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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT04653831
Other study ID # SCRC20007
Secondary ID
Status Completed
Phase N/A
First received
Last updated
Start date November 8, 2020
Est. completion date December 31, 2022

Study information

Verified date May 2023
Source Soroka University Medical Center
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

A randomized, open label, two arm, pilot trial of Pirfenidone 2,403 mg administered per nasogastric tube or orally as 801mg TID for 4 weeks in addition to Standard of Care (SoC), compared to SoC alone, in a population of COVID-19 induced severe ARDS. Patients will be randomized according to 1:1 ratio to one of the trial arms: Pirfenidone (intervention arm) or SoC (control arm).


Description:

The objective of the trial is to evaluate the safety and efficacy of treatment with Pirfenidone vs SoC in COVID-19 induced severe Acute Respiratory Distress Syndrome (ARDS) requiring mechanical ventilation. Following initial diagnosis of COVID-19, severe ARDS patient will be admitted to a dedicated intensive care unit (ICU) at Soroka University Medical Center (Day 0). Upon admission, patients will be randomized according to 1:1 ratio to one of the trial arms and receive either Pirfenidone 2,403mg administered through nasogastric tube as 801mg TID (intervention arm) plus SoC or only SoC treatment (control arm). Patients' vital signs (temperature, blood pressure, pulse rate per minute, breath rate per minute, oxygen saturation) urine output, ventilation settings, and respiratory parameters will be monitored according to SoC. Symptom will be captured daily from patients as well as adverse events (AEs) assessment and recording of the need for any supportive care during the period of ICU admission.


Recruitment information / eligibility

Status Completed
Enrollment 26
Est. completion date December 31, 2022
Est. primary completion date December 31, 2022
Accepts healthy volunteers No
Gender All
Age group 18 Years to 80 Years
Eligibility Inclusion Criteria: - Men and women between the ages 18-80 years - Diagnosis of COVID19 with severe ARDS (PaO2/FIO2 <150mmHg) - Admission to the ICU and in need of mechanical ventilation - Able to give informed consent according to local regulations. If the patient is unable to give written informed consent, the form will be read to them and their verbal consent will be documented. If the patient is sedated, an impartial ICU physician will approve eligibility. Exclusion Criteria: - Previous use of nintedanib or pirfenidone - Administration of fluvoxamine 7 days prior to admission to ICU - Severe hepatic impairment (liver enzymes and bilirubin>2 of normal upper limit, at day 0) or end stage liver disease - Severe renal impairment (CrCl <30 ml/min) or end stage renal disease requiring dialysis - Pregnancy - Participation in any other clinical trial 30 days prior to enrollment

Study Design


Related Conditions & MeSH terms


Intervention

Drug:
Pirfenidone
Treatment with Pirfenidone as mentioned in the experimental arm description.
Other:
Standard of care
Treatment with SoC as mentioned in the control arm description.

Locations

Country Name City State
Israel Soroka Medical Center Be'er Sheva

Sponsors (2)

Lead Sponsor Collaborator
Soroka University Medical Center Roche Pharma AG

Country where clinical trial is conducted

Israel, 

References & Publications (20)

ARDS Definition Task Force; Ranieri VM, Rubenfeld GD, Thompson BT, Ferguson ND, Caldwell E, Fan E, Camporota L, Slutsky AS. Acute respiratory distress syndrome: the Berlin Definition. JAMA. 2012 Jun 20;307(23):2526-33. doi: 10.1001/jama.2012.5669. — View Citation

Bernard GR, Artigas A, Brigham KL, Carlet J, Falke K, Hudson L, Lamy M, Legall JR, Morris A, Spragg R. The American-European Consensus Conference on ARDS. Definitions, mechanisms, relevant outcomes, and clinical trial coordination. Am J Respir Crit Care Med. 1994 Mar;149(3 Pt 1):818-24. doi: 10.1164/ajrccm.149.3.7509706. — View Citation

