Study of Alteplase for Respiratory Failure in SARS-CoV-2 COVID-19: A Vanguard Multicenter, Rapidly Adaptive, Pragmatic, Randomized Controlled Trial

BACKGROUND: Pulmonary vascular microthrombi are a proposed mechanism of COVID-19 respiratory failure. We hypothesized that early administration of tissue plasminogen activator (tPA) followed by therapeutic heparin would improve pulmonary function in these patients. RESEARCH QUESTION: Does tPA improv...

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Autores principales: Barrett, Christopher D., Moore, Hunter B., Moore, Ernest E., Wang, Janice, Hajizadeh, Negin, Biffl, Walter L., Lottenberg, Lawrence, Patel, Purvesh R., Truitt, Michael S., McIntyre, Robert C., Bull, Todd M., Ammons, Lee Anne, Ghasabyan, Arsen, Chandler, James, Douglas, Ivor S., Schmidt, Eric P., Moore, Peter K., Wright, Franklin L., Ramdeo, Ramona, Borrego, Robert, Rueda, Mario, Dhupa, Achal, McCaul, D. Scott, Dandan, Tala, Sarkar, Pralay K., Khan, Benazir, Sreevidya, Coimbatore, McDaniel, Conner, Grossman Verner, Heather M., Pearcy, Christopher, Anez-Bustillos, Lorenzo, Baedorf-Kassis, Elias N., Jhunjhunwala, Rashi, Shaefi, Shahzad, Capers, Krystal, Banner-Goodspeed, Valerie, Talmor, Daniel S., Sauaia, Angela, Yaffe, Michael B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American College of Chest Physicians. Published by Elsevier Inc. 2022
Materias:
Critical Care: Original Research
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8474873/
https://www.ncbi.nlm.nih.gov/pubmed/34592318
http://dx.doi.org/10.1016/j.chest.2021.09.024
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author Barrett, Christopher D.
Moore, Hunter B.
Moore, Ernest E.
Wang, Janice
Hajizadeh, Negin
Biffl, Walter L.
Lottenberg, Lawrence
Patel, Purvesh R.
Truitt, Michael S.
McIntyre, Robert C.
Bull, Todd M.
Ammons, Lee Anne
Ghasabyan, Arsen
Chandler, James
Douglas, Ivor S.
Schmidt, Eric P.
Moore, Peter K.
Wright, Franklin L.
Ramdeo, Ramona
Borrego, Robert
Rueda, Mario
Dhupa, Achal
McCaul, D. Scott
Dandan, Tala
Sarkar, Pralay K.
Khan, Benazir
Sreevidya, Coimbatore
McDaniel, Conner
Grossman Verner, Heather M.
Pearcy, Christopher
Anez-Bustillos, Lorenzo
Baedorf-Kassis, Elias N.
Jhunjhunwala, Rashi
Shaefi, Shahzad
Capers, Krystal
Banner-Goodspeed, Valerie
Talmor, Daniel S.
Sauaia, Angela
Yaffe, Michael B.
author_facet Barrett, Christopher D.
Moore, Hunter B.
Moore, Ernest E.
Wang, Janice
Hajizadeh, Negin
Biffl, Walter L.
Lottenberg, Lawrence
Patel, Purvesh R.
Truitt, Michael S.
McIntyre, Robert C.
Bull, Todd M.
Ammons, Lee Anne
Ghasabyan, Arsen
Chandler, James
Douglas, Ivor S.
Schmidt, Eric P.
Moore, Peter K.
Wright, Franklin L.
Ramdeo, Ramona
Borrego, Robert
Rueda, Mario
Dhupa, Achal
McCaul, D. Scott
Dandan, Tala
Sarkar, Pralay K.
Khan, Benazir
Sreevidya, Coimbatore
McDaniel, Conner
Grossman Verner, Heather M.
Pearcy, Christopher
Anez-Bustillos, Lorenzo
Baedorf-Kassis, Elias N.
Jhunjhunwala, Rashi
Shaefi, Shahzad
Capers, Krystal
Banner-Goodspeed, Valerie
Talmor, Daniel S.
Sauaia, Angela
Yaffe, Michael B.
author_sort Barrett, Christopher D.
