BACKGROUND: Non-invasive positive pressure ventilation (NPPV) has been used to treat respiratory distress due to acute cardiogenic pulmonary oedema (ACPE). We performed a systematic review and meta-analysis update on NPPV for adults presenting with ACPE. OBJECTIVES: To evaluate the safety and effectiveness of NPPV compared to standard medical care (SMC) for adults with ACPE. The primary outcome was hospital mortality. Important secondary outcomes were endotracheal intubation, treatment intolerance, hospital and intensive care unit length of stay, rates of acute myocardial infarction, and adverse event rates. SEARCH METHODS: We searched CENTRAL (CRS Web, 20 September 2018), MEDLINE (Ovid, 1946 to 19 September 2018), Embase (Ovid, 1974 to 19 September 2018), CINAHL Plus (EBSCO, 1937 to 19 September 2018), LILACS, WHO ICTRP, and clinicaltrials.gov. We also reviewed reference lists of included studies. We applied no language restrictions. SELECTION CRITERIA: We included blinded or unblinded randomised controlled trials in adults with ACPE. Participants had to be randomised to NPPV (continuous positive airway pressure (CPAP) or bilevel NPPV) plus standard medical care (SMC) compared with SMC alone. DATA COLLECTION AND ANALYSIS: Two review authors independently screened and selected articles for inclusion. We extracted data with a standardised data collection form. We evaluated the risks of bias of each study using the Cochrane 'Risk of bias' tool. We assessed evidence quality for each outcome using the GRADE recommendations. MAIN RESULTS: We included 24 studies (2664 participants) of adult participants (older than 18 years of age) with respiratory distress due to ACPE, not requiring immediate mechanical ventilation. People with ACPE presented either to an Emergency Department or were inpatients. ACPE treatment was provided in an intensive care or Emergency Department setting. There was a median follow-up of 13 days for hospital mortality, one day for endotracheal intubation, and three days for acute myocardial infarction. Compared with SMC, NPPV may reduce hospital mortality (risk ratio (RR) 0.65, 95% confidence interval (CI) 0.51 to 0.82; participants = 2484; studies = 21; I2 = 6%; low quality of evidence) with a number needed to treat for an additional beneficial outcome (NNTB) of 17 (NNTB 12 to 32). NPPV probably reduces endotracheal intubation rates (RR 0.49, 95% CI 0.38 to 0.62; participants = 2449; studies = 20; I2 = 0%; moderate quality of evidence) with a NNTB of 13 (NNTB 11 to 18). There is probably little or no difference in acute myocardial infarction (AMI) incidence with NPPV compared to SMC for ACPE (RR 1.03, 95% CI 0.91 to 1.16; participants = 1313; studies = 5; I2 = 0%; moderate quality of evidence). We are uncertain as to whether NPPV increases hospital length of stay (mean difference (MD) -0.31 days, 95% CI -1.23 to 0.61; participants = 1714; studies = 11; I2 = 55%; very low quality of evidence). Adverse events were generally similar between NPPV and SMC groups, but evidence was of low quality. AUTHORS' CONCLUSIONS: Our review provides support for continued clinical application of NPPV for ACPE, to improve outcomes such as hospital mortality and intubation rates. NPPV is a safe intervention with similar adverse event rates to SMC alone. Additional research is needed to determine if specific subgroups of people with ACPE have greater benefit of NPPV compared to SMC. Future research should explore the benefit of NPPV for ACPE patients with hypercapnia.
BACKGROUND: Non-invasive positive pressure ventilation (NPPV) has been used to treat respiratory distress due to acute cardiogenic pulmonary oedema (ACPE). We performed a systematic review and meta-analysis update on NPPV for adults presenting with ACPE. OBJECTIVES: To evaluate the safety and effectiveness of NPPV compared to standard medical care (SMC) for adults with ACPE. The primary outcome was hospital mortality. Important secondary outcomes were endotracheal intubation, treatment intolerance, hospital and intensive care unit length of stay, rates of acute myocardial infarction, and adverse event rates. SEARCH METHODS: We searched CENTRAL (CRS Web, 20 September 2018), MEDLINE (Ovid, 1946 to 19 September 2018), Embase (Ovid, 1974 to 19 September 2018), CINAHL Plus (EBSCO, 1937 to 19 September 2018), LILACS, WHO ICTRP, and clinicaltrials.gov. We also reviewed reference lists of included studies. We applied no language restrictions. SELECTION CRITERIA: We included blinded or unblinded randomised controlled trials in adults with ACPE. Participants had to be randomised to NPPV (continuous positive airway pressure (CPAP) or bilevel NPPV) plus standard medical care (SMC) compared with SMC alone. DATA COLLECTION AND ANALYSIS: Two review authors independently screened and selected articles for inclusion. We extracted data with a standardised data collection form. We evaluated the risks of bias of each study using the Cochrane 'Risk of bias' tool. We assessed evidence quality for each outcome using the GRADE recommendations. MAIN RESULTS: We included 24 studies (2664 participants) of adult participants (older than 18 years of age) with respiratory distress due to ACPE, not requiring immediate mechanical ventilation. People with ACPE presented either to an Emergency Department or were inpatients. ACPE treatment was provided in an intensive care or Emergency Department setting. There was a median follow-up of 13 days for hospital mortality, one day for endotracheal intubation, and three days for acute myocardial infarction. Compared with SMC, NPPV may reduce hospital mortality (risk ratio (RR) 0.65, 95% confidence interval (CI) 0.51 to 0.82; participants = 2484; studies = 21; I2 = 6%; low quality of evidence) with a number needed to treat for an additional beneficial outcome (NNTB) of 17 (NNTB 12 to 32). NPPV probably reduces endotracheal intubation rates (RR 0.49, 95% CI 0.38 to 0.62; participants = 2449; studies = 20; I2 = 0%; moderate quality of evidence) with a NNTB of 13 (NNTB 11 to 18). There is probably little or no difference in acute myocardial infarction (AMI) incidence with NPPV compared to SMC for ACPE (RR 1.03, 95% CI 0.91 to 1.16; participants = 1313; studies = 5; I2 = 0%; moderate quality of evidence). We are uncertain as to whether NPPV increases hospital length of stay (mean difference (MD) -0.31 days, 95% CI -1.23 to 0.61; participants = 1714; studies = 11; I2 = 55%; very low quality of evidence). Adverse events were generally similar between NPPV and SMC groups, but evidence was of low quality. AUTHORS' CONCLUSIONS: Our review provides support for continued clinical application of NPPV for ACPE, to improve outcomes such as hospital mortality and intubation rates. NPPV is a safe intervention with similar adverse event rates to SMC alone. Additional research is needed to determine if specific subgroups of people with ACPE have greater benefit of NPPV compared to SMC. Future research should explore the benefit of NPPV for ACPE patients with hypercapnia.
