COVID Clinical Trial
Official title:
A Pilot, Open Label, Phase II Clinical Trial of Nebulised Recombinant Tissue-Plasminogen Activator (Rt-PA)
Some patients infected with COVID-19 require hospitalisation and develop patients a severe form of a lung disease called respiratory distress syndrome (ARDS). In these patients, the lungs become severely inflamed because of the virus. The inflammation causes fluid from nearby blood vessels to leak into the tiny air sacs in the lungs, making breathing increasingly difficult. This fluid forms small clots in the air sacs, creating a barrier until the cells regenerate. In some patients, this clot does not disappear in a timely fashion or interferes with the development of the new cells. Furthermore, the small clots in the air sacs obstruct the air and oxygen getting deep into the lungs, interfering with proper ventilation. The trial will recruit patients with COVID-19 induced ARDS. Eligible patients (or if patients lack capacity, their legal representative) will be provided with an information sheet and informed consent will be sought. Eligibility will be mainly assessed via routine clinical assessments. Patients will receive a nebulised version of a type of drug called tissue plasminogen activator (rt-PA) that is inhaled using a nebuliser. This is normally a drug used to break down blood clots. In this situation though, it might be useful for stopping clots forming in the lungs, because these might lead to even more difficulties with breathing. The study will run two cohorts sequentially. In cohort 1, 9 consented patients received nebulised rtPA in addition to SOC. 6 patients were receiving IMV and 3 were receiving non invasive support with NIV or CPAP or high flow oxygen or standard oxygen therapy. As an observational arm, matched historical controls who received standard of care were also recruited at a ratio of 2 controls to every 1 treatment arm patient, resulting in 18 historical controls. Originally, the study aimed to recruit 12 patients with 6 on each ventilation type (IMV and non-invasive oxygen support). This would have resulted in 24 historical controls. After the first wave of COVID-19 cases decreased in August 2020 in the UK it became difficult to continue recruitment, so recruitment closed for cohort 1. With a second surge underway in early 2021, cohort 2 will aim to recruit more patients during this period to provide more data on the safety of rtPA. Fewer timepoints will be collected, which will allow for more rapid recruitment while at the same time not compromising safety monitoring. A more flexible dosing regimen for rtPA will be utilised. 30 patients will be recruited in total, with an aim to recruit a minimum of 10 IMV patients and 10 patients on non-invasive oxygen support. To evaluate efficacy, the improvement of oxygen levels over time and safety will be be monitored throughout. Blood samples will be taken to measure markers of clotting and inflammation in both groups. From the end of the treatment phase both groups will be followed up in accordance with SOC for 28 days from the day of first dose of rtPA.
This is a phase II, open label, single centre, uncontrolled, repeated dose, pilot trial of nebulised rt-PA in patients with COVID-19 ARDS. The study will recruit patients requiring either IMV or NIV. Eligible patients (or if patients lack capacity, their legal representative) will be provided with an information sheet and informed consent will be sought. Eligibility will be assessed via routine clinical assessments, which may have been done prior to consent. The only exceptions are a pregnancy test (blood or urine), and possibly any assessments that were not done as per routine care. These must be done following consent, and all screening assessments must have been done during the 24-hour period before dosing with rt-PA. The first 12 consented patients will receive nebulised rt-PA in addition to SOC. As an observational arm, matched historical controls who received standard of care were also recruited at a ratio of 2 controls to every 1 treatment arm patient, to ensure that any changes are not entirely due to disease resolution. In the treatment group, 6 patients will be receiving IMV and another six will be receiving NIV. This consituted cohort 1. For patients in the rt-PA group, 10 mg of rt-PA dissolved in 5 ml of diluent will be given every 6 hrs for 3 days (this was extended to 14 days with a subsequent amendment). Dose modifications will not be permitted. Efficacy will be assessed by the monitoring of arterial oxygen saturation. With a second surge underway in early 2021, cohort 2 will aim to recruit more patients during this period to provide more data on the safety of rtPA. Fewer timepoints will be collected, which will allow for more rapid recruitment while at the same time not compromising safety monitoring. A more flexible dosing regimen for rtPA will be utilised. Patients on IMV will receive 60mg daily over three doses for 14 days, NIV patients will receive 60mg daily for over 3 doses for two days, followed by 12 days receiving 40mg daily over two doses. 30 patients will be recruited to cohort 2 in total, with an aim to recruit a minimum of 10 IMV patients and 10 patients on non-invasive oxygen support. Safety monitoring will be performed by assessment of the incidence and severity of bleeding events, and by the monitoring of plasma fibrinogen levels and routine coagulation parameters. Additional samples will be taken for exploratory assessment of potential biomarkers, including (but not restricted to) PAI- 1, alpha 2 antiplasmin and a range of inflammatory cytokines and coagulation proteins. All other monitoring will be done as per SOC. From the end of the treatment phase (after Day 14) patients will be followed up in accordance with SOC for 28 days from the day of first dose of rtPA. A statistically powered randomised controlled trial (RCT) would be ideal to define the magnitude of benefit and impact on overall survival and is the typical design in patients with ARDS. Although there is clinical data on the safety of nebulised rt-PA, but there is no clinical data in this clinical condition to facilitate a sample size calculation. There is data from a small RCT that has used another fibrinolytic agent, but the doses are not comparable. When a patient is randomised to receive no treatment, this precludes participation in other interventional studies which might decrease the risk of mortality. The most recent figures suggest a 50% mortality in patients receiving IMV there is 50% mortality. Currently there is a concerted effort to introduce multiple therapies based on our understanding of the pathophysiologic basis of disorder. Further, if this pilot study shows significant effect in a subset of patients, there would be justification to progress to a statistically powered RCT. In the event of major adverse drug reactions or minor improvement in the oxygenation as assessed by PaO2/FiO2 , there are minimal gains to be had with a larger randomised control study. Although there is extensive experience with the use of nebulised rt-PA in the context of the underlying inflammation, safety measures been included. A gap of 24hrs will be maintained between first and second patient. At 24hrs if patient 1 has no evidence of major pulmonary bleeding suggesting exaggerated alveolar fibrinolysis and no evidence of fibrinogen reduction of more than 50%, suggestive of systemic absorption a second patient will be dosed. Both patients will be evaluated for 72 hrs for major pulmonary bleeding and if no bleeding is noticed than the rest of the cohort can be recruited after the review of the safety data by the trial management group comprised of the investigators. If there are any concerns with the data this will be referred to the DMC for review. If the safety profile is acceptable, dosing of the third and subsequent patients in the rt-PA group will resume with no required interval between patients. Efficacy will be described as a relative improvement in PaO2/FiO2 (or SaO2/FiO2) ratio assessed at day 5 and day 7 after start of treatment. A Data Monitoring Committee (DMC) will be set-up to review safety data within the trial along with the final study results and advise on progressing from a pilot study to a randomised control trial based on the safety and efficacy data that is collected. The DMC will receive weekly reports on bleeding complications, both major and minor along with fibrinogen levels. If at any time a patient has major pulmonary bleeding, further dosing of patients will be stopped and an adhoc DMC review will be arranged before resuming dosing (see section 12.2 Data Monitoring Committee). ;
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