patients’ potential risk factors for thromboembolic events, Dr. Patel said in an interview. Further research is planned, however, because the current study did not control for other risk factors or explore other possible confounding, she said.

Dr. Patel and her associates analyzed U.S. claims data (IBM/Truven MarketScan) from 2006 to 2018 and included all patients with a CIDP diagnosis claim and a postdiagnosis code for IVIg. A code for CVAD up to 2 months before CIDP diagnosis without removal before IVIg treatment ended determined those with CVAD exposure, and thromboembolic events included any codes related to arterial, venous, or vascular prostheses.

The researchers then compared patients in a case-control fashion, matching each one with a CVAD to five patients of similar demographics without a CVAD. Characteristics used for matching included medical insurance type, prescription data availability, sex, age, geographic region, and years enrolled in the database.

Among 7,447 patients with at least one IVIg claim, 11.8% (n = 882) had CVAD exposure and 88.2% (n = 6,565) did not. Of those without a CVAD, 3,642 patients were matched to patients with CVAD. A quarter (25.4%) of patients with a CVAD had a thromboembolic event, compared with 11.2% of matched patients without CVADs (P less than .0001).

In the year leading up to IVIg therapy, 16.9% of those with a CVAD and 10.9% of matched patients without one had a previous thromboembolic event (P less than .0001). Patients with a CVAD also had significantly higher rates of hypertension (51.9% vs. 45.0% with placebo; P less than .001) and anticoagulation therapy (7.0% vs. 5.2% with placebo; P less than .05). Differences between the groups were not significant for diabetes (26.9% vs. 24.2%) and hyperlipidemia (19.1% vs. 17.8%).

Occlusion and stenosis of the carotid artery was the most common arterial thromboembolic outcome, occurring in 5.3% of those with a CVAD and in 2.8% of those without a CVAD. The most common venous thromboembolic event was acute venous embolism and thrombosis of lower-extremity deep vessels, which occurred in 7% of those with a CVAD and in 1.8% of those without.

The researchers also compared inpatient admissions and emergency department visits among those with and without a CVAD; both rates were higher in patients with a CVAD. Visits to the emergency department occurred at a rate of 0.14 events per month for those with a CVAD (2.01 distinct months with a claim) and 0.09 events per month for those without a CVAD (0.65 distinct months with a claim). Patients with a CVAD had 1.44 months with an inpatient admissions claim, in comparison with 0.41 months among matched patients without a CVAD. Inpatient admission frequency per month was 0.14 for those with a CVAD and 0.08 for those without.

The research was funded by CSL Behring. Dr. Patel and two of the other five authors are employees of CSL Behring.

SOURCE: Patel A et al. AANEM 2019, Abstract 94.

The Food and Drug Administration has approved rivaroxaban (Xarelto) for the prevention of venous thromboembolism (VTE) in hospitalized, acutely ill patients at risk for thromboembolic complications who do not have a high bleeding risk, according to a release from Janssen.

FDA approval for the new indication is based on results from the phase 3 MAGELLAN and MARINER trials, which included more than 20,000 hospitalized, acutely ill patients. In MAGELLAN, rivaroxaban demonstrated noninferiority to enoxaparin, a low-molecular-weight heparin, in short-term usage, and it was superior over the long term, compared with short-term enoxaparin followed by placebo.

While VTE and VTE-related deaths were not reduced in MARINER, compared with placebo, patients who received rivaroxaban did see a significantly reduction in symptomatic VTE with a favorable safety profile.

According to the indication, rivaroxaban can be administered to patients during hospitalization and can be continued after discharge for 31-39 days. The safety profile in MAGELLAN and MARINER was consistent with that already seen, with the most common adverse event being bleeding.

The new indication is the eighth for rivaroxaban, the most of any direct oral anticoagulant; six of these are specifically for the treatment, prevention, and reduction in the risk of VTE recurrence.

“With this new approval, Xarelto as an oral-only option now has the potential to change how acutely ill medical patients are managed for the prevention of blood clots, both in the hospital and for an extended period after discharge,” said Alex C. Spyropoulos, MD, of Northwell Health at Lenox Hill Hospital, New York, and a member of the steering committee of the MAGELLAN trial.

Find the full press release on the Janssen website.

lfranki@mdedge.com

The Food and Drug Administration has approved rivaroxaban (Xarelto) for the prevention of venous thromboembolism (VTE) in hospitalized, acutely ill patients at risk for thromboembolic complications who do not have a high bleeding risk, according to a release from Janssen.

FDA approval for the new indication is based on results from the phase 3 MAGELLAN and MARINER trials, which included more than 20,000 hospitalized, acutely ill patients. In MAGELLAN, rivaroxaban demonstrated noninferiority to enoxaparin, a low-molecular-weight heparin, in short-term usage, and it was superior over the long term, compared with short-term enoxaparin followed by placebo.

While VTE and VTE-related deaths were not reduced in MARINER, compared with placebo, patients who received rivaroxaban did see a significantly reduction in symptomatic VTE with a favorable safety profile.

According to the indication, rivaroxaban can be administered to patients during hospitalization and can be continued after discharge for 31-39 days. The safety profile in MAGELLAN and MARINER was consistent with that already seen, with the most common adverse event being bleeding.

The new indication is the eighth for rivaroxaban, the most of any direct oral anticoagulant; six of these are specifically for the treatment, prevention, and reduction in the risk of VTE recurrence.

“With this new approval, Xarelto as an oral-only option now has the potential to change how acutely ill medical patients are managed for the prevention of blood clots, both in the hospital and for an extended period after discharge,” said Alex C. Spyropoulos, MD, of Northwell Health at Lenox Hill Hospital, New York, and a member of the steering committee of the MAGELLAN trial.

Find the full press release on the Janssen website.

lfranki@mdedge.com

The Food and Drug Administration has approved rivaroxaban (Xarelto) for the prevention of venous thromboembolism (VTE) in hospitalized, acutely ill patients at risk for thromboembolic complications who do not have a high bleeding risk, according to a release from Janssen.

FDA approval for the new indication is based on results from the phase 3 MAGELLAN and MARINER trials, which included more than 20,000 hospitalized, acutely ill patients. In MAGELLAN, rivaroxaban demonstrated noninferiority to enoxaparin, a low-molecular-weight heparin, in short-term usage, and it was superior over the long term, compared with short-term enoxaparin followed by placebo.

While VTE and VTE-related deaths were not reduced in MARINER, compared with placebo, patients who received rivaroxaban did see a significantly reduction in symptomatic VTE with a favorable safety profile.

According to the indication, rivaroxaban can be administered to patients during hospitalization and can be continued after discharge for 31-39 days. The safety profile in MAGELLAN and MARINER was consistent with that already seen, with the most common adverse event being bleeding.

The new indication is the eighth for rivaroxaban, the most of any direct oral anticoagulant; six of these are specifically for the treatment, prevention, and reduction in the risk of VTE recurrence.

