Inflammatory Signal Inhibitors for COVID-19 (MATIS)

COVID-19 pneumonia is characterised by respiratory and multi-organ failure in the context of marked systemic inflammation. It is caused by Severe Acute Respiratory Syndrome Coronavirus 2 (SARSCoV2) infection. The hallmark of severe disease is hypoxia and a radiological pattern of acute lung injury that shares features with Acute Respiratory Distress Syndrome (ARDS). Early features of COVID-19 result from host viral response and typically include symptoms such as fever and dry cough. Later features, typically occurring beyond 7 days, are characterised by marked and progressive systemic inflammation, identified by elevations in a plethora of inflammatory molecules such as C-reactive protein, ferritin and IL6. In a subset of patients, hyperinflammatory responses drive acute lung injury and may result in catastrophic multi-organ failure and death.

The aetiology of COVID-19 induced ARDS is incompletely understood but appears to be associated with lung inflammation effected by a monocytic and neutrophilic infiltration, elevated cytokine levels and tissue damage. Elevations in circulating inflammatory molecules are associated with poor prognosis. In particular, the COVID-19 hyperinflammatory response syndrome is associated thrombotic complications which are postulated to drive cardiac dysfunction and microvascular thrombi, suggested by elevations in troponin and D-dimer, respectively. Similar hyperinflammatory responses are also seen in macrophage activation syndromes such as haemophagocytic lymphohistiocytosis, or in the cytokine release syndrome associated with chimeric antigen receptor T cell therapy. Further, preliminary data from China and Italy have shown immediate resolution of symptoms using anti-interleukin-6 agents (anti-IL6) therapy and Janus kinase inhibitors (JAK)/signal transducer and activator of transcription (STAT) inhibitors in patients with severe disease. There may be an early window of opportunity to treat the COVID-19 hyperinflammatory syndrome before acute lung injury leads to organ failure.

There are currently no approved treatments for COVID-19 pneumonia. This is a protocol for a randomised controlled, multi-arm trial of early intervention with inflammatory signal inhibitors.

Study purpose

A number of therapeutic interventions targeting inflammatory signalling might reduce the severity of the inflammatory response phase resulting in amelioration of the lung damage thereby averting respiratory failure and the need for mechanical ventilation. This trial aims to evaluate the efficacy of two inhibitors of key signalling pathways using drugs which are already licensed for use in other clinical indications.

Primary objective

The primary objective is to determine the efficacy of RUX and FOS to reduce the proportion of hospitalised patients progressing from mild/moderate to severe COVID-19 pneumonia. A modified World Health Organization (WHO) COVID-19 Severity Ordinal Scale (COVID-19 Therapeutic Trial Synopsis published 18th February 2020) will be used to grade clinical deterioration from Hospitalised Mild Disease (<5) to Hospitalised Severe Disease (greater than or equal to 5). The modification includes an additional grade for Hospitalised Severe Disease that allows the capture of clinical deterioration in patients for whom escalation in organ support is not offered. Patients are eligible for recruitment to MATIS at grades 3 or 4. These patients stand to gain the greatest benefit from inflammatory signal inhibitors that may ameliorate the cytokine storm and prevent organ failure.

Secondary objectives

• Determine the efficacy of RUX or FOS to reduce mortality
• Determine the efficacy of RUX or FOS to reduce the need for invasive ventilation and/or ECMO
• Determine the efficacy of RUX or FOS to reduce the need for non-invasive ventilation including CPAP or high flow nasal oxygen
• Determine the efficacy of RUX or FOS to reduce the proportion of patients suffering clinically significant oxygen desaturation
• Determine the efficacy of RUX or FOS to reduce the need for renal replacement therapy
• Determine the efficacy of RUX and FOS to reduce the incidence of venous thromboembolism COVID-19 pneumonia
• Determine the efficacy of RUX and FOS to improve the severity of COVID19 pneumonia on a modified WHO COVID19 Ordinal Scale
• Determine the efficacy of RUX or FOS to reduce the level of inflammatory biomarkers
• Determine the efficacy of RUX or FOS to reduce blood ferritin, CRP, LDH and D-dimer
• Determine the efficacy of RUX or FOS to reduce the level of serum creatinine.
• Determine the efficacy of RUX or FOS to reduce duration of hospital admission