Burnham EL, Janssen WJ, Riches DW, Moss M, Downey GP. The fibroproliferative response in acute respiratory distress syndrome: mechanisms and clinical significance. Eur Respir J. 2014 Jan;43(1):276-85. doi: 10.1183/09031936.00196412. Epub 2013 Mar 21. — View Citation

Chen HC, et al pirfenidone can enhance the patients' recovery from fibrotic phase of ARDS: a case report. https://doi.org/10.1016/j.chest.2019.02.130

Combes A, Hajage D, Capellier G, Demoule A, Lavoue S, Guervilly C, Da Silva D, Zafrani L, Tirot P, Veber B, Maury E, Levy B, Cohen Y, Richard C, Kalfon P, Bouadma L, Mehdaoui H, Beduneau G, Lebreton G, Brochard L, Ferguson ND, Fan E, Slutsky AS, Brodie D, Mercat A; EOLIA Trial Group, REVA, and ECMONet. Extracorporeal Membrane Oxygenation for Severe Acute Respiratory Distress Syndrome. N Engl J Med. 2018 May 24;378(21):1965-1975. doi: 10.1056/NEJMoa1800385. — View Citation

Conte E, Gili E, Fagone E, Fruciano M, Iemmolo M, Vancheri C. Effect of pirfenidone on proliferation, TGF-beta-induced myofibroblast differentiation and fibrogenic activity of primary human lung fibroblasts. Eur J Pharm Sci. 2014 Jul 16;58:13-9. doi: 10.1016/j.ejps.2014.02.014. Epub 2014 Mar 12. — View Citation

Ichikado K, Muranaka H, Gushima Y, Kotani T, Nader HM, Fujimoto K, Johkoh T, Iwamoto N, Kawamura K, Nagano J, Fukuda K, Hirata N, Yoshinaga T, Ichiyasu H, Tsumura S, Kohrogi H, Kawaguchi A, Yoshioka M, Sakuma T, Suga M. Fibroproliferative changes on high-resolution CT in the acute respiratory distress syndrome predict mortality and ventilator dependency: a prospective observational cohort study. BMJ Open. 2012 Mar 1;2(2):e000545. doi: 10.1136/bmjopen-2011-000545. Print 2012. — View Citation

Keshari RS, Silasi-Mansat R, Zhu H, Popescu NI, Peer G, Chaaban H, Lambris JD, Polf H, Lupu C, Kinasewitz G, Lupu F. Acute lung injury and fibrosis in a baboon model of Escherichia coli sepsis. Am J Respir Cell Mol Biol. 2014 Feb;50(2):439-50. doi: 10.1165/rcmb.2013-0219OC. — View Citation

King TE Jr, Bradford WZ, Castro-Bernardini S, Fagan EA, Glaspole I, Glassberg MK, Gorina E, Hopkins PM, Kardatzke D, Lancaster L, Lederer DJ, Nathan SD, Pereira CA, Sahn SA, Sussman R, Swigris JJ, Noble PW; ASCEND Study Group. A phase 3 trial of pirfenidone in patients with idiopathic pulmonary fibrosis. N Engl J Med. 2014 May 29;370(22):2083-92. doi: 10.1056/NEJMoa1402582. Epub 2014 May 18. Erratum In: N Engl J Med. 2014 Sep 18;371(12):1172. — View Citation

Koh Y. Update in acute respiratory distress syndrome. J Intensive Care. 2014 Jan 3;2(1):2. doi: 10.1186/2052-0492-2-2. eCollection 2014. — View Citation

Li Y, Li H, Liu S, Pan P, Su X, Tan H, Wu D, Zhang L, Song C, Dai M, Li Q, Mao Z, Long Y, Hu Y, Hu C. Pirfenidone ameliorates lipopolysaccharide-induced pulmonary inflammation and fibrosis by blocking NLRP3 inflammasome activation. Mol Immunol. 2018 Jul;99:134-144. doi: 10.1016/j.molimm.2018.05.003. Epub 2018 May 26. — View Citation