“With this new approval, Xarelto as an oral-only option now has the potential to change how acutely ill medical patients are managed for the prevention of blood clots, both in the hospital and for an extended period after discharge,” said Alex C. Spyropoulos, MD, of Northwell Health at Lenox Hill Hospital, New York, and a member of the steering committee of the MAGELLAN trial.

Find the full press release on the Janssen website.

lfranki@mdedge.com

Hospitalized patients with inflammatory bowel diseases (IBD) are most likely to be readmitted for venous thromboembolism (VTE) within 60 days of discharge, according to a new study that analyzed 5 years of U.S. readmissions data.

“Given increased thrombotic risk postdischarge, as well as overall safety of VTE prophylaxis, extending prophylaxis for those at highest risk may have significant benefits,” wrote Adam S. Faye, MD, of Columbia University, and coauthors. The study was published in Clinical Gastroenterology and Hepatology.

To determine which IBD patients would be most in need of postdischarge VTE prophylaxis, as well as when to administer it, the researchers analyzed 2010-2014 data from the Nationwide Readmissions Database (NRD). They found a total of 872,122 index admissions for IBD patients; 4% of those patients had a prior VTE. Of the index admissions, 1,160 led to a VTE readmission within 90 days. Readmitted patients had a relatively equal proportion of ulcerative colitis (n = 522) and Crohn’s disease (n = 638).

More than 90% of VTE readmissions occurred within 60 days of discharge; the risk was highest over the first 10 days and then decreased in each ensuing 10-day period until a slight increase at the 81- to 90-day period. All patients over age 30 had higher rates of readmission than those of patients under age 18, with the highest risk in patients between the ages of 66 and 80 years (risk ratio 4.04; 95% confidence interval, 2.54-6.44, P less than .01). Women were at lower risk (RR 0.82; 95% CI, 0.73-0.92, P less than .01). Higher risks of readmission were also associated with being on Medicare (RR 1.39; 95% CI, 1.23-1.58, P less than .01) compared with being on private insurance and being cared for at a large hospital (RR 1.26; 95% CI, 1.04-1.52, P = .02) compared with a small hospital.

The highest risk of VTE readmission was associated with a prior history of VTE (RR 2.89; 95% CI, 2.40-3.48, P less than .01), having two or more comorbidities (RR 2.57; 95% CI, 2.11-3.12, P less than .01) and having a Clostridioides difficile infection as of index admission (RR 1.90; 95% CI, 1.51-2.38, P less than .01). In addition, increased risk was associated with being discharged to a nursing or care facility (RR 1.85; 95% CI, 1.56-2.20, P less than .01) or home with health services (RR 2.05; 95% CI, 1.78-2.38, P less than .01) compared with a routine discharge.

In their multivariable analysis, similar factors such as a history of VTE (adjusted RR 2.41; 95% CI, 1.99-2.90, P less than .01), two or more comorbidities (aRR 1.78; 95% CI, 1.44-2.20, P less than .01) and C. difficile infection (aRR 1.47; 95% CI, 1.17-1.85, P less than.01) continued to be associated with higher risk of VTE readmission.

SOURCE: Faye AS et al. Clin Gastroenterol Hepatol. 2019 July 20. doi: 10.1016/j.cgh.2019.07.028.

Hospitalized patients with inflammatory bowel diseases (IBD) are most likely to be readmitted for venous thromboembolism (VTE) within 60 days of discharge, according to a new study that analyzed 5 years of U.S. readmissions data.

“Given increased thrombotic risk postdischarge, as well as overall safety of VTE prophylaxis, extending prophylaxis for those at highest risk may have significant benefits,” wrote Adam S. Faye, MD, of Columbia University, and coauthors. The study was published in Clinical Gastroenterology and Hepatology.

To determine which IBD patients would be most in need of postdischarge VTE prophylaxis, as well as when to administer it, the researchers analyzed 2010-2014 data from the Nationwide Readmissions Database (NRD). They found a total of 872,122 index admissions for IBD patients; 4% of those patients had a prior VTE. Of the index admissions, 1,160 led to a VTE readmission within 90 days. Readmitted patients had a relatively equal proportion of ulcerative colitis (n = 522) and Crohn’s disease (n = 638).

More than 90% of VTE readmissions occurred within 60 days of discharge; the risk was highest over the first 10 days and then decreased in each ensuing 10-day period until a slight increase at the 81- to 90-day period. All patients over age 30 had higher rates of readmission than those of patients under age 18, with the highest risk in patients between the ages of 66 and 80 years (risk ratio 4.04; 95% confidence interval, 2.54-6.44, P less than .01). Women were at lower risk (RR 0.82; 95% CI, 0.73-0.92, P less than .01). Higher risks of readmission were also associated with being on Medicare (RR 1.39; 95% CI, 1.23-1.58, P less than .01) compared with being on private insurance and being cared for at a large hospital (RR 1.26; 95% CI, 1.04-1.52, P = .02) compared with a small hospital.

The highest risk of VTE readmission was associated with a prior history of VTE (RR 2.89; 95% CI, 2.40-3.48, P less than .01), having two or more comorbidities (RR 2.57; 95% CI, 2.11-3.12, P less than .01) and having a Clostridioides difficile infection as of index admission (RR 1.90; 95% CI, 1.51-2.38, P less than .01). In addition, increased risk was associated with being discharged to a nursing or care facility (RR 1.85; 95% CI, 1.56-2.20, P less than .01) or home with health services (RR 2.05; 95% CI, 1.78-2.38, P less than .01) compared with a routine discharge.

In their multivariable analysis, similar factors such as a history of VTE (adjusted RR 2.41; 95% CI, 1.99-2.90, P less than .01), two or more comorbidities (aRR 1.78; 95% CI, 1.44-2.20, P less than .01) and C. difficile infection (aRR 1.47; 95% CI, 1.17-1.85, P less than.01) continued to be associated with higher risk of VTE readmission.

SOURCE: Faye AS et al. Clin Gastroenterol Hepatol. 2019 July 20. doi: 10.1016/j.cgh.2019.07.028.

Hospitalized patients with inflammatory bowel diseases (IBD) are most likely to be readmitted for venous thromboembolism (VTE) within 60 days of discharge, according to a new study that analyzed 5 years of U.S. readmissions data.

“Given increased thrombotic risk postdischarge, as well as overall safety of VTE prophylaxis, extending prophylaxis for those at highest risk may have significant benefits,” wrote Adam S. Faye, MD, of Columbia University, and coauthors. The study was published in Clinical Gastroenterology and Hepatology.

To determine which IBD patients would be most in need of postdischarge VTE prophylaxis, as well as when to administer it, the researchers analyzed 2010-2014 data from the Nationwide Readmissions Database (NRD). They found a total of 872,122 index admissions for IBD patients; 4% of those patients had a prior VTE. Of the index admissions, 1,160 led to a VTE readmission within 90 days. Readmitted patients had a relatively equal proportion of ulcerative colitis (n = 522) and Crohn’s disease (n = 638).

