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Dynamic changes in the chick developing heart in response to altered hemodynamics

$414,360R01FY2017HLNIH

Oregon Health & Science University, Portland OR

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Abstract

DESCRIPTION (provided by applicant): Project Summary About 1% newborn babies have congenital heart disease (CHD), the leading cause of death among children. The majority of CHD cases are believed not to have a genetic cause. Other factors, such as abnormal blood flow during embryonic and fetal stages can lead to heart malformations and thus CHD through poorly understood mechanisms. This project will elucidate early cardiac adaptations (changes in the rates of extracellular-matrix protein deposition, cell proliferation and apoptosis) in response to altered blood flow conditions and the progression of these adaptations at later stages of development in an in vivo animal model. The project will use chick embryos as models of cardiac development, focusing on the heart outflow tract (OFT), which gives rise to the intraventricular septum and semilunar valves. Blood flow exerts mechanical stimuli (stresses/strains) on the walls of the heart that can be quantified using techniques developed during the previous awarded period. Normal blood flow in chick embryos will be altered at day 3 (HH18) using surgical interventions that change blood pressure and shear stresses by constricting or ligating vessels with surgical sutures. Aims are: Aim 1: Determine early changes in mechanical stimuli in response to hemodynamic interventions. Initial changes (within 2 hrs of intervention) in stresses/strains to which the OFT has to adapt will be quantified using optical coherence tomography (OCT) imaging and computational models of the OFT. Aim 2: Determine early cardiac adaptations to abnormal mechanical stimuli induced by hemodynamic interventions. Changes (with respect to controls) in extracellular matrix deposition and cellular proliferation and apoptosis in the heart OFT 24hrs after intervention will be determined using histology and immunohistochemistry techniques, and incorporated into a cardiac adaptation atlas. The extent to which adaptation patterns are locally driven by distributions of mechanical stimuli will also be determined. Aim 3: Elucidate the progression of early cardiac adaptations to altered hemodynamic stimuli. After 24hrs of intervention, the surgical interventions will be reversed by removing surgical sutures. The progression of early adaptations 1, 3, and 6 days after hemodynamic 'restoration' (embryonic days 5, 7, and 10) will then be determined using histology, immunohistochemistry, and ultrasound data. The study will elucidate the conditions under which early cardiac adaptations are reversible (hearts continue to develop normally) and the thresholds of mechanical stimuli beyond which reversibility is no longer possible.

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