Authors: Marcelo Park; Marcia C Sangean; Marcia de S Volpe; Maria I Z Feltrim; Emilia Nozawa; Paulo F Leite; Marcelo B Passos Amato; Geraldo Lorenzi-Filho Journal: Crit Care Med Date: 2004-12 Impact factor: 7.598
Authors: Alain Rudiger; Veli-Pekka Harjola; Andreas Müller; Eero Mattila; Petrus Säila; Markku Nieminen; Ferenc Follath Journal: Eur J Heart Fail Date: 2005-06 Impact factor: 15.534
Authors: Timothy Liesching; David L Nelson; Karen L Cormier; Andrew Sucov; Kathy Short; Rod Warburton; Nicholas S Hill Journal: J Emerg Med Date: 2013-09-24 Impact factor: 1.484
Authors: Justin A Ezekowitz; Eileen O'Meara; Michael A McDonald; Howard Abrams; Michael Chan; Anique Ducharme; Nadia Giannetti; Adam Grzeslo; Peter G Hamilton; George A Heckman; Jonathan G Howlett; Sheri L Koshman; Serge Lepage; Robert S McKelvie; Gordon W Moe; Miroslaw Rajda; Elizabeth Swiggum; Sean A Virani; Shelley Zieroth; Abdul Al-Hesayen; Alain Cohen-Solal; Michel D'Astous; Sabe De; Estrellita Estrella-Holder; Stephen Fremes; Lee Green; Haissam Haddad; Karen Harkness; Adrian F Hernandez; Simon Kouz; Marie-Hélène LeBlanc; Frederick A Masoudi; Heather J Ross; Andre Roussin; Bruce Sussex Journal: Can J Cardiol Date: 2017-09-06 Impact factor: 5.223
Authors: Shoma V Rao; R Udhayachandar; Vasudha B Rao; Nithin A Raju; Juliana Jj Nesaraj; Subramani Kandasamy; Prasanna Samuel Journal: Indian J Crit Care Med Date: 2020-07
Authors: Holger J Schünemann; Joanne Khabsa; Karla Solo; Assem M Khamis; Romina Brignardello-Petersen; Amena El-Harakeh; Andrea Darzi; Anisa Hajizadeh; Antonio Bognanni; Anna Bak; Ariel Izcovich; Carlos A Cuello-Garcia; Chen Chen; Ewa Borowiack; Fatimah Chamseddine; Finn Schünemann; Gian Paolo Morgano; Giovanna E U Muti-Schünemann; Guang Chen; Hong Zhao; Ignacio Neumann; Jan Brozek; Joel Schmidt; Layal Hneiny; Leila Harrison; Marge Reinap; Mats Junek; Nancy Santesso; Rayane El-Khoury; Rebecca Thomas; Robby Nieuwlaat; Rosa Stalteri; Sally Yaacoub; Tamara Lotfi; Tejan Baldeh; Thomas Piggott; Yuan Zhang; Zahra Saad; Bram Rochwerg; Dan Perri; Eddy Fan; Florian Stehling; Imad Bou Akl; Mark Loeb; Paul Garner; Stephen Aston; Waleed Alhazzani; Wojciech Szczeklik; Derek K Chu; Elie A Akl Journal: Ann Intern Med Date: 2020-05-22 Impact factor: 25.391
Authors: Pia Harjola; Òscar Miró; Francisco J Martín-Sánchez; Xavier Escalada; Yonathan Freund; Andrea Penaloza; Michael Christ; David C Cone; Said Laribi; Markku Kuisma; Tuukka Tarvasmäki; Veli-Pekka Harjola Journal: ESC Heart Fail Date: 2019-11-08
Authors: Frank Daniel Martos-Benítez; Caridad de Dios Soler-Morejón; Karla Ximena Lara-Ponce; Versis Orama-Requejo; Dailé Burgos-Aragüez; Hilev Larrondo-Muguercia; Rahim W Lespoir Journal: World J Clin Oncol Date: 2020-10-24