More than 90% of VTE readmissions occurred within 60 days of discharge; the risk was highest over the first 10 days and then decreased in each ensuing 10-day period until a slight increase at the 81- to 90-day period. All patients over age 30 had higher rates of readmission than those of patients under age 18, with the highest risk in patients between the ages of 66 and 80 years (risk ratio 4.04; 95% confidence interval, 2.54-6.44, P less than .01). Women were at lower risk (RR 0.82; 95% CI, 0.73-0.92, P less than .01). Higher risks of readmission were also associated with being on Medicare (RR 1.39; 95% CI, 1.23-1.58, P less than .01) compared with being on private insurance and being cared for at a large hospital (RR 1.26; 95% CI, 1.04-1.52, P = .02) compared with a small hospital.

The highest risk of VTE readmission was associated with a prior history of VTE (RR 2.89; 95% CI, 2.40-3.48, P less than .01), having two or more comorbidities (RR 2.57; 95% CI, 2.11-3.12, P less than .01) and having a Clostridioides difficile infection as of index admission (RR 1.90; 95% CI, 1.51-2.38, P less than .01). In addition, increased risk was associated with being discharged to a nursing or care facility (RR 1.85; 95% CI, 1.56-2.20, P less than .01) or home with health services (RR 2.05; 95% CI, 1.78-2.38, P less than .01) compared with a routine discharge.

In their multivariable analysis, similar factors such as a history of VTE (adjusted RR 2.41; 95% CI, 1.99-2.90, P less than .01), two or more comorbidities (aRR 1.78; 95% CI, 1.44-2.20, P less than .01) and C. difficile infection (aRR 1.47; 95% CI, 1.17-1.85, P less than.01) continued to be associated with higher risk of VTE readmission.

SOURCE: Faye AS et al. Clin Gastroenterol Hepatol. 2019 July 20. doi: 10.1016/j.cgh.2019.07.028.

MELBOURNE – A venous thromboembolism risk score that combines clinical risk factors, such as lymphoma type and stage, along with genetic variables, could offer a better way to predict venous thromboembolism in patients with lymphoma, according to new findings presented at the International Society on Thrombosis and Haemostasis congress.

Cristina Pascual, MD, of the Hospital Universitario Gregorio Marañon in Madrid presented data from a development and validation study of a clinical-genetic risk model for thrombosis in lymphoma in 208 patients with lymphoma, 31 of whom experienced a venous thromboembolic event.

While the relationship between cancer and increased thrombosis risk is well recognized, lymphoma patients are at particularly high risk, with an estimated thrombosis incidence of 5%-10%, Dr. Pascual said.

Currently, the Khorana score is the most validated risk score for thrombosis in patients with solid tumors, using factors such as tumor site, platelet and leukocyte count, hemoglobin levels, and body mass index. However, Dr. Pascual pointed out that just 10% of the validation cohort for the Khorana score were lymphoma patients, and it had previously been found to be not as useful for that population.

More recently, researchers had developed the ThroLy score for predicting thromboembolic events specifically in patients with lymphoma, incorporating clinical variables such as mediastinal involvement and extranodal localization.

Another group took a different approach by incorporating genetic risk factors for thrombosis to create Thrombo inCode-Oncology (TiC-Onco) for solid tumors. This assessment included four genetic variants known to increase the risk of thromboembolic events in cancer patients, as well as the clinical risk factors of body mass index, family history of thrombosis, primary tumor site, and tumor stage.

Dr. Pascual and colleagues developed a unique risk factor model that combined both the ThroLy and TiC-Onco elements.

In 208 patients with lymphoma who were not receiving anticoagulant treatment, researchers identified five clinical factors that were most predictive of venous thrombosis: a history of thrombosis, immobilization for more than 3 days, lymphoma type, Ann Arbor score for lymphoma stage, and mediastinal extension.

They combined these clinical risk factors with the genetic risk factors from the TiC-Onco score to develop the TiC-Onco–associated lymphoma score (TiC-Lympho).

When validated in the same group of patients, the TiC-Lympho score had a sensitivity of 93.55%, a specificity of 54.49%, positive predictive value of 26.36%, and negative predictive value of 97.94%.

The researchers also compared TiC-Lympho’s performance with that of the ThroLy and TiC-Onco models, and found it performed better on sensitivity and negative predictive value. The area under the curve for TiC-Lympho (0.783) was significantly higher than that seen with the other two risk models.

Session chair Kate Burbury, MBBS, of the Peter MacCallum Cancer Centre in Melbourne, raised the question of how the score – and particularly the genetic risk factor assessment – might be applied in the real-world clinical setting.

In an interview, Dr. Pascual said the findings represented preliminary data only, so the model was not ready to be applied to clinical practice yet. She also stressed that this was based on retrospective data, and needed to be further validated in other cohorts of lymphoma patients.

No conflicts of interest were reported.

SOURCE: Pascual C et al. 2019 ISTH Congress, Abstract OC 41.3.

MELBOURNE – A venous thromboembolism risk score that combines clinical risk factors, such as lymphoma type and stage, along with genetic variables, could offer a better way to predict venous thromboembolism in patients with lymphoma, according to new findings presented at the International Society on Thrombosis and Haemostasis congress.

Cristina Pascual, MD, of the Hospital Universitario Gregorio Marañon in Madrid presented data from a development and validation study of a clinical-genetic risk model for thrombosis in lymphoma in 208 patients with lymphoma, 31 of whom experienced a venous thromboembolic event.

While the relationship between cancer and increased thrombosis risk is well recognized, lymphoma patients are at particularly high risk, with an estimated thrombosis incidence of 5%-10%, Dr. Pascual said.

Currently, the Khorana score is the most validated risk score for thrombosis in patients with solid tumors, using factors such as tumor site, platelet and leukocyte count, hemoglobin levels, and body mass index. However, Dr. Pascual pointed out that just 10% of the validation cohort for the Khorana score were lymphoma patients, and it had previously been found to be not as useful for that population.

More recently, researchers had developed the ThroLy score for predicting thromboembolic events specifically in patients with lymphoma, incorporating clinical variables such as mediastinal involvement and extranodal localization.

Another group took a different approach by incorporating genetic risk factors for thrombosis to create Thrombo inCode-Oncology (TiC-Onco) for solid tumors. This assessment included four genetic variants known to increase the risk of thromboembolic events in cancer patients, as well as the clinical risk factors of body mass index, family history of thrombosis, primary tumor site, and tumor stage.

Dr. Pascual and colleagues developed a unique risk factor model that combined both the ThroLy and TiC-Onco elements.

In 208 patients with lymphoma who were not receiving anticoagulant treatment, researchers identified five clinical factors that were most predictive of venous thrombosis: a history of thrombosis, immobilization for more than 3 days, lymphoma type, Ann Arbor score for lymphoma stage, and mediastinal extension.