collection PubMed
description BACKGROUND: Pulmonary vascular microthrombi are a proposed mechanism of COVID-19 respiratory failure. We hypothesized that early administration of tissue plasminogen activator (tPA) followed by therapeutic heparin would improve pulmonary function in these patients. RESEARCH QUESTION: Does tPA improve pulmonary function in severe COVID-19 respiratory failure, and is it safe? STUDY DESIGN AND METHODS: Adults with COVID-19-induced respiratory failure were randomized from May14, 2020 through March 3, 2021, in two phases. Phase 1 (n = 36) comprised a control group (standard-of-care treatment) vs a tPA bolus (50-mg tPA IV bolus followed by 7 days of heparin; goal activated partial thromboplastin time [aPTT], 60-80 s) group. Phase 2 (n = 14) comprised a control group vs a tPA drip (50-mg tPA IV bolus, followed by tPA drip 2 mg/h plus heparin 500 units/h over 24 h, then heparin to maintain aPTT of 60-80 s for 7 days) group. Patients were excluded from enrollment if they had not undergone a neurologic examination or cross-sectional brain imaging within the previous 4.5 h to rule out stroke and potential for hemorrhagic conversion. The primary outcome was Pao(2) to Fio(2) ratio improvement from baseline at 48 h after randomization. Secondary outcomes included Pao(2) to Fio(2) ratio improvement of > 50% or Pao(2) to Fio(2) ratio of ≥ 200 at 48 h (composite outcome), ventilator-free days (VFD), and mortality. RESULTS: Fifty patients were randomized: 17 in the control group and 19 in the tPA bolus group in phase 1 and eight in the control group and six in the tPA drip group in phase 2. No severe bleeding events occurred. In the tPA bolus group, the Pao(2) to Fio(2) ratio values were significantly (P < .017) higher than baseline at 6 through 168 h after randomization; the control group showed no significant improvements. Among patients receiving a tPA bolus, the percent change of Pao(2) to Fio(2) ratio at 48 h (16.9% control [interquartile range (IQR), –8.3% to 36.8%] vs 29.8% tPA bolus [IQR, 4.5%-88.7%]; P = .11), the composite outcome (11.8% vs 47.4%; P = .03), VFD (0.0 [IQR, 0.0-9.0] vs 12.0 [IQR, 0.0-19.0]; P = .11), and in-hospital mortality (41.2% vs 21.1%; P = .19) did not reach statistically significant differences when compared with those of control participants. The patients who received a tPA drip did not experience benefit. INTERPRETATION: The combination of tPA bolus plus heparin is safe in severe COVID-19 respiratory failure. A phase 3 study is warranted given the improvements in oxygenation and promising observations in VFD and mortality. TRIAL REGISTRY: ClinicalTrials.gov; No.: NCT04357730; URL: www.clinicaltrials.gov
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spelling pubmed-84748732021-09-28 Study of Alteplase for Respiratory Failure in SARS-CoV-2 COVID-19: A Vanguard Multicenter, Rapidly Adaptive, Pragmatic, Randomized Controlled Trial Barrett, Christopher D. Moore, Hunter B. Moore, Ernest E. Wang, Janice Hajizadeh, Negin Biffl, Walter L. Lottenberg, Lawrence Patel, Purvesh R. Truitt, Michael S. McIntyre, Robert C. Bull, Todd M. Ammons, Lee Anne Ghasabyan, Arsen Chandler, James Douglas, Ivor S. Schmidt, Eric P. Moore, Peter K. Wright, Franklin L. Ramdeo, Ramona Borrego, Robert Rueda, Mario Dhupa, Achal McCaul, D. Scott Dandan, Tala Sarkar, Pralay K. Khan, Benazir Sreevidya, Coimbatore McDaniel, Conner Grossman Verner, Heather M. Pearcy, Christopher Anez-Bustillos, Lorenzo Baedorf-Kassis, Elias N. Jhunjhunwala, Rashi Shaefi, Shahzad Capers, Krystal Banner-Goodspeed, Valerie Talmor, Daniel S. Sauaia, Angela Yaffe, Michael B. Chest Critical Care: Original Research BACKGROUND: Pulmonary vascular microthrombi are a proposed mechanism of COVID-19 respiratory failure. We hypothesized that early administration of tissue plasminogen activator (tPA) followed by therapeutic heparin would improve pulmonary function in these patients. RESEARCH QUESTION: Does tPA improve pulmonary function in severe COVID-19 respiratory failure, and is it safe? STUDY DESIGN AND METHODS: Adults with COVID-19-induced respiratory failure were randomized from May14, 2020 through March 3, 2021, in two phases. Phase 1 (n = 36) comprised a control group (standard-of-care treatment) vs a tPA bolus (50-mg tPA IV bolus followed by 7 days of heparin; goal activated partial thromboplastin time [aPTT], 60-80 s) group. Phase 2 (n = 14) comprised a control group vs a tPA drip (50-mg tPA IV bolus, followed by tPA drip 2 mg/h plus heparin 500 units/h over 24 h, then heparin to maintain aPTT of 60-80 s for 7 days) group. Patients were excluded from enrollment if they had not undergone a neurologic examination or cross-sectional brain imaging within the previous 