STUDY OBJECTIVE: This study tests the hypothesis that implementation of a point-of-care emergency department (ED) protocol to rule out pulmonary embolism would increase the rate of evaluation without increasing the rate of pulmonary vascular imaging or ED length of stay and that less than 1.0% of patients with a negative protocol would have an adverse outcome. METHODS: A baseline study was conducted on patients with suspected pulmonary embolism at an urban ED to establish baseline measurements performed when only pulmonary vascular imaging was available to rule out pulmonary embolism. The intervention protocol used pretest probability assessment, a whole-blood d -dimer assay, and an alveolar dead-space measurement to rule out pulmonary embolism. The main outcomes were diagnosis of venous thromboembolism or sudden unexpected death within 90 days. RESULTS: During baseline, 453 of 61,322 patients (0.74%; 95% confidence interval [CI] 0.67% to 0.81%) underwent pulmonary vascular imaging, and 8% (95% CI 6% to 11%) of scan results were positive; 1.20% (95% CI 0.39% to 2.78%) of untreated discharged patients were anticoagulated for venous thromboembolism or died unexpectedly within 90 days. The median length of stay was 385 minutes. After intervention, 1,460 of 102,848 patients (1.42%; 95% CI 1.35% to 1.49%) were evaluated for pulmonary embolism. Seven hundred fifty-two patients had a negative protocol and 5 of 752 (0.66%; 95% CI 0.20% to 1.54%) had venous thromboembolism within 90 days, none with unexpected death. After intervention, the rate of pulmonary vascular imaging tended to decrease (0.64%; 95% CI 0.59% to 0.69%), and more scans (11%; 95% CI 9% to 14%) were read as positive; the length of stay decreased to 297 minutes. CONCLUSION: A point-of-care pulmonary embolism rule-out protocol doubled the rate of screening for pulmonary embolism in the ED, had a false negative rate of less than 1.0%, did not increase the pulmonary vascular imaging rate, and decreased length of stay.
STUDY OBJECTIVE: This study tests the hypothesis that implementation of a point-of-care emergency department (ED) protocol to rule out pulmonary embolism would increase the rate of evaluation without increasing the rate of pulmonary vascular imaging or ED length of stay and that less than 1.0% of patients with a negative protocol would have an adverse outcome. METHODS: A baseline study was conducted on patients with suspected pulmonary embolism at an urban ED to establish baseline measurements performed when only pulmonary vascular imaging was available to rule out pulmonary embolism. The intervention protocol used pretest probability assessment, a whole-blood d -dimer assay, and an alveolar dead-space measurement to rule out pulmonary embolism. The main outcomes were diagnosis of venous thromboembolism or sudden unexpected death within 90 days. RESULTS: During baseline, 453 of 61,322 patients (0.74%; 95% confidence interval [CI] 0.67% to 0.81%) underwent pulmonary vascular imaging, and 8% (95% CI 6% to 11%) of scan results were positive; 1.20% (95% CI 0.39% to 2.78%) of untreated discharged patients were anticoagulated for venous thromboembolism or died unexpectedly within 90 days. The median length of stay was 385 minutes. After intervention, 1,460 of 102,848 patients (1.42%; 95% CI 1.35% to 1.49%) were evaluated for pulmonary embolism. Seven hundred fifty-two patients had a negative protocol and 5 of 752 (0.66%; 95% CI 0.20% to 1.54%) had venous thromboembolism within 90 days, none with unexpected death. After intervention, the rate of pulmonary vascular imaging tended to decrease (0.64%; 95% CI 0.59% to 0.69%), and more scans (11%; 95% CI 9% to 14%) were read as positive; the length of stay decreased to 297 minutes. CONCLUSION: A point-of-care pulmonary embolism rule-out protocol doubled the rate of screening for pulmonary embolism in the ED, had a false negative rate of less than 1.0%, did not increase the pulmonary vascular imaging rate, and decreased length of stay.
Authors: Claire Keogh; Emma Wallace; Kirsty K O'Brien; Rose Galvin; Susan M Smith; Cliona Lewis; Anthony Cummins; Grainne Cousins; Borislav D Dimitrov; Tom Fahey Journal: Ann Fam Med Date: 2014-07 Impact factor: 5.166
Authors: Michael B Streiff; Giancarlo Agnelli; Jean M Connors; Mark Crowther; Sabine Eichinger; Renato Lopes; Robert D McBane; Stephan Moll; Jack Ansell Journal: J Thromb Thrombolysis Date: 2016-01 Impact factor: 2.300
Authors: Stephen J Burke; Ananth Annapragada; Eric A Hoffman; Emmanuel Chen; Ketan B Ghaghada; Jered Sieren; Edwin J R van Beek Journal: Acad Radiol Date: 2007-03 Impact factor: 3.173
Authors: Indu Rekha Meesa; Joseph Junewick; Andrew Hoff; Alyssa Blumer; Ryan Daro; Nathaniel Linna; Matthew McElliott; Chris Meeusen; Robert Beckmann; Charles Luttenton Journal: Emerg Radiol Date: 2016-03-30
Authors: Jeffrey A Kline; Michael T Steuerwald; Michael R Marchick; Jackeline Hernandez-Nino; Geoffrey A Rose Journal: Chest Date: 2009-06-19 Impact factor: 9.410
Authors: Marcos Mello Moreira; Renato G G Terzi; Carlos Heitor N Carvalho; Antonio Francisco de Oliveira Neto; Mônica Corso Pereira; Ilma Aparecida Paschoal Journal: Vasc Health Risk Manag Date: 2009-04-08