They combined these clinical risk factors with the genetic risk factors from the TiC-Onco score to develop the TiC-Onco–associated lymphoma score (TiC-Lympho).

When validated in the same group of patients, the TiC-Lympho score had a sensitivity of 93.55%, a specificity of 54.49%, positive predictive value of 26.36%, and negative predictive value of 97.94%.

The researchers also compared TiC-Lympho’s performance with that of the ThroLy and TiC-Onco models, and found it performed better on sensitivity and negative predictive value. The area under the curve for TiC-Lympho (0.783) was significantly higher than that seen with the other two risk models.

Session chair Kate Burbury, MBBS, of the Peter MacCallum Cancer Centre in Melbourne, raised the question of how the score – and particularly the genetic risk factor assessment – might be applied in the real-world clinical setting.

In an interview, Dr. Pascual said the findings represented preliminary data only, so the model was not ready to be applied to clinical practice yet. She also stressed that this was based on retrospective data, and needed to be further validated in other cohorts of lymphoma patients.

No conflicts of interest were reported.

SOURCE: Pascual C et al. 2019 ISTH Congress, Abstract OC 41.3.

MELBOURNE – A venous thromboembolism risk score that combines clinical risk factors, such as lymphoma type and stage, along with genetic variables, could offer a better way to predict venous thromboembolism in patients with lymphoma, according to new findings presented at the International Society on Thrombosis and Haemostasis congress.

Cristina Pascual, MD, of the Hospital Universitario Gregorio Marañon in Madrid presented data from a development and validation study of a clinical-genetic risk model for thrombosis in lymphoma in 208 patients with lymphoma, 31 of whom experienced a venous thromboembolic event.

While the relationship between cancer and increased thrombosis risk is well recognized, lymphoma patients are at particularly high risk, with an estimated thrombosis incidence of 5%-10%, Dr. Pascual said.

Currently, the Khorana score is the most validated risk score for thrombosis in patients with solid tumors, using factors such as tumor site, platelet and leukocyte count, hemoglobin levels, and body mass index. However, Dr. Pascual pointed out that just 10% of the validation cohort for the Khorana score were lymphoma patients, and it had previously been found to be not as useful for that population.

More recently, researchers had developed the ThroLy score for predicting thromboembolic events specifically in patients with lymphoma, incorporating clinical variables such as mediastinal involvement and extranodal localization.

Another group took a different approach by incorporating genetic risk factors for thrombosis to create Thrombo inCode-Oncology (TiC-Onco) for solid tumors. This assessment included four genetic variants known to increase the risk of thromboembolic events in cancer patients, as well as the clinical risk factors of body mass index, family history of thrombosis, primary tumor site, and tumor stage.

Dr. Pascual and colleagues developed a unique risk factor model that combined both the ThroLy and TiC-Onco elements.

In 208 patients with lymphoma who were not receiving anticoagulant treatment, researchers identified five clinical factors that were most predictive of venous thrombosis: a history of thrombosis, immobilization for more than 3 days, lymphoma type, Ann Arbor score for lymphoma stage, and mediastinal extension.

They combined these clinical risk factors with the genetic risk factors from the TiC-Onco score to develop the TiC-Onco–associated lymphoma score (TiC-Lympho).

When validated in the same group of patients, the TiC-Lympho score had a sensitivity of 93.55%, a specificity of 54.49%, positive predictive value of 26.36%, and negative predictive value of 97.94%.

The researchers also compared TiC-Lympho’s performance with that of the ThroLy and TiC-Onco models, and found it performed better on sensitivity and negative predictive value. The area under the curve for TiC-Lympho (0.783) was significantly higher than that seen with the other two risk models.

Session chair Kate Burbury, MBBS, of the Peter MacCallum Cancer Centre in Melbourne, raised the question of how the score – and particularly the genetic risk factor assessment – might be applied in the real-world clinical setting.

In an interview, Dr. Pascual said the findings represented preliminary data only, so the model was not ready to be applied to clinical practice yet. She also stressed that this was based on retrospective data, and needed to be further validated in other cohorts of lymphoma patients.

No conflicts of interest were reported.

SOURCE: Pascual C et al. 2019 ISTH Congress, Abstract OC 41.3.

MELBOURNE – Use of a prophylactic vena cava filter to trap blood clots in severely injured patients does not appear to reduce the risk of pulmonary embolism or death, according to data presented at the International Society on Thrombosis and Haemostasis congress.

Courtesy Wikimedia Commons/Walter Serra, Giuseppe De Iaco, Claudio Reverberi, and Tiziano Gherli/Creative Commons License

The researchers reported the outcomes of a multicenter, controlled trial in which 240 severely injured patients with a contraindication to anticoagulants were randomized to receive a vena cava filter within 72 hours of admission, or no filter. The findings were published simultaneously in the New England Journal of Medicine.

The study showed no significant differences between the filter and no-filter groups in the primary outcome of a composite of symptomatic pulmonary embolism or death from any cause at 90 days after enrollment (13.9% vs. 14.4% respectively, P = .98).

In a prespecified subgroup analysis, researchers examined patients who survived 7 days after injury and did not receive prophylactic anticoagulation in those 7 days. Among this group of patients, none of those who received the vena cava filter experienced a symptomatic pulmonary embolism between day 8 and day 90, but five patients (14.7%) in the no-filter group did.

Filters were left in place for a median duration of 27 days (11-90 days). Among the 122 patients who received a filter – which included two patients in the control group – researchers found trapped thrombi in the filter in six patients.

Transfusion requirements, and the incidence of major and nonmajor bleeding and leg deep vein thrombosis, were similar between the filter and no-filter groups. Seven patients in the filter group (5.7%) required more than one attempt to remove the filter, and in one patient the filter had to be removed surgically.

Kwok M. Ho, PhD, of the department of intensive care medicine at Royal Perth Hospital, Australia, and coauthors wrote that while vena cava filters are widely used in trauma centers to prevent pulmonary embolism in patients at high risk of bleeding, there are conflicting recommendations regarding their use, and most studies so far have been observational.

“Given the cost and risks associated with a vena cava filter, our data suggest that there is no urgency to insert the filter in patients who can be treated with prophylactic anticoagulation within 7 days after injury,” they wrote. “Unnecessary insertion of a vena cava filter has the potential to cause harm.”

However, they noted that patients with multiple, large intracranial hematomas were particularly at risk from bleeding with anticoagulant therapy, and therefore may benefit from the use of a vena cava filter.

The Medical Research Foundation of Royal Perth Hospital and the Western Australian Department of Health funded the study. Dr. Ho reported funding from the Western Australian Department of Health and the Raine Medical Research Foundation to conduct the study, as well as serving as an adviser to Medtronic and Cardinal Health.

SOURCE: Ho KM et al. N Engl J Med. 2019 Jul 7. doi: 10.156/NEJMoa1806515.

MELBOURNE – Use of a prophylactic vena cava filter to trap blood clots in severely injured patients does not appear to reduce the risk of pulmonary embolism or death, according to data presented at the International Society on Thrombosis and Haemostasis congress.

