Abstract Pulmonary hypertension (PH) is a devastating disease characterized by progressive dyspnea/exercise intolerance, right-heart failure, and carries a high risk of morbidity and early mortality. PH disease progression can be rapid, and any delay in the diagnosis and treatment of PH likely reduces survival. Given its clinical and prognostic significance, early and accurate diagnosis of PH to allow prompt and optimal establishment of clinical care is of critical importance. While traditional maximal/comprehensive cardiopulmonary exercise testing (CPET) has been validated in PH, it has limitations that have hindered its applicability to routine clinical assessment and monitoring. Our preliminary data suggest that the signature ventilatory and pulmonary gas exchange derangements of PH become apparent during even submaximal exercise. Our comprehensive proof-of-concept study (133 patients) supports our hypothesis that the addition of pulmonary gas exchange responses to a standardized 3-minute submaximal exercise test (Shape iCPET) to standard echocardiographic evidence of PH (i.e. RVSP >50 mmHg, suspicion of RV dysfunction) improves the sensitivity for PH detection by almost 40%. The Shape iCPET system is compact and utilizes pattern-recognition software that automates interpretation, making the system ideally suitable for widespread adoption. The overarching objective of this SBIR proposal is to categorically establish the Shape iCPET as a tool that: 1) improves early detection of PH; and 2) provides an objective evidence-based measure of PH therapy efficacy that can be easily used in academic and community practices. We have established a 10-center consortium of academic and community PH centers for this SBIR proposal. Specific Aim 1 will assess the clinical utility of submaximal cardiopulmonary exercise testing as a complementary tool for the identification of pulmonary hypertension. Specific Aim 2 will assess whether pharmacotherapy-induced improvements in pulmonary hypertension severity and disease status are reflected in the physiological responses to a standardized submaximal cardiopulmonary exercise test. We hypothesize that the Shape iCPET will prove to be an efficacious adjunct to traditional clinical metrics to track changes in pulmonary vascular function over time and responses to therapy aimed at alleviating PAH.