Thrombolytics in Pulmonary Embolism Associated with Lower Mortality, Increased Bleeding

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Thrombolytics in Pulmonary Embolism Associated with Lower Mortality, Increased Bleeding

Clinical question: What are the mortality benefits and bleeding risks associated with thrombolytic therapy, compared with other anticoagulants, in pulmonary embolism (PE)?

Background: Thrombolytics are not routinely administered for PE but can be considered in patients with hemodynamic instability with massive PE and those not responding to anticoagulation.

Study design: Meta-analysis.

Setting: Sixteen randomized clinical trials (RCTs) occurring in a variety of settings.

Synopsis: Trials involving 2,115 patients (thrombolytic therapy cohort 1,061; anticoagulation cohort 1,054) with PE were studied, with special attention given to those patients with intermediate risk PEs defined by subclinical cardiovascular compromise. Thrombolytics were compared with low molecular weight heparin, unfractionated heparin, vitamin K antagonists, and fondaparinux. The primary outcomes were all-cause mortality and major bleeding. Secondary outcomes included risk of recurrence of the PE and intracranial hemorrhage.

Thrombolytic therapy was associated with lower all-cause mortality and with higher risk of bleeding. There was a 9.24% rate of major bleeding in the thrombolytic therapy cohort and a 3.42% rate in the anticoagulation cohort. Intracranial hemorrhage was greater in the thrombolytic therapy cohort (1.46% vs. 0.19%). Patients with intermediate risk PE had greater major bleeding rate (7.74% vs. 2.25%) and lower mortality (1.39% vs. 2.92%) with thrombolytics compared to anticoagulation. A net clinical benefit calculation (mortality benefit accounting for intracranial hemorrhage risk) was performed and demonstrated a net clinical benefit of 0.81% (95% CI, 0.65%-1.01%) for those patients who received thrombolytics versus other anticoagulation.

Bottom line: This study suggested a mortality benefit of thrombolytics overall, including those patients with intermediate risk PE.

Citation: Chatterjee S, Chakraborty A, Weinberg I, et al. Thrombolysis for pulmonary embolism and risk of all-cause mortality, major bleeding, and intracranial hemorrhage: a meta-analysis. JAMA. 2014;311(23):2414-2421.

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Clinical question: What are the mortality benefits and bleeding risks associated with thrombolytic therapy, compared with other anticoagulants, in pulmonary embolism (PE)?

Background: Thrombolytics are not routinely administered for PE but can be considered in patients with hemodynamic instability with massive PE and those not responding to anticoagulation.

Study design: Meta-analysis.

Setting: Sixteen randomized clinical trials (RCTs) occurring in a variety of settings.

Synopsis: Trials involving 2,115 patients (thrombolytic therapy cohort 1,061; anticoagulation cohort 1,054) with PE were studied, with special attention given to those patients with intermediate risk PEs defined by subclinical cardiovascular compromise. Thrombolytics were compared with low molecular weight heparin, unfractionated heparin, vitamin K antagonists, and fondaparinux. The primary outcomes were all-cause mortality and major bleeding. Secondary outcomes included risk of recurrence of the PE and intracranial hemorrhage.

Thrombolytic therapy was associated with lower all-cause mortality and with higher risk of bleeding. There was a 9.24% rate of major bleeding in the thrombolytic therapy cohort and a 3.42% rate in the anticoagulation cohort. Intracranial hemorrhage was greater in the thrombolytic therapy cohort (1.46% vs. 0.19%). Patients with intermediate risk PE had greater major bleeding rate (7.74% vs. 2.25%) and lower mortality (1.39% vs. 2.92%) with thrombolytics compared to anticoagulation. A net clinical benefit calculation (mortality benefit accounting for intracranial hemorrhage risk) was performed and demonstrated a net clinical benefit of 0.81% (95% CI, 0.65%-1.01%) for those patients who received thrombolytics versus other anticoagulation.

Bottom line: This study suggested a mortality benefit of thrombolytics overall, including those patients with intermediate risk PE.

Citation: Chatterjee S, Chakraborty A, Weinberg I, et al. Thrombolysis for pulmonary embolism and risk of all-cause mortality, major bleeding, and intracranial hemorrhage: a meta-analysis. JAMA. 2014;311(23):2414-2421.

Clinical question: What are the mortality benefits and bleeding risks associated with thrombolytic therapy, compared with other anticoagulants, in pulmonary embolism (PE)?

Background: Thrombolytics are not routinely administered for PE but can be considered in patients with hemodynamic instability with massive PE and those not responding to anticoagulation.

Study design: Meta-analysis.

Setting: Sixteen randomized clinical trials (RCTs) occurring in a variety of settings.

Synopsis: Trials involving 2,115 patients (thrombolytic therapy cohort 1,061; anticoagulation cohort 1,054) with PE were studied, with special attention given to those patients with intermediate risk PEs defined by subclinical cardiovascular compromise. Thrombolytics were compared with low molecular weight heparin, unfractionated heparin, vitamin K antagonists, and fondaparinux. The primary outcomes were all-cause mortality and major bleeding. Secondary outcomes included risk of recurrence of the PE and intracranial hemorrhage.

Thrombolytic therapy was associated with lower all-cause mortality and with higher risk of bleeding. There was a 9.24% rate of major bleeding in the thrombolytic therapy cohort and a 3.42% rate in the anticoagulation cohort. Intracranial hemorrhage was greater in the thrombolytic therapy cohort (1.46% vs. 0.19%). Patients with intermediate risk PE had greater major bleeding rate (7.74% vs. 2.25%) and lower mortality (1.39% vs. 2.92%) with thrombolytics compared to anticoagulation. A net clinical benefit calculation (mortality benefit accounting for intracranial hemorrhage risk) was performed and demonstrated a net clinical benefit of 0.81% (95% CI, 0.65%-1.01%) for those patients who received thrombolytics versus other anticoagulation.