Courtesy Wikimedia Commons/Walter Serra, Giuseppe De Iaco, Claudio Reverberi, and Tiziano Gherli/Creative Commons License

The researchers reported the outcomes of a multicenter, controlled trial in which 240 severely injured patients with a contraindication to anticoagulants were randomized to receive a vena cava filter within 72 hours of admission, or no filter. The findings were published simultaneously in the New England Journal of Medicine.

The study showed no significant differences between the filter and no-filter groups in the primary outcome of a composite of symptomatic pulmonary embolism or death from any cause at 90 days after enrollment (13.9% vs. 14.4% respectively, P = .98).

In a prespecified subgroup analysis, researchers examined patients who survived 7 days after injury and did not receive prophylactic anticoagulation in those 7 days. Among this group of patients, none of those who received the vena cava filter experienced a symptomatic pulmonary embolism between day 8 and day 90, but five patients (14.7%) in the no-filter group did.

Filters were left in place for a median duration of 27 days (11-90 days). Among the 122 patients who received a filter – which included two patients in the control group – researchers found trapped thrombi in the filter in six patients.

Transfusion requirements, and the incidence of major and nonmajor bleeding and leg deep vein thrombosis, were similar between the filter and no-filter groups. Seven patients in the filter group (5.7%) required more than one attempt to remove the filter, and in one patient the filter had to be removed surgically.

Kwok M. Ho, PhD, of the department of intensive care medicine at Royal Perth Hospital, Australia, and coauthors wrote that while vena cava filters are widely used in trauma centers to prevent pulmonary embolism in patients at high risk of bleeding, there are conflicting recommendations regarding their use, and most studies so far have been observational.

“Given the cost and risks associated with a vena cava filter, our data suggest that there is no urgency to insert the filter in patients who can be treated with prophylactic anticoagulation within 7 days after injury,” they wrote. “Unnecessary insertion of a vena cava filter has the potential to cause harm.”

However, they noted that patients with multiple, large intracranial hematomas were particularly at risk from bleeding with anticoagulant therapy, and therefore may benefit from the use of a vena cava filter.

The Medical Research Foundation of Royal Perth Hospital and the Western Australian Department of Health funded the study. Dr. Ho reported funding from the Western Australian Department of Health and the Raine Medical Research Foundation to conduct the study, as well as serving as an adviser to Medtronic and Cardinal Health.

SOURCE: Ho KM et al. N Engl J Med. 2019 Jul 7. doi: 10.156/NEJMoa1806515.

MELBOURNE – Use of a prophylactic vena cava filter to trap blood clots in severely injured patients does not appear to reduce the risk of pulmonary embolism or death, according to data presented at the International Society on Thrombosis and Haemostasis congress.

Courtesy Wikimedia Commons/Walter Serra, Giuseppe De Iaco, Claudio Reverberi, and Tiziano Gherli/Creative Commons License

The researchers reported the outcomes of a multicenter, controlled trial in which 240 severely injured patients with a contraindication to anticoagulants were randomized to receive a vena cava filter within 72 hours of admission, or no filter. The findings were published simultaneously in the New England Journal of Medicine.

The study showed no significant differences between the filter and no-filter groups in the primary outcome of a composite of symptomatic pulmonary embolism or death from any cause at 90 days after enrollment (13.9% vs. 14.4% respectively, P = .98).

In a prespecified subgroup analysis, researchers examined patients who survived 7 days after injury and did not receive prophylactic anticoagulation in those 7 days. Among this group of patients, none of those who received the vena cava filter experienced a symptomatic pulmonary embolism between day 8 and day 90, but five patients (14.7%) in the no-filter group did.

Filters were left in place for a median duration of 27 days (11-90 days). Among the 122 patients who received a filter – which included two patients in the control group – researchers found trapped thrombi in the filter in six patients.

Transfusion requirements, and the incidence of major and nonmajor bleeding and leg deep vein thrombosis, were similar between the filter and no-filter groups. Seven patients in the filter group (5.7%) required more than one attempt to remove the filter, and in one patient the filter had to be removed surgically.

Kwok M. Ho, PhD, of the department of intensive care medicine at Royal Perth Hospital, Australia, and coauthors wrote that while vena cava filters are widely used in trauma centers to prevent pulmonary embolism in patients at high risk of bleeding, there are conflicting recommendations regarding their use, and most studies so far have been observational.

“Given the cost and risks associated with a vena cava filter, our data suggest that there is no urgency to insert the filter in patients who can be treated with prophylactic anticoagulation within 7 days after injury,” they wrote. “Unnecessary insertion of a vena cava filter has the potential to cause harm.”

However, they noted that patients with multiple, large intracranial hematomas were particularly at risk from bleeding with anticoagulant therapy, and therefore may benefit from the use of a vena cava filter.

The Medical Research Foundation of Royal Perth Hospital and the Western Australian Department of Health funded the study. Dr. Ho reported funding from the Western Australian Department of Health and the Raine Medical Research Foundation to conduct the study, as well as serving as an adviser to Medtronic and Cardinal Health.

SOURCE: Ho KM et al. N Engl J Med. 2019 Jul 7. doi: 10.156/NEJMoa1806515.

SAN DIEGO – Patients on rivaroxaban had significantly higher rates of GI bleeding, compared with those taking apixaban or dabigatran, results from a large population-based study showed.

Doug Brunk/MDedge News

“This may be due to the fact that rivaroxaban is administered as a single daily dose as opposed to the other two non–vitamin K anticoagulants [NOACs], which are given twice daily,” lead study author Arnar B. Ingason said at the annual Digestive Disease Week. “This may lead to a greater variance in plasma drug concentration, making these patients more susceptible to bleeding.”

Mr. Ingason, a medical student at the University of Iceland, Reykjavik, said that although several studies have compared warfarin with NOACs, it remains unclear which NOAC has the most favorable GI profile. In an effort to improve the research in this area, he and his associates performed a nationwide, population-based study during March 2014–Jan. 2018 to compare the GI bleeding risk of patients receiving rivaroxaban to that of a combined pool of patients receiving either apixaban or dabigatran. They drew from the Icelandic Medicine Registry, which contains all outpatient drug prescriptions in the country. Next, the researchers linked the personal identification numbers of patients to the Landspitali University diagnoses registry, which includes more than 90% of all patients hospitalized for GI bleeding. They used 1:1 nearest neighbor propensity score for matching and Kaplan-Meier survival estimates and Cox regression to compare rates of GI bleeding. The study outcome of interest was any clinically relevant GI bleeding.

Mr. Ingason reported that the baseline characteristics were similar between the rivaroxaban group and the apixaban/dabigatran group. They matched for several variables, including age, sex, Charlson score, the proportion being anticoagulant naive, moderate to severe renal disease, moderate to severe liver disease, any prior bleeding, and any prior thrombotic events.