4.5 h to rule out stroke and potential for hemorrhagic conversion. The primary outcome was Pao(2) to Fio(2) ratio improvement from baseline at 48 h after randomization. Secondary outcomes included Pao(2) to Fio(2) ratio improvement of > 50% or Pao(2) to Fio(2) ratio of ≥ 200 at 48 h (composite outcome), ventilator-free days (VFD), and mortality. RESULTS: Fifty patients were randomized: 17 in the control group and 19 in the tPA bolus group in phase 1 and eight in the control group and six in the tPA drip group in phase 2. No severe bleeding events occurred. In the tPA bolus group, the Pao(2) to Fio(2) ratio values were significantly (P < .017) higher than baseline at 6 through 168 h after randomization; the control group showed no significant improvements. Among patients receiving a tPA bolus, the percent change of Pao(2) to Fio(2) ratio at 48 h (16.9% control [interquartile range (IQR), –8.3% to 36.8%] vs 29.8% tPA bolus [IQR, 4.5%-88.7%]; P = .11), the composite outcome (11.8% vs 47.4%; P = .03), VFD (0.0 [IQR, 0.0-9.0] vs 12.0 [IQR, 0.0-19.0]; P = .11), and in-hospital mortality (41.2% vs 21.1%; P = .19) did not reach statistically significant differences when compared with those of control participants. The patients who received a tPA drip did not experience benefit. INTERPRETATION: The combination of tPA bolus plus heparin is safe in severe COVID-19 respiratory failure. A phase 3 study is warranted given the improvements in oxygenation and promising observations in VFD and mortality. TRIAL REGISTRY: ClinicalTrials.gov; No.: NCT04357730; URL: www.clinicaltrials.gov American College of Chest Physicians. Published by Elsevier Inc. 2022-03 2021-09-27 /pmc/articles/PMC8474873/ /pubmed/34592318 http://dx.doi.org/10.1016/j.chest.2021.09.024 Text en © 2021 American College of Chest Physicians. Published by Elsevier Inc. All rights reserved. Since January 2020 Elsevier has created a COVID-19 resource centre with free information in English and Mandarin on the novel coronavirus COVID-19. The COVID-19 resource centre is hosted on Elsevier Connect, the company's public news and information website. Elsevier hereby grants permission to make all its COVID-19-related research that is available on the COVID-19 resource centre - including this research content - immediately available in PubMed Central and other publicly funded repositories, such as the WHO COVID database with rights for unrestricted research re-use and analyses in any form or by any means with acknowledgement of the original source. These permissions are granted for free by Elsevier for as long as the COVID-19 resource centre remains active.
spellingShingle Critical Care: Original Research
Barrett, Christopher D.
Moore, Hunter B.
Moore, Ernest E.
Wang, Janice
Hajizadeh, Negin
Biffl, Walter L.
Lottenberg, Lawrence
Patel, Purvesh R.
Truitt, Michael S.
McIntyre, Robert C.
Bull, Todd M.
Ammons, Lee Anne
Ghasabyan, Arsen
Chandler, James
Douglas, Ivor S.
Schmidt, Eric P.
Moore, Peter K.
Wright, Franklin L.
Ramdeo, Ramona
Borrego, Robert
Rueda, Mario
Dhupa, Achal
McCaul, D. Scott
Dandan, Tala
Sarkar, Pralay K.
Khan, Benazir
Sreevidya, Coimbatore
McDaniel, Conner
Grossman Verner, Heather M.
Pearcy, Christopher
Anez-Bustillos, Lorenzo
Baedorf-Kassis, Elias N.
Jhunjhunwala, Rashi
Shaefi, Shahzad
Capers, Krystal
Banner-Goodspeed, Valerie
Talmor, Daniel S.
Sauaia, Angela
Yaffe, Michael B.
Study of Alteplase for Respiratory Failure in SARS-CoV-2 COVID-19: A Vanguard Multicenter, Rapidly Adaptive, Pragmatic, Randomized Controlled Trial
title Study of Alteplase for Respiratory Failure in SARS-CoV-2 COVID-19: A Vanguard Multicenter, Rapidly Adaptive, Pragmatic, Randomized Controlled Trial
title_full Study of Alteplase for Respiratory Failure in SARS-CoV-2 COVID-19: A Vanguard Multicenter, Rapidly Adaptive, Pragmatic, Randomized Controlled Trial
title_fullStr Study of Alteplase for Respiratory Failure in SARS-CoV-2 COVID-19: A Vanguard Multicenter, Rapidly Adaptive, Pragmatic, Randomized Controlled Trial
title_full_unstemmed Study of Alteplase for Respiratory Failure in SARS-CoV-2 COVID-19: A Vanguard Multicenter, Rapidly Adaptive, Pragmatic, Randomized Controlled Trial
title_short Study of Alteplase for Respiratory Failure in SARS-CoV-2 COVID-19: A Vanguard Multicenter, Rapidly Adaptive, Pragmatic, Randomized Controlled Trial
title_sort study of alteplase for respiratory failure in sars-cov-2 covid-19: a vanguard multicenter, rapidly adaptive, pragmatic, randomized controlled trial
topic Critical Care: Original Research
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8474873/
https://www.ncbi.nlm.nih.gov/pubmed/34592318
http://dx.doi.org/10.1016/j.chest.2021.09.024
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