Colorado PROFILES, The Colorado Clinical and Translational Sciences Institute (CCTSI)
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Functional and Biological Phenotyping of Pediatric PH

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Pulmonary hypertension in children is a critical determinant of morbidity and mortality in various pediatric diseases. Despite advances in therapies, long-term outcome in many settings remain poor. Although reasons for this are multi-factorial, one critical component is the relative lack of disease-defining knowledge regarding the functional impact of the disease on the right heart and coupled pulmonary vasculature. In fact, clinically, pulmonary arterial hypertension continues to be evaluated predominantly as a distal vascular phenomenon, and only limited recognition is given to the fact that the pulmonary arterial system (PA) is intimately coupled with right ventricular function in health and disease. Functionally speaking, RV-PA coupling is driven by the principles of hydrodynamic and mechanical energy transfer and is thus not markedly dependent on the biological heterogeneity of the pediatric PH population. Over the last 7 years, our group using a reverse bedside-to-bench approach have developed novel markers of RV afterload using vascular input impedance principles, and have shown on studies of over 250 pediatric subjects with pulmonary hypertension that PVR does not represent the sole metric of RV afterload, that PA stiffness increases dramatically in pediatric pulmonary hypertension patients and consequently loads the RV to a proportionally greater level, and that inclusion of impedance and PA stiffness measures improves prediction of 1-year outcomes. These clinical studies generated a series of mechanistic studies to understand how the upstream pulmonary vessels stiffen, which have led to novel and interesting hypotheses regarding the role of extracellular matrix proteins in upstream vascular remodeling, mechanisms of healthy versus maladaptive remodeling, and differences in the developing versus the fully developed RV-PA system. These are currently being tested by our group and others through parallel efforts. In this project, we intend to complete the RV-PA axis picture by extending our clinical studies on evaluating RV afterload to include pump function from global and local viewpoints and thereby develop and test clinically usable methods to functionally phenotype the pediatric PH patient. In parallel and since biological maladaptation of the RV may precede discernable functional maladaptation, we will biologically phenotype these patients using an established circulating marker of cardiac failure (BNP and NTproBNP) and emerging circulating biomarkers of cardiac failure (micro RNAs). Together these studies will test our hypotheses that RV decompensation in pediatric PH is significantly correlated to deteriorating RV-PA coupling, and that comprehensive functional and biological phenotyping of the RV-PA axis in pediatric PH provides significantly greater prediction of 1- and 2-year clinical outcomes. Through the coordinated, multidisciplinary approach proposed here, which involves experts in bioengineering, imaging, pediatric heart failure, pediatric pulmonary hypertension, and micro RNAs, we should: 1) gain greater understanding of precisely how the human, pediatric RV compensates or decompensates under hypertensive load; 2) generate novel yet clinically usable techniques for the routine evaluation of the RV-PA function; 3) identity the combination of functional and biological phenotypes that best predict outcomes in this complex disease population; and 4) advance our understanding of the functional relationship between RV-PA coupling and RV health. As in prior work, we believe methods, questions and results generated from this study should help guide mechanistic studies to elucidate specific pathways of RV and RV-PA decompensation.
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