During the study period, 3,473 patients received rivaroxaban, 1,901 received apixaban, and 1,086 received dabigatran. After propensity score matching, the researchers compared 2,635 patients who received rivaroxaban with 2,365 patients who received either apixaban or dabigatran. They found that patients in the rivaroxaban group had significantly higher rates of GI bleeding, compared with in the apixaban/dabigatran group (1.2 and. 0.6 events per 100 patient-years, respectively). This yielded a hazard ratio of 2.02, “which means that patients receiving rivaroxaban are twice as likely to get GI bleeding compared to patients on apixaban or dabigatran,” Mr. Ingason said. When the researchers examined the entire unmatched cohort of patients, the rivaroxaban group also had significantly higher rates of GI bleeding, compared with the apixaban/dabigatran group (1.0 and 0.6 events per 100 patient-years; HR, 1.75).

Mr. Ingason and his colleagues observed that patients in the rivaroxaban group had higher rates of GI bleeding, compared with the apixaban/dabigatran group, during the entire follow-up period. At the end of year 4, the rivaroxaban group had a 4% cumulative event rate of GI bleeding, compared with 1.8% for the apixaban/dabigatran group, a highly significant difference at P = .0057).

When a meeting attendee asked Mr. Ingason why patients taking apixaban or dabigatran were combined into one group, he said that it was done to increase the power of their study. “Our theory was that rivaroxaban was different because it is administered as a single daily dose, while the others are given twice daily,” he said. The researchers reported having no financial disclosures.

dbrunk@mdedge.com

SAN DIEGO – Patients on rivaroxaban had significantly higher rates of GI bleeding, compared with those taking apixaban or dabigatran, results from a large population-based study showed.

Doug Brunk/MDedge News

“This may be due to the fact that rivaroxaban is administered as a single daily dose as opposed to the other two non–vitamin K anticoagulants [NOACs], which are given twice daily,” lead study author Arnar B. Ingason said at the annual Digestive Disease Week. “This may lead to a greater variance in plasma drug concentration, making these patients more susceptible to bleeding.”

Mr. Ingason, a medical student at the University of Iceland, Reykjavik, said that although several studies have compared warfarin with NOACs, it remains unclear which NOAC has the most favorable GI profile. In an effort to improve the research in this area, he and his associates performed a nationwide, population-based study during March 2014–Jan. 2018 to compare the GI bleeding risk of patients receiving rivaroxaban to that of a combined pool of patients receiving either apixaban or dabigatran. They drew from the Icelandic Medicine Registry, which contains all outpatient drug prescriptions in the country. Next, the researchers linked the personal identification numbers of patients to the Landspitali University diagnoses registry, which includes more than 90% of all patients hospitalized for GI bleeding. They used 1:1 nearest neighbor propensity score for matching and Kaplan-Meier survival estimates and Cox regression to compare rates of GI bleeding. The study outcome of interest was any clinically relevant GI bleeding.

Mr. Ingason reported that the baseline characteristics were similar between the rivaroxaban group and the apixaban/dabigatran group. They matched for several variables, including age, sex, Charlson score, the proportion being anticoagulant naive, moderate to severe renal disease, moderate to severe liver disease, any prior bleeding, and any prior thrombotic events.

During the study period, 3,473 patients received rivaroxaban, 1,901 received apixaban, and 1,086 received dabigatran. After propensity score matching, the researchers compared 2,635 patients who received rivaroxaban with 2,365 patients who received either apixaban or dabigatran. They found that patients in the rivaroxaban group had significantly higher rates of GI bleeding, compared with in the apixaban/dabigatran group (1.2 and. 0.6 events per 100 patient-years, respectively). This yielded a hazard ratio of 2.02, “which means that patients receiving rivaroxaban are twice as likely to get GI bleeding compared to patients on apixaban or dabigatran,” Mr. Ingason said. When the researchers examined the entire unmatched cohort of patients, the rivaroxaban group also had significantly higher rates of GI bleeding, compared with the apixaban/dabigatran group (1.0 and 0.6 events per 100 patient-years; HR, 1.75).

Mr. Ingason and his colleagues observed that patients in the rivaroxaban group had higher rates of GI bleeding, compared with the apixaban/dabigatran group, during the entire follow-up period. At the end of year 4, the rivaroxaban group had a 4% cumulative event rate of GI bleeding, compared with 1.8% for the apixaban/dabigatran group, a highly significant difference at P = .0057).

When a meeting attendee asked Mr. Ingason why patients taking apixaban or dabigatran were combined into one group, he said that it was done to increase the power of their study. “Our theory was that rivaroxaban was different because it is administered as a single daily dose, while the others are given twice daily,” he said. The researchers reported having no financial disclosures.

dbrunk@mdedge.com

SAN DIEGO – Patients on rivaroxaban had significantly higher rates of GI bleeding, compared with those taking apixaban or dabigatran, results from a large population-based study showed.

Doug Brunk/MDedge News

“This may be due to the fact that rivaroxaban is administered as a single daily dose as opposed to the other two non–vitamin K anticoagulants [NOACs], which are given twice daily,” lead study author Arnar B. Ingason said at the annual Digestive Disease Week. “This may lead to a greater variance in plasma drug concentration, making these patients more susceptible to bleeding.”

Mr. Ingason, a medical student at the University of Iceland, Reykjavik, said that although several studies have compared warfarin with NOACs, it remains unclear which NOAC has the most favorable GI profile. In an effort to improve the research in this area, he and his associates performed a nationwide, population-based study during March 2014–Jan. 2018 to compare the GI bleeding risk of patients receiving rivaroxaban to that of a combined pool of patients receiving either apixaban or dabigatran. They drew from the Icelandic Medicine Registry, which contains all outpatient drug prescriptions in the country. Next, the researchers linked the personal identification numbers of patients to the Landspitali University diagnoses registry, which includes more than 90% of all patients hospitalized for GI bleeding. They used 1:1 nearest neighbor propensity score for matching and Kaplan-Meier survival estimates and Cox regression to compare rates of GI bleeding. The study outcome of interest was any clinically relevant GI bleeding.

Mr. Ingason reported that the baseline characteristics were similar between the rivaroxaban group and the apixaban/dabigatran group. They matched for several variables, including age, sex, Charlson score, the proportion being anticoagulant naive, moderate to severe renal disease, moderate to severe liver disease, any prior bleeding, and any prior thrombotic events.

During the study period, 3,473 patients received rivaroxaban, 1,901 received apixaban, and 1,086 received dabigatran. After propensity score matching, the researchers compared 2,635 patients who received rivaroxaban with 2,365 patients who received either apixaban or dabigatran. They found that patients in the rivaroxaban group had significantly higher rates of GI bleeding, compared with in the apixaban/dabigatran group (1.2 and. 0.6 events per 100 patient-years, respectively). This yielded a hazard ratio of 2.02, “which means that patients receiving rivaroxaban are twice as likely to get GI bleeding compared to patients on apixaban or dabigatran,” Mr. Ingason said. When the researchers examined the entire unmatched cohort of patients, the rivaroxaban group also had significantly higher rates of GI bleeding, compared with the apixaban/dabigatran group (1.0 and 0.6 events per 100 patient-years; HR, 1.75).

