STOP-COVID19: Superiority Trial Of Protease Inhibition in COVID-19

NCT ID: NCT04817332

Last Updated: 2023-08-22

Basic Information

• Recruitment Status: COMPLETED
• Clinical Phase: PHASE3
• Total Enrollment: 406 participants
• Study Classification: INTERVENTIONAL
• Study Start Date: 2020-06-05
• Study Completion Date: 2021-02-28

Brief Summary

COVID-19 is a respiratory disease caused by a novel coronavirus (SARS-CoV-2) and causes substantial morbidity and mortality. There is currently no vaccine to prevent infection with SARS-CoV-2 and no therapeutic agent to treat COVID-19. This clinical trial is designed to evaluate the potential of Brensocatib (INS1007) as a novel host directed therapy for the treatment of adult patients hospitalized with COVID-19. The investigators hypothesise that Brensocatib, by blocking damaging neutrophil proteases, will reduce the incidence of acute lung injury and acute respiratory distress syndrome (ARDS) in patients with COVID-19, thereby resulting in improved clinical outcomes at day 15 and day 29, fewer days dependent on oxygen or mechanical ventilation, and shorter length of hospital stay.

High rates of patients requiring mechanical ventilation and overwhelming intensive care unit capacity has been the major issue contributing to excess deaths in Italy and Spain during the pandemic and is likely to be a major issue in other countries such as the United Kingdom in the coming weeks. Treatments that could prevent the requirement for mechanical ventilation or shorten the duration of ICU stay by reducing the severity of ARDS are therefore the number 1 target for COVID19 therapy.

The investigators recently conducted a large phase 2 study of Brensocatib in patients with bronchiectasis designed to test if treatment with Brensocatib could reduce infective exacerbations and reduce neutrophil elastase activity in the lung in bronchiectasis patients. The study met its primary endpoint of time to first exacerbation and key secondary endpoint of the frequency of exacerbations as well as showing marked reductions in neutrophil elastase concentrations in sputum.

Participants will be randomised to receive Brensocatib or placebo 25mg orally once daily for 28 days.

Detailed Description

BACKGROUND COVID-19 is a respiratory disease caused by a novel coronavirus severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2) and causes substantial morbidity and mortality.This clinical trial is designed to evaluate the potential of Brensocatib as a novel host directed therapy for the treatment of adult patients hospitalised with COVID-19. The investigators hypothesise that Brensocatib, by blocking damaging neutrophil proteases, will reduce the incidence of acute lung injury and acute respiratory distress syndrome (ARDS) in patients with COVID-19, thereby resulting in improved clinical outcomes at day 15 and day 29, fewer days dependent on oxygen or mechanical ventilation, and shorter length of hospital stay.

Coronavirus (CoVs) are positive-sense single stranded enveloped Ribonucleic acid (RNA) viruses, many of which are commonly found in humans and cause mild symptoms. Over the past two decades, emerging pathogenic CoVs capable of causing life-threatening disease in humans and animals have been identified, namely severe acute respiratory syndrome (SARS) coronavirus (SARS-CoV) and Middle Eastern respiratory syndrome coronavirus (MERS- CoV).

In December 2019, the Wuhan Municipal Health Committee (Wuhan, China) identified an outbreak of viral pneumonia cases of unknown cause.5 Coronavirus RNA was quickly identified in some of these patients. This novel coronavirus has been abbreviated as SARS-COV-2 and has 89% nucleotide identity with bat SARS-like-CoVZXC21 and 82% with that of human SARS-CoV. This novel coronavirus has been designated SARS-CoV-2, and the disease caused by this virus has been designated COVID-19. Initial infections were travel associated with individuals having contact with Wuhan or other affected areas but the disease has now spread to affect hundreds of thousands of patients worldwide with widespread community transmission across the globe.

Outbreak forecasting and mathematical modelling suggest that these numbers will continue to rise.

Global efforts to evaluate novel antivirals and therapeutic strategies to treat COVID-19 have intensified but to date dexamethasone is the only therapy shown to reduce mortality in COVID-19 while repurposed antiviral drugs did not show clinical benefits in the World Health Organisation SOLIDARITY trial.

Mortality from COVID-19 has been estimated at between 0.5% and 3.4% of infected patients and occurs most frequently because of the development of ARDS. In contrast to some, particularly bacterial pneumonias, where patients present with acute respiratory failure and sepsis, the dynamics of COVID-19 infection demonstrate a slow deterioration in oxygenation with the development of bilateral infiltrates in a high proportion of patients, consistent with the development of ARDS. Patients subsequently require mechanical ventilation.

Treatments that could prevent the requirement for mechanical ventilation or shorten the duration of intensive care unit stay by reducing the severity of ARDS are therefore the number 1 target for COVID-19 therapy.

