Clinical Trial Evaluating Safety and Efficacy of Resomelagon in Respiratory Viral Infections
The Phase 2 RESPIRE trial builds on convincing results in Covid-19 patients showing faster recovery with fewer days in hospital and intensive care needs, and results from influenza models showing that resomelagon had significant treatment effects including prevention of mortality. In this new study, we want to demonstrate a reduction in events leading to intensive unit care and prolonged hospitalization.
The study is a randomized, double-blind, multicenter, placebo-controlled study enrolling 96 patients. The study population will consist of hospitalized participants with respiratory insufficiency expected to be caused by respiratory viral infection.
About hyperinflammation from respiratory viral infections:
Respiratory viral infections include Influenza, Covid-19, and RSV, which are the most common respiratory viral infections leading to an estimated two million people hospitalized annually in Europe and the U.S. Respiratory viral infections may worsen to a condition involving hyperinflammation in the respiratory system that renders the patient unable to provide enough oxygen to the body. Consequently, the patient would need to go to a hospital to get adequate treatment including oxygen therapy. If symptoms worsen, the patient may experience acute respiratory distress syndrome (ARDS) and require escalating oxygen support or mechanical ventilation.
Current treatments rely largely on supportive care and immunomodulators—such as corticosteroids (e.g., dexamethasone), IL-6 receptor blockers (e.g., tocilizumab), and JAK inhibitors (e.g. baricitinib) – which mitigate inflammation but carry risks of immunosuppression or unwanted adverse effects, highlighting the need for resolution-based therapies that clear the inflammation without dampening host defense.
Resomelagon has been shown to induce a relative shift in the phenotype of macrophages (MACs) from pro-inflammatory TYPE 1 alike MACs to type 2 alike proresolving MACs and in parallel modulate the recruitment of polymorph nuclear cells. These effects induce a new setpoint for the hyperinflammatory state in the patients. Consequently, resomelagon has the potential to boost the pro-resolving capabilities of the patient’s immune system to safely maintain the elevated inflammation needed to fight the viral infection and facilitate the system’s return to a healthy state.
About the SynAct-CS009-RESPIRE study:
A randomized, double-blind, multicentre, placebo-controlled study with repeated once daily doses of AP1189/placebo. The study population will consist of hospitalized participants with respiratory insufficiency expected to be caused by respiratory viral infection.
The study is to include male and female participants, 18 years and older, with expected respiratory viral infection, and positive for either SARS-COV-2, Influenza A or B, or RSV on bedside LAF test. Symptomatic participants needing respiratory support, as defined by Saturation of O2 ≤ 93% at ambient air or requiring significantly greater FiO2 to maintain SpO2 > 93% (i.e., need for supplementary oxygen supply by a nasal catheter or facial mask), and who agrees to participate in the study.
The investigational product treatment will be maintained for 14 days during the hospital stay. If participants are discharged before day 14, they should continue with the treatment at home.
The treatment effects of resomelagon versus placebo will be evaluated from baseline to day 28 on the composite endpoint: Occurrence of any one of the following: Death; Invasive mechanical ventilation; Extracorporeal Membrane Oxygenation (ECMO); Cardiovascular organ support (balloon pump or inotropes/vasopressors); or Renal failure (Cockcroft-Gault estimated creatinine clearance <15 ml/min), hemofiltration or dialysis.