Mr. Ingason and his colleagues observed that patients in the rivaroxaban group had higher rates of GI bleeding, compared with the apixaban/dabigatran group, during the entire follow-up period. At the end of year 4, the rivaroxaban group had a 4% cumulative event rate of GI bleeding, compared with 1.8% for the apixaban/dabigatran group, a highly significant difference at P = .0057).

When a meeting attendee asked Mr. Ingason why patients taking apixaban or dabigatran were combined into one group, he said that it was done to increase the power of their study. “Our theory was that rivaroxaban was different because it is administered as a single daily dose, while the others are given twice daily,” he said. The researchers reported having no financial disclosures.

dbrunk@mdedge.com

NEW ORLEANS – The incidence of pulmonary embolism diagnosed in hospitalized U.S. patients nearly doubled during the period 2004-2015 based on data collected by the National Inpatient Sample.

During 2004-2015 the incidence of all diagnosed pulmonary embolism (PE), based on discharge diagnoses, rose from 5.4 cases/1,000 hospitalized patients in 2004 to 9.7 cases/1,000 hospitalized patients in 2015, an 80% increase, Joshua B. Goldberg, MD said at the annual meeting of the American College of Cardiology. The incidence of major PE – defined as a patient who needed vasopressor treatment, mechanical ventilation, or had nonseptic shock – rose from 7.9% of all hospitalized PE diagnoses in 2004 to 9.7% in 2015, a 23% relative increase.

Mitchel L. Zoler/MDedge News

The data also documented a shifting pattern of treatment for all hospitalized patients with PE, and especially among patients with major PE. During the study period, treatment with systemic thrombolysis for all PE rose nearly threefold, and catheter-directed therapy began to show a steady rise in use from 0.2% of all patients in 2011 (and before) to 1% of all patients by 2015. Surgical intervention remained lightly used throughout, with about 0.2% of all PE patients undergoing surgery annually.

Most of these intervention options focused on patients with major PE. Among patients in this subgroup with more severe disease, use of one of these three types of interventions rose from 6% in 2004 to 12% in 2015, mostly driven by a rise in systemic thrombolysis, which jumped from 3% of major PE in 2004 to 9% in 2015. However, the efficacy of systemic thrombolysis in patients with major PE remains suspect. In 2004, 39% of patients with major PE treated with systemic thrombolysis died in hospital; in 2015 the number was 47%. “The data don’t support using systemic thrombolysis to treat major PE; the mortality is high,” noted Dr. Goldberg, a cardiothoracic surgeon at Westchester Medical Center in Valhalla, N.Y.

Although catheter-directed therapy began to be much more widely used in U.S. practice starting in about 2015, during the period studied its use for major PE held fairly steady at roughly 2%-3%, but this approach also showed substantial shortcomings for the major PE population. These sicker patients treated with catheter-directed therapy had 37% mortality in 2004 and a 31% mortality in 2015, a difference that was not statistically significant. In general, PE patients enrolled in the catheter-directed therapy trials were not as sick as the major PE patients who get treated with surgery in routine practice, Dr. Goldberg said in an interview.

The data showed much better performance using surgery, although only 1,237 patients of the entire group of 713,083 PE patients studied in the database underwent surgical embolectomy. Overall, in-hospital mortality in these patients was 22%, but in a time trend analysis, mortality among all PE patients treated with surgery fell from 32% in 2004 to 14% in 2015; among patients with major PE treated with surgery, mortality fell from 52% in 2004 to 21% in 2015.

Dr. Goldberg attributed the success of surgery in severe PE patients to the definitive nature of embolectomy and the concurrent use of extracorporeal membrane oxygenation that helps stabilize acutely ill PE patients. He also cited refinements that surgery underwent during the 2004-2015 period based on the experience managing chronic thromboembolic pulmonary hypertension, including routine use of cardiopulmonary bypass during surgery. “Very high risk [PE] patients should go straight to surgery, unless the patient is at high risk for surgery because of conditions like prior sternotomy or very advanced age, in which case catheter-directed therapy may be a safer option, he said. He cited a recent 5% death rate after surgery at his center among patients with major PE who did not require cardiopulmonary resuscitation.

The database Dr. Goldberg and his collaborator reviewed included 12,735 patients treated by systemic thrombolysis, and 2,595 treated by catheter-directed therapy. Patients averaged 63 years old. The most common indicator of major PE was mechanical ventilation, used on 8% of all PE patients in the study. Non-septic shock occurred in 2%, and just under 1% needed vasopressor treatment.

Published guidelines on PE management from several medical groups are “vague and have numerous caveats,” Dr. Goldberg said. He is participating in an update to the 2011 PE management statement from the American College of Cardiology and American Heart Association (Circulation. 2011 April 26;123[16]:1788-1830).

The study received no commercial funding. Dr. Goldberg had no disclosures.

mzoler@mdedge.com

SOURCE: Haider A et al. J Amer Coll Cardiol. 2019 March;73:9[suppl 1]: doi: 10.1016/S0735-1097(19)32507-0

NEW ORLEANS – The incidence of pulmonary embolism diagnosed in hospitalized U.S. patients nearly doubled during the period 2004-2015 based on data collected by the National Inpatient Sample.

During 2004-2015 the incidence of all diagnosed pulmonary embolism (PE), based on discharge diagnoses, rose from 5.4 cases/1,000 hospitalized patients in 2004 to 9.7 cases/1,000 hospitalized patients in 2015, an 80% increase, Joshua B. Goldberg, MD said at the annual meeting of the American College of Cardiology. The incidence of major PE – defined as a patient who needed vasopressor treatment, mechanical ventilation, or had nonseptic shock – rose from 7.9% of all hospitalized PE diagnoses in 2004 to 9.7% in 2015, a 23% relative increase.

Mitchel L. Zoler/MDedge News

The data also documented a shifting pattern of treatment for all hospitalized patients with PE, and especially among patients with major PE. During the study period, treatment with systemic thrombolysis for all PE rose nearly threefold, and catheter-directed therapy began to show a steady rise in use from 0.2% of all patients in 2011 (and before) to 1% of all patients by 2015. Surgical intervention remained lightly used throughout, with about 0.2% of all PE patients undergoing surgery annually.

Most of these intervention options focused on patients with major PE. Among patients in this subgroup with more severe disease, use of one of these three types of interventions rose from 6% in 2004 to 12% in 2015, mostly driven by a rise in systemic thrombolysis, which jumped from 3% of major PE in 2004 to 9% in 2015. However, the efficacy of systemic thrombolysis in patients with major PE remains suspect. In 2004, 39% of patients with major PE treated with systemic thrombolysis died in hospital; in 2015 the number was 47%. “The data don’t support using systemic thrombolysis to treat major PE; the mortality is high,” noted Dr. Goldberg, a cardiothoracic surgeon at Westchester Medical Center in Valhalla, N.Y.