Neutrophils in ARDS Neutrophil influx into the extravascular compartments of the lungs is a defining characteristic of ARDS. During ARDS, circulating neutrophils become primed, resulting in reduce deformability and retention within the pulmonary capillary bed. They then migrate across the endothelium through the interstitium and epithelium into the airways themselves. As neutrophils migrate they are activated and release oxidants, proteases and neutrophil extracellular traps. All of these processes are important in killing bacterial pathogens but in ARDS these processes become prolonged and excessive leading to progressive lung damage. Neutrophil elastase and other neutrophil proteases such as proteinase-3 and cathepsin-G cause tissue injury resulting in increased epithelial and endothelial permeability which leads to the influx of protein-rich alveolar oedema.

Mortality in ARDS correlates directly with the extent of neutrophilia in the lung. Both human clinical data and murine studies demonstrate a key role for neutrophils in ARDS. Neutrophil depletion in multiple models of ARDS including those induced by lipopolysaccharide, acid, ventilator lung injury, transfusion and other stimuli, reduces the severity of acute lung injury including endothelial-epithelial cell damage and capillary-alveolar permeability.

Neutrophil proteases and particularly neutrophil elastase are believed to be central to the neutrophil induced lung damage. Neutrophil elastase is a serine protease contained within primary neutrophil granules which is released in response to neutrophil activation or neutrophil extracellular trap formation. It is involved in the pathogenesis of multiple inflammatory diseases and therapeutic development of neutrophil elastase inhibitors for use in ARDS has been ongoing for many years. Neutrophil elastase is markedly elevated in human ARDS samples and the inhibition of neutrophil elastase has been demonstrated to reduce epithelial injury in multiple animal models of lung injury across multiple stimuli including lipopolysaccharide (LPS), bleomycin, ventilation, sepsis and many others. Neutrophil elastase is critical to the development of neutrophil extracellular traps, which are highly damaging webs of DNA studded with proteases and other neutrophil derived toxins. Neutrophil extracellular traps (NET) formation and the failure to clear NETs have been strongly implicated in the development and poor outcomes from ARDS. Inhibition of neutrophil elastase reduces the formation of NETs.

A challenge therapeutically has been how to inhibit neutrophil elastase since administration of competitive inhibitors either orally or through the inhaled route may not be sufficient to block elastase activity in the lung.

RATIONALE Neutrophil elastase, proteinase-3 and cathepsin-G are activated during neutrophil maturation in the bone marrow through dipeptidyl peptidase 1 (DPP1; also known as cathepsin C), which removes the N-terminal dipeptide sequence of neutrophil serine proteases allowing active enzymes to be packaged into granules prior to release of neutrophils into the circulation. Brensocatib (INS1007, formerly AZD7986) is an orally delivered selective, competitive, and reversible inhibitor of DPP1. Brensocatib has been shown to inhibit neutrophil serine protease activity in blood in both animal models and healthy volunteers.

The investigators recently conducted a large phase 2 study of Brensocatib in patients with bronchiectasis designed to test if treatment with Brensocatib could reduce infective exacerbations and reduce neutrophil elastase activity in the lung in bronchiectasis patients. The study met its primary endpoint of time to first exacerbation and key secondary endpoint of the frequency of exacerbations as well as showing marked reductions in neutrophil elastase concentrations in sputum. Due to the need to replace the circulating pool of neutrophils with new neutrophils which are deficient in elastase, Brensocatib does not have its effect immediately, but rather over several days. Elastase concentrations were reduced at the first time point at day 14 in the phase 2 study, with very large reductions observed at the second time point at day 28.

In a cohort of 191 hospitalised COVID-19 patients with a completed outcome, the median time from illness onset to discharge was 22·0 days (IQR 18·0-25·0) and the median time to death was 18·5 days (15·0-22·0). Thirty-two patients (17%) required invasive mechanical ventilation and the median time from onset to mechanical ventilation was 14.5 days. The investigators hypothesise that the mechanism of action of Brensocatib to reduce protease activity will be more rapid in COVID-19 patients compared to bronchiectasis due to a more rapid turnover of neutrophils in acute illness. The objective is to test whether by reducing neutrophil protease activity in neutrophils the investigatorscan prevent or reverse the development of ARDS and thereby improve outcomes in individuals with COVID-19 infection.

Conditions

Covid19

Study Design

• Allocation Method: RANDOMIZED
• Intervention Model: PARALLEL
• Primary Study Purpose: TREATMENT
• Blinding Strategy: QUADRUPLE

Study Groups

Brensocatib

Brensocatib oral tablet, 25mg once per day for 28 days

Group Type: EXPERIMENTAL

Brensocatib

Intervention Type: DRUG

Selective, competitive, and reversible inhibitor of DPP1

Placebo

Placebo oral tablet, 25mg once per day for 28 days

Group Type: PLACEBO_COMPARATOR

Placebo

Intervention Type: DRUG

Matched placebo

Interventions

Brensocatib

Selective, competitive, and reversible inhibitor of DPP1

Intervention Type: DRUG

Placebo

Matched placebo

Intervention Type: DRUG

Other Intervention Names

INS1007

Eligibility Criteria

Inclusion Criteria

• Male or female

• ≥16 years of age
• SARS-CoV-2 infection (clinically suspected+ or laboratory confirmed*).
• Admitted to hospital as in-patient less than 96 hours prior to randomisation^
• Illness of any duration, and at least one of the following:

• Radiographic infiltrates by imaging (e.g. chest x-ray, computed tomography (CT) scan) OR
• Evidence of rales/crackles on physical examination OR
• Peripheral capillary oxygen saturation (SpO2) ≤94% on room air prior to randomization OR
• Requiring supplemental oxygen. OR
• Lymphocyte count <1 x 109 cells per litre (L)
• Participant (or legally authorized representative) provides written informed consent
• Able to take oral medication
• Participant (or legally authorised representative) understands and agrees to comply with planned trial procedures.