Liu Q, Lv H, Wen Z, Ci X, Peng L. Isoliquiritigenin Activates Nuclear Factor Erythroid-2 Related Factor 2 to Suppress the NOD-Like Receptor Protein 3 Inflammasome and Inhibits the NF-kappaB Pathway in Macrophages and in Acute Lung Injury. Front Immunol. 2017 Nov 9;8:1518. doi: 10.3389/fimmu.2017.01518. eCollection 2017. — View Citation

Liu Y, Lu F, Kang L, Wang Z, Wang Y. Pirfenidone attenuates bleomycin-induced pulmonary fibrosis in mice by regulating Nrf2/Bach1 equilibrium. BMC Pulm Med. 2017 Apr 18;17(1):63. doi: 10.1186/s12890-017-0405-7. — View Citation

Meduri GU, Headley S, Kohler G, Stentz F, Tolley E, Umberger R, Leeper K. Persistent elevation of inflammatory cytokines predicts a poor outcome in ARDS. Plasma IL-1 beta and IL-6 levels are consistent and efficient predictors of outcome over time. Chest. 1995 Apr;107(4):1062-73. doi: 10.1378/chest.107.4.1062. — View Citation

Papazian L, Doddoli C, Chetaille B, Gernez Y, Thirion X, Roch A, Donati Y, Bonnety M, Zandotti C, Thomas P. A contributive result of open-lung biopsy improves survival in acute respiratory distress syndrome patients. Crit Care Med. 2007 Mar;35(3):755-62. doi: 10.1097/01.CCM.0000257325.88144.30. — View Citation

Rhodes A, Evans LE, Alhazzani W, Levy MM, Antonelli M, Ferrer R, Kumar A, Sevransky JE, Sprung CL, Nunnally ME, Rochwerg B, Rubenfeld GD, Angus DC, Annane D, Beale RJ, Bellinghan GJ, Bernard GR, Chiche JD, Coopersmith C, De Backer DP, French CJ, Fujishima S, Gerlach H, Hidalgo JL, Hollenberg SM, Jones AE, Karnad DR, Kleinpell RM, Koh Y, Lisboa TC, Machado FR, Marini JJ, Marshall JC, Mazuski JE, McIntyre LA, McLean AS, Mehta S, Moreno RP, Myburgh J, Navalesi P, Nishida O, Osborn TM, Perner A, Plunkett CM, Ranieri M, Schorr CA, Seckel MA, Seymour CW, Shieh L, Shukri KA, Simpson SQ, Singer M, Thompson BT, Townsend SR, Van der Poll T, Vincent JL, Wiersinga WJ, Zimmerman JL, Dellinger RP. Surviving Sepsis Campaign: International Guidelines for Management of Sepsis and Septic Shock: 2016. Intensive Care Med. 2017 Mar;43(3):304-377. doi: 10.1007/s00134-017-4683-6. Epub 2017 Jan 18. — View Citation

Saha A, Vaidya PJ, Chavhan VB, Achlerkar A, Leuppi JD, Chhajed PN. Combined pirfenidone, azithromycin and prednisolone in post-H1N1 ARDS pulmonary fibrosis. Sarcoidosis Vasc Diffuse Lung Dis. 2018;35(1):85-90. doi: 10.36141/svdld.v35i1.6393. Epub 2018 Apr 28. — View Citation

Schaefer CJ, Ruhrmund DW, Pan L, Seiwert SD, Kossen K. Antifibrotic activities of pirfenidone in animal models. Eur Respir Rev. 2011 Jun;20(120):85-97. doi: 10.1183/09059180.00001111. — View Citation