Although catheter-directed therapy began to be much more widely used in U.S. practice starting in about 2015, during the period studied its use for major PE held fairly steady at roughly 2%-3%, but this approach also showed substantial shortcomings for the major PE population. These sicker patients treated with catheter-directed therapy had 37% mortality in 2004 and a 31% mortality in 2015, a difference that was not statistically significant. In general, PE patients enrolled in the catheter-directed therapy trials were not as sick as the major PE patients who get treated with surgery in routine practice, Dr. Goldberg said in an interview.

The data showed much better performance using surgery, although only 1,237 patients of the entire group of 713,083 PE patients studied in the database underwent surgical embolectomy. Overall, in-hospital mortality in these patients was 22%, but in a time trend analysis, mortality among all PE patients treated with surgery fell from 32% in 2004 to 14% in 2015; among patients with major PE treated with surgery, mortality fell from 52% in 2004 to 21% in 2015.

Dr. Goldberg attributed the success of surgery in severe PE patients to the definitive nature of embolectomy and the concurrent use of extracorporeal membrane oxygenation that helps stabilize acutely ill PE patients. He also cited refinements that surgery underwent during the 2004-2015 period based on the experience managing chronic thromboembolic pulmonary hypertension, including routine use of cardiopulmonary bypass during surgery. “Very high risk [PE] patients should go straight to surgery, unless the patient is at high risk for surgery because of conditions like prior sternotomy or very advanced age, in which case catheter-directed therapy may be a safer option, he said. He cited a recent 5% death rate after surgery at his center among patients with major PE who did not require cardiopulmonary resuscitation.

The database Dr. Goldberg and his collaborator reviewed included 12,735 patients treated by systemic thrombolysis, and 2,595 treated by catheter-directed therapy. Patients averaged 63 years old. The most common indicator of major PE was mechanical ventilation, used on 8% of all PE patients in the study. Non-septic shock occurred in 2%, and just under 1% needed vasopressor treatment.

Published guidelines on PE management from several medical groups are “vague and have numerous caveats,” Dr. Goldberg said. He is participating in an update to the 2011 PE management statement from the American College of Cardiology and American Heart Association (Circulation. 2011 April 26;123[16]:1788-1830).

The study received no commercial funding. Dr. Goldberg had no disclosures.

mzoler@mdedge.com

SOURCE: Haider A et al. J Amer Coll Cardiol. 2019 March;73:9[suppl 1]: doi: 10.1016/S0735-1097(19)32507-0

NEW ORLEANS – The incidence of pulmonary embolism diagnosed in hospitalized U.S. patients nearly doubled during the period 2004-2015 based on data collected by the National Inpatient Sample.

During 2004-2015 the incidence of all diagnosed pulmonary embolism (PE), based on discharge diagnoses, rose from 5.4 cases/1,000 hospitalized patients in 2004 to 9.7 cases/1,000 hospitalized patients in 2015, an 80% increase, Joshua B. Goldberg, MD said at the annual meeting of the American College of Cardiology. The incidence of major PE – defined as a patient who needed vasopressor treatment, mechanical ventilation, or had nonseptic shock – rose from 7.9% of all hospitalized PE diagnoses in 2004 to 9.7% in 2015, a 23% relative increase.

Mitchel L. Zoler/MDedge News

The data also documented a shifting pattern of treatment for all hospitalized patients with PE, and especially among patients with major PE. During the study period, treatment with systemic thrombolysis for all PE rose nearly threefold, and catheter-directed therapy began to show a steady rise in use from 0.2% of all patients in 2011 (and before) to 1% of all patients by 2015. Surgical intervention remained lightly used throughout, with about 0.2% of all PE patients undergoing surgery annually.

Most of these intervention options focused on patients with major PE. Among patients in this subgroup with more severe disease, use of one of these three types of interventions rose from 6% in 2004 to 12% in 2015, mostly driven by a rise in systemic thrombolysis, which jumped from 3% of major PE in 2004 to 9% in 2015. However, the efficacy of systemic thrombolysis in patients with major PE remains suspect. In 2004, 39% of patients with major PE treated with systemic thrombolysis died in hospital; in 2015 the number was 47%. “The data don’t support using systemic thrombolysis to treat major PE; the mortality is high,” noted Dr. Goldberg, a cardiothoracic surgeon at Westchester Medical Center in Valhalla, N.Y.

Although catheter-directed therapy began to be much more widely used in U.S. practice starting in about 2015, during the period studied its use for major PE held fairly steady at roughly 2%-3%, but this approach also showed substantial shortcomings for the major PE population. These sicker patients treated with catheter-directed therapy had 37% mortality in 2004 and a 31% mortality in 2015, a difference that was not statistically significant. In general, PE patients enrolled in the catheter-directed therapy trials were not as sick as the major PE patients who get treated with surgery in routine practice, Dr. Goldberg said in an interview.

The data showed much better performance using surgery, although only 1,237 patients of the entire group of 713,083 PE patients studied in the database underwent surgical embolectomy. Overall, in-hospital mortality in these patients was 22%, but in a time trend analysis, mortality among all PE patients treated with surgery fell from 32% in 2004 to 14% in 2015; among patients with major PE treated with surgery, mortality fell from 52% in 2004 to 21% in 2015.

Dr. Goldberg attributed the success of surgery in severe PE patients to the definitive nature of embolectomy and the concurrent use of extracorporeal membrane oxygenation that helps stabilize acutely ill PE patients. He also cited refinements that surgery underwent during the 2004-2015 period based on the experience managing chronic thromboembolic pulmonary hypertension, including routine use of cardiopulmonary bypass during surgery. “Very high risk [PE] patients should go straight to surgery, unless the patient is at high risk for surgery because of conditions like prior sternotomy or very advanced age, in which case catheter-directed therapy may be a safer option, he said. He cited a recent 5% death rate after surgery at his center among patients with major PE who did not require cardiopulmonary resuscitation.

The database Dr. Goldberg and his collaborator reviewed included 12,735 patients treated by systemic thrombolysis, and 2,595 treated by catheter-directed therapy. Patients averaged 63 years old. The most common indicator of major PE was mechanical ventilation, used on 8% of all PE patients in the study. Non-septic shock occurred in 2%, and just under 1% needed vasopressor treatment.

Published guidelines on PE management from several medical groups are “vague and have numerous caveats,” Dr. Goldberg said. He is participating in an update to the 2011 PE management statement from the American College of Cardiology and American Heart Association (Circulation. 2011 April 26;123[16]:1788-1830).

The study received no commercial funding. Dr. Goldberg had no disclosures.

mzoler@mdedge.com

SOURCE: Haider A et al. J Amer Coll Cardiol. 2019 March;73:9[suppl 1]: doi: 10.1016/S0735-1097(19)32507-0