Right Ventricular Compensation With Sotatercept: A Prospective Single Arm Open Label Phase 4 Study to Evaluate the Effects of Sotatercept on Right Ventricular Function in Pulmonary Arterial Hypertension (RECOMPENSE)

Overview

Pulmonary arterial hypertension (PAH) is a progressive disease characterized by vascular remodelling resulting in elevated pressures in the pulmonary artery (PA). This elevated pressure ultimately leads to fulminant right heart failure. Current therapeutic options are limited and are centred around vasodilatory medications such as phosphodiesterase-5 inhibitors and prostacyclin. While these medications allow for the widening of blood vessels that are narrowed due to remodelling, they have no effect on the remodelling itself. Sotatercept is a novel medication which targets the BMPR2/TGF-β pathway and restore a pro- and anti- proliferative balance to ultimately counteract vascular remodelling. Recent phase 2 and 3 trials showed that treatment with sotatercept led to lower resistance and pressure in the pulmonary vasculature and improved exercise tolerance. However, these results were not coupled with an increase in cardiac output, a change that is seen with other PAH-medications with a primarily vasodilatory effect. These results suggest that cardiac work is reduced and cardiac efficiency is improved in patients being treated with sotatercept, in contrast with conventional PAH therapies. This is a potentially beneficial effect that may result in improved disease control in the long-term. Our study aims to explore the effect of sotatercept on cardiac work and function. We hypothesize that the effects of sotatercept are more beneficial for cardiac function than that of traditional PAH medications. All participants included in the trial will undergo a screening visit in which it will be checked that all inclusion criteria and no exclusion criteria are met. The screening visit involves a physical exam, blood draw, 6-minute walk test, right heart catheterization (RHC) and cardiac magnetic resonance imaging (cMRI) with contrast to assess fibrosis. Upon inclusion, all participants will receive a subcutaneous injection of sotatercept starting at a dose of 0.3 mg/kg. Participants will return to the hospital every three weeks for a blood draw, physical examination and an adverse event review. If the laboratory values (specifically haemoglobin and platelet counts) stay stable after the first dose, the dosage will be escalated to 0.7 mg/kg. The dose will not be escalated beyond 0.7 mg/kg. After 24 weeks of receiving sotatercept, there will be an end of treatment visit including a physical exam, 6-minute walk test, right heart catheterization (RHC) and cardiac magnetic resonance imaging (cMRI) with contrast material.

Recent phase 2 and phase 3 studies showed that treatment of PAH patients with the Activin ligand trap sotatercept results in significant reductions in PVR in addition to improvements in exercise capacity, as measured by 6MWD, and other clinical outcomes while effects on cardiac output were only minimal. Assessment of intrinsic RV function is essential to understanding the effects of sotatercept on the myocardium. In order to make this assessment in a load-independent fashion, pressure-volume loops must be used. RV-PA coupling, the relationship between RV end systolic elastance and pulmonary arterial elastance, describes the relationship between RV contractility and RV afterload. The preservation of RV function rests on the delicate balance of RV coupling. In order to preserve RV function in PAH, an increase in afterload will be met with increased RV contractility. Uncoupling occurs in PAH when RV contractility fails to increase to match an elevated afterload leading to maladaptation and RV failure. Decreases in mPAP typically lead to decreases in RV contractility while exercise or sympathetic stimulation will lead to increased contractility. This is a prospective, single center, single-arm, open-label, phase 4 study to evaluate the effects of sotatercept on RV function and dimensions in PAH. Twenty PAH patients will be enrolled at the Amsterdam UMC and receive open label subcutaneous sotatercept (starting dose, 0.3 mg per kilogram of body weight; target dose, 0.7 mg per kilogram) for 24 weeks. After signing informed consent and completion of screening, and before receiving the first drug dose, patients undergo right heart catheterization (RHC), and cMRI to determine pump function graphs and cardiac volumes and RV fibrosis. These procedures are repeated after the end of the treatment (EOT). The treatment period starts with the first dose of IMP and ends on the last day of IMP which is the day of the last dose of IMP at premature discontinuation or at week 24 ± 7 days. There is an additional follow-up period of 5 weeks after study completion. Patients enrolled in the study will receive subcutaneous sotatercept (starting dose, 0.3 mg per kilogram of body weight; target dose, 0.7 mg per kilogram) for 24 weeks. After giving informed consent and before receiving the first drug dose, patients undergo RHC and cMRI to determine pump function graphs and cardiac volumes and assess fibrosis. Additionally, patients will undergo a physician assessment and blood sampling. All of these procedures will be repeated at the end of the treatment (EOT) visit after 24 weeks. Recent phase 2 and phase 3 studies showed that treatment of pulmonary arterial hypertension (PAH) patients with the activin ligand trap sotatercept results in significant reductions in pulmonary vascular resistance (PVR) in addition to improvements in exercise capacity, as measured by the six minute walk distance (6MWD), and other clinical outcomes while effects on cardiac output (CO) are only minimal. These results contrast sharply with the results of studies with other PAH specific drugs, in which improvements in 6MWD were always reflected by profound increases in cardiac output. The fact that resting cardiac output after sotatercept treatment is not increased, may partly be attributed to a concomitant increase in blood hemoglobin levels, allowing a lower cardiac output to preserve oxygen delivery to the tissues. Moreover, conventional PAH drugs are not entirely pulmonary specific and cause systemic vasodilation, requiring an increase in cardiac output to maintain systemic blood pressure. In contrast, a slight increase in systemic blood pressure was observed in PAH patients treated with sotatercept. Considering these fundamental differences resulting from treatment with sotatercept, we hypothesize that the effects of sotatercept on cardiac function are much more beneficial than the effects of conventional PAH specific drugs. This is a prospective, single center, single-arm, open-label, phase 4 study to evaluate the effects of sotatercept on RV function and dimensions in PAH. Twenty PAH patients will be enrolled at the Amsterdam UMC and receive open label subcutaneous sotatercept (starting dose, 0.3 mg per kilogram of body weight; target dose, 0.7 mg per kilogram) for 24 weeks Patients enrolled in the study will receive subcutaneous sotatercept (starting dose, 0.3 mg per kilogram of body weight; target dose, 0.7 mg per kilogram) for 24 weeks. After giving informed consent and before receiving the first drug dose, patients undergo RHC and cMRI to determine pump function graphs and cardiac volumes and assess fibrosis. Additionally, patients will undergo a physician assessment and blood sampling. All of these procedures will be repeated at the end of the treatment (EOT) visit after 24 weeks.