Risk assessment tools for predicting mortality in pulmonary arterial hypertension show promise as potential surrogate endpoints to replace time to clinical worsening or 6-minute walk distance.
Can risk assessment tools for survival prognosis serve as valid surrogate endpoints in pulmonary arterial hypertension clinical trials?
Risk assessment tools for survival prognosis are promising candidates for surrogate endpoints in PAH trials, potentially reducing trial size and duration, but require prospective validation.
Developing a new medication in a rare disease indication like pulmonary arterial hypertension (PAH) is very challenging. This is especially true now that clinical trials often employ time to clinical worsening (TTCW) as an endpoint (thus requiring a relatively large and lengthy trial) and since patients are more frequently prescribed combination therapy. During the last few decades, several tools have been developed to predict mortality in PAH and have demonstrated generally good discrimination. The objective of this review article is to assess the available data on the different tools and methods described in the literature and identify potential candidates that could be used as surrogate endpoints in pivotal randomized clinical trials in future. Some of these tools have been validated in various registries and in post-hoc analyses of clinical trial data, but none have been assessed in a prospective clinical trial and we still lack the evidence necessary for endorsement by health authorities. In this review, we identify several promising options that warrant further investigation as potential surrogate endpoints in clinical trials to replace TTCW or 6-minute walk distance. Prospective inclusion of such tools in new clinical trials may help build a stronger surrogacy for prognosis of disease progression and mortality.
Sanna et al. (Sun,) conducted a review in Pulmonary arterial hypertension (PAH). Risk assessment tools for survival prognosis was evaluated. Risk assessment tools for predicting mortality in pulmonary arterial hypertension show promise as potential surrogate endpoints to replace time to clinical worsening or 6-minute walk distance.