• Laboratory-confirmed: SARS-CoV-2 infection as determined by polymerase chain reaction (PCR), or other commercial or public health assay in any specimen < 96 hours prior to randomization.

• Clinically suspected: in general, SARS-CoV-2 infection should be suspected when a patient presents with (i) typical symptoms (e.g. influenza-like illness with fever and muscle pain, or respiratory illness with cough and shortness of breath); and (ii) compatible chest X-ray findings (consolidation or ground-glass shadowing); and (iii) alternative causes have been considered unlikely or excluded (e.g. heart failure, influenza). However, the diagnosis remains a clinical one based on the opinion of the managing doctor

• Where a patient has been admitted to hospital for a non COVID-19 reason and develops COVID-19 symptoms whilst an in-patient, randomisation may occur up to 96 hours from onset of symptoms.

Exclusion Criteria

• Alanine aminotransferase (ALT) and/or aspartate aminotransferase (AST) > 5 times the upper limit of normal, result within 72 hours of randomization (the result closest to randomization should be used if several results are available).
• History of severe liver disease
• Stage 4 severe chronic kidney disease or requiring dialysis (i.e. estimated Glomerular Filtration Rate < 30), result within 72 hours of randomization (the result closest to randomization should be used if several results are available)
• Absolute neutrophil count less than 1.0 x 109 cells per L within 72 hours of randomization (the result closest to randomization should be used if several results are available)
• Current treatments with potent Cyp3A4 inducers/inhibitors (e.g Itraconazole, Ketoconazole, diltiazem, verapamil, phenytoin or rifampicin)
• HIV treatments - current treatment with protease/integrase inhibitors or non-nucleoside reverse transcriptase inhibitors*
• Pregnant or breast feeding.
• Anticipated transfer to another hospital which is not a trial site within 24 hours.
• Allergy to Brensocatib
• Use of any investigational drug within five times of the elimination half-life after the last trial dose or within 30 days, whichever is longer. Co-enrolment with COVID-19 trials is allowed as per co-enrolment agreements and/or individual decision by the Chief Investigator.

Women of child-bearing potential must be willing to have pregnancy testing prior to trial entry.

*The Liverpool HIV checker (https://www.hiv-druginteractions.org/checker) should be used to check for any HIV drug interactions. Simvastatin could be used as a surrogate for Brensocatib as it metabolised similarly by CYP 3A4 pathway.

-

• Minimum Eligible Age: 16 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

NHS Tayside

OTHER_GOV

Sponsor Role: collaborator

Insmed Incorporated

INDUSTRY

Sponsor Role: collaborator

University of Dundee

OTHER

Sponsor Role: lead

Responsible Party

James Chalmers

Professor of Respiratory Research

Responsibility Role: PRINCIPAL_INVESTIGATOR

Principal Investigators

James Chalmers

Role: PRINCIPAL_INVESTIGATOR

University of Dundee

Locations

NHS Grampian

Aberdeen, , United Kingdom

Royal United Hospitals Bath NHS Foundation Trust

Bath, , United Kingdom

University Hospitals Birmingham NHS Foundation Trust

Birmingham, , United Kingdom

Cardiff & Vale University Health Board

Cardiff, , United Kingdom

NHS Tayside

Dundee, , United Kingdom

NHS Fife

Dunfermline, , United Kingdom

Frimley Health NHS Foundation Trust

Frimley, , United Kingdom

Princess Alexandra Hospital NHS Trust

Harlow, , United Kingdom

NHS Highland

Inverness, , United Kingdom

NHS Forth Valley

Larbert, , United Kingdom

University Hospitals of Leicester NHS Trust

Leicester, , United Kingdom

Liverpool University Hospitals NHS Foundation Trust

Liverpool, , United Kingdom

Portsmouth Hospitals NHS Trust

Portsmouth, , United Kingdom

Sheffield Teaching Hospitals NHS Foundation Trust

Sheffield, , United Kingdom

University Hospitals North Midlands NHS Trust

Stoke-on-Trent, , United Kingdom

NHS Lanarkshire

Wishaw, , United Kingdom

Countries

United Kingdom

Provided Documents

Document Type: Study Protocol

View Document

Document Type: Statistical Analysis Plan

View Document

Other Identifiers

2020-001643-13

Identifier Type: EUDRACT_NUMBER

Identifier Source: secondary_id

281986

Identifier Type: OTHER

Identifier Source: secondary_id

01.01.20

Identifier Type: -

Identifier Source: org_study_id