Bottom line: This study suggested a mortality benefit of thrombolytics overall, including those patients with intermediate risk PE.

Citation: Chatterjee S, Chakraborty A, Weinberg I, et al. Thrombolysis for pulmonary embolism and risk of all-cause mortality, major bleeding, and intracranial hemorrhage: a meta-analysis. JAMA. 2014;311(23):2414-2421.

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Interventions Effective in Preventing Hospital Readmissions

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Interventions Effective in Preventing Hospital Readmissions

Clinical question: Which interventions are most effective to prevent 30-day readmissions in medical or surgical patients?

Background: Preventing early readmissions has become a national priority. This study set out to determine which intervention had the largest impact on the prevention of early readmission.

Study design: Meta-analysis.

Setting: Forty-seven studies in multiple locations.

Synopsis: This study evaluated 47 randomized trials that assessed the effectiveness of peri-discharge interventions on the risk of all-cause or unplanned 30-day readmissions for medical and surgical patients. Outcomes included unplanned readmissions, all-cause readmissions, and a composite of unplanned and all-cause readmissions plus out-of-hospital deaths.

The included studies reported up to seven methods of preventing readmissions, including involvement of case management, home visits, education of patients, and self-care support. In 42 trials reporting readmission rates, the pooled relative risk of readmission was 0.82 (95 % CI, 0.73-0.91; P<0.001) within 30 days.

Multiple subgroup analyses noted that the most effective interventions on hospital readmission were those that were more complex and those that sought to augment patient capacity to access and enact dependable post-discharge care.

Limitations included single-center academic studies, lack of standard for dealing with missing data, existence of publication bias, and differing methods used to evaluate intervention effects.

Bottom line: This study was the largest of its kind, to date, and suggests that the interventions analyzed in this study, although complex (e.g. enhancing capacity for self-care at home), were efficacious in reducing 30-day readmissions.

Citation: Leppin AL, Gionfriddo MR, Kessler M, et al. Preventing 30-day hospital readmissions: a systematic review and meta-analysis of randomized trials. JAMA Intern Med. 2014;174(7):1095-1107.

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Clinical question: Which interventions are most effective to prevent 30-day readmissions in medical or surgical patients?

Background: Preventing early readmissions has become a national priority. This study set out to determine which intervention had the largest impact on the prevention of early readmission.

Study design: Meta-analysis.

Setting: Forty-seven studies in multiple locations.

Synopsis: This study evaluated 47 randomized trials that assessed the effectiveness of peri-discharge interventions on the risk of all-cause or unplanned 30-day readmissions for medical and surgical patients. Outcomes included unplanned readmissions, all-cause readmissions, and a composite of unplanned and all-cause readmissions plus out-of-hospital deaths.

The included studies reported up to seven methods of preventing readmissions, including involvement of case management, home visits, education of patients, and self-care support. In 42 trials reporting readmission rates, the pooled relative risk of readmission was 0.82 (95 % CI, 0.73-0.91; P<0.001) within 30 days.

Multiple subgroup analyses noted that the most effective interventions on hospital readmission were those that were more complex and those that sought to augment patient capacity to access and enact dependable post-discharge care.

Limitations included single-center academic studies, lack of standard for dealing with missing data, existence of publication bias, and differing methods used to evaluate intervention effects.

Bottom line: This study was the largest of its kind, to date, and suggests that the interventions analyzed in this study, although complex (e.g. enhancing capacity for self-care at home), were efficacious in reducing 30-day readmissions.

Citation: Leppin AL, Gionfriddo MR, Kessler M, et al. Preventing 30-day hospital readmissions: a systematic review and meta-analysis of randomized trials. JAMA Intern Med. 2014;174(7):1095-1107.

Clinical question: Which interventions are most effective to prevent 30-day readmissions in medical or surgical patients?

Background: Preventing early readmissions has become a national priority. This study set out to determine which intervention had the largest impact on the prevention of early readmission.

Study design: Meta-analysis.

Setting: Forty-seven studies in multiple locations.

Synopsis: This study evaluated 47 randomized trials that assessed the effectiveness of peri-discharge interventions on the risk of all-cause or unplanned 30-day readmissions for medical and surgical patients. Outcomes included unplanned readmissions, all-cause readmissions, and a composite of unplanned and all-cause readmissions plus out-of-hospital deaths.

The included studies reported up to seven methods of preventing readmissions, including involvement of case management, home visits, education of patients, and self-care support. In 42 trials reporting readmission rates, the pooled relative risk of readmission was 0.82 (95 % CI, 0.73-0.91; P<0.001) within 30 days.

Multiple subgroup analyses noted that the most effective interventions on hospital readmission were those that were more complex and those that sought to augment patient capacity to access and enact dependable post-discharge care.

Limitations included single-center academic studies, lack of standard for dealing with missing data, existence of publication bias, and differing methods used to evaluate intervention effects.

Bottom line: This study was the largest of its kind, to date, and suggests that the interventions analyzed in this study, although complex (e.g. enhancing capacity for self-care at home), were efficacious in reducing 30-day readmissions.

Citation: Leppin AL, Gionfriddo MR, Kessler M, et al. Preventing 30-day hospital readmissions: a systematic review and meta-analysis of randomized trials. JAMA Intern Med. 2014;174(7):1095-1107.

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