Some patients infected with COVID-19 develop a severe form of a lung disease called acute 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. In some patients, these clots do not disappear in a timely fashion. Furthermore, the small clots in the air sacs obstruct the air and oxygen getting deep into the lungs, interfering with ventilation. The trial recruited patients with COVID-19 induced ARDS. Eligible patients (or if patients lack capacity, their legal representative) were provided with an information sheet and informed consent was sought. Eligibility was mainly assessed via routine clinical assessments. Patients received a nebulised version of a type of drug called tissue plasminogen activator (rt-PA) that was inhaled using a nebuliser. This is normally a drug used to break down blood clots. In the nebulised form, we hypothesised that it may be useful for stopping clots forming in the lungs. The study ran two cohorts sequentially. In cohort 1, 9 consented patients received nebulised rtPA in addition to SOC. As an observational arm, matched historical controls who received SOC were also recruited at a ratio of 2 controls to every 1 treatment arm patient, resulting in 18 historical controls. After the first wave of COVID-19 cases decreased in August 2020 in the UK, it became difficult to continue recruiting, so recruitment was closed for cohort 1. With a second surge in early 2021, cohort 2 opened with the aim to recruit more patients to provide more data on the safety of rt-PA. In cohort 2, fewer timepoints were collected, which allowed for more rapid recruitment without compromising safety monitoring. A more flexible dosing regimen for rtPA was utilised. 26 patients were recruited in total, 12 in the IMV arm and 14 in the NIV/NIRS arm. To evaluate drug efficacy, the improvement of oxygen levels over time and safety were monitored throughout. Blood samples were taken to measure markers of clotting and inflammation in both cohorts. From the end of the treatment phase, both groups were followed up in accordance with SOC up to a maximum of 28 days, starting from the day of first dose of rt-PA.
Age range
16 Years
Sex
ALL
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Efficacy - PaO2/FiO2 Ratio
Timeframe: Day 14 and last value available on treatment (which could occur up to 14 days, death or discharge may have occurred within 14 days)
Safety- Participants With Major Bleeding Events Directly Attributable to Study Drug
Timeframe: 28 days
Safety- Participants With Serious Adverse Events Causally Related to Treatment
Timeframe: 28 days
Safety- Participants With Decrease in Fibrinogen Levels to < 1gm/L
Timeframe: 28 days