40-MHZ echocardiography scanner for cardiovascular assessment of mouse embryos.

Congenital heart disease results from genetic defects that are manifested at early stages of embryogenesis. The mouse is the preferred animal model for studies of mammalian embryonic development and for an increasing number of human disease models. A number of genes identified in the mouse are critical for normal cardiovascular development, but an understanding of the underlying mechanisms regulating heart development is still incomplete, in part because of the lack of methods to measure hemodynamics in live mouse embryos. We describe the development of a 40-MHz ultrasound scanner, which allows image-guided continuous-wave and pulsed Doppler blood flow measurements in mouse embryos, in utero, at the critical early developmental stages. Doppler waveforms acquired from mouse embryonic umbilical vessels, descending aorta, and cardiac ventricles are presented to demonstrate the utility of the method. By combining image-guided ultrasound Doppler with the many available mouse mutants, this approach should lead to new insights into embryonic cardiovascular structure-function relationships.

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