Wu Z, McGoogan JM. Characteristics of and Important Lessons From the Coronavirus Disease 2019 (COVID-19) Outbreak in China: Summary of a Report of 72 314 Cases From the Chinese Center for Disease Control and Prevention. JAMA. 2020 Apr 7;323(13):1239-1242. doi: 10.1001/jama.2020.2648. No abstract available. — View Citation

Yang X, Yu Y, Xu J, Shu H, Xia J, Liu H, Wu Y, Zhang L, Yu Z, Fang M, Yu T, Wang Y, Pan S, Zou X, Yuan S, Shang Y. Clinical course and outcomes of critically ill patients with SARS-CoV-2 pneumonia in Wuhan, China: a single-centered, retrospective, observational study. Lancet Respir Med. 2020 May;8(5):475-481. doi: 10.1016/S2213-2600(20)30079-5. Epub 2020 Feb 24. Erratum In: Lancet Respir Med. 2020 Apr;8(4):e26. — View Citation

* Note: There are 20 references in allClick here to view all references

Outcome

Type Measure Description Time frame Safety issue
Primary Ventilation free days to day 28 (VFD28) Measured in number of days Up to 28 days from admission to ICU
Primary Severe adverse events (SAEs) rate Number of SAEs divided to number of patients Through study completion, an average of 1 year
Secondary Mortality Includes all cause mortality, mortality in the ICU, 28 days mortality, 60 days mortality, in-hospital mortality, and ARDS related mortality. Measured in number of days. Through study completion, an average of 1 year
Secondary ICU length of stay Measured in number of days Through study completion, an average of 1 year
Secondary Lung compliance Part of mechanical ventilation parameters, calculated as tidal volume divided by the difference between plateau pressure and PEEP. Daily average will be assessed until extubation. Units are mL/cmH2O. Through study completion, an average of 1 year
Secondary Tidal Volume Part of mechanical ventilation parameters, it is the lung volume representing the volume of air displaced between normal inhalation and exhalation. Measured continuously by the ventilator, calculated and represented as area under the curve after omitting extreme values <5 and >95 percentiles. Measured in mL. Through study completion, an average of 1 year
Secondary Positive End Expiratory Pressure (PEEP) Part of mechanical ventilation parameters, it is the pressure in the lungs above atmospheric pressure that exists at the end of expiration. It is set by the treating physicians according to the clinical situation of the patient, and will be documented daily until extubation. Measured in cmH2O. Through study completion, an average of 1 year
Secondary Driving Pressure Part of mechanical ventilation parameters, it is the difference between plateau pressure and PEEP. Measured continuously by the ventilator, calculated and represented as area under the curve after omitting extreme values <5 and >95 percentiles. Through study completion, an average of 1 year
Secondary Quality of life questionnaire Assessed by St George Respiratory Questionnaire (SGRQ). Scoring range from 0 to 100, with higher scored indicating more limitation. on admission and 6 months after discharge
Secondary Vital Capacity (VC) Part of pulmonary function tests, it is the maximum amount of air a person can expel from the lungs after a maximum inhalation. Measured on a spirometer in mL. On admission (if possible) and 6 months after discharge
Secondary Forced Vital Capacity (FVC) Part of pulmonary function tests, it is the vital capacity that results from a maximally forced expiratory effort. Measured on a spirometer in mL. On admission (if possible) and 6 months after discharge
Secondary Forced Expiratory Volume at first second (FEV1) Part of pulmonary function tests, it is the volume of air exhaled at the end of the first second of forced expiration. Measured on a spirometer in mL. On admission (if possible) and 6 months after discharge
Secondary Diffusing Capacity for Carbon Monoxide (DLCO) Part of pulmonary function tests, it is the extent to which oxygen passes from the air sacs of the lungs into the blood. Measured on a spirometer in mL/min/kPa. On admission (if possible) and 6 months after discharge
Secondary 6 minutes walking test The distance covered over a time of 6 minutes, measured in meters. 6 months after discharge from hospital
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