Comprehensive transthoracic cardiac imaging in mice using ultrasound biomicroscopy with anatomical confirmation by magnetic resonance imaging

doi:10.1152/physiolgenomics.00026.2004

Comprehensive transthoracic cardiac imaging in mice using ultrasound biomicroscopy with anatomical confirmation by magnetic resonance imaging

Yu-Qing Zhou¹^*, F. Stuart Foster², Brian J Nieman¹, Lorinda Davidson¹, X. Josette Chen³, and R. Mark Henkelman²

¹ Mouse Imaging Centre, The Hospital for Sick Children, Toronto, Ontario, Canada
² Mouse Imaging Centre, The Hospital for Sick Children, Toronto, Ontario, Canada; Sunnybrook & Women's College Health Sciences Centre, Toronto, Ontario, Canada; Departments of Medical Biophysics, University of Toronto, Toronto, Ontario, Canada
³ Mouse Imaging Centre, The Hospital for Sick Children, Toronto, Ontario, Canada; Departments of Medical Biophysics, University of Toronto, Toronto, Ontario, Canada

^* To whom correspondence should be addressed. E-mail: yqzhou{at}sickkids.ca.

High frequency ultrasound biomicroscopy (UBM) has recently emergedas a high-resolution means of phenotyping genetically alteredmice, and has great potential to evaluate the cardiac morphologyand hemodynamics of mouse mutants. However, there is no standardprocedure of in vivo transthoracic cardiac imaging using UBMto comprehensively phenotype the adult mice. In this paper,the characteristic mouse thoracic anatomy is elucidated usingmagnetic resonance (MR) imaging on fixed mice. Besides the leftparasternal and apical windows commonly used for transthoracicultrasound cardiac imaging, a very useful right parasternalwindow is found. We present strategies for optimal visualizationusing UBM of key cardiac structures including: 1) the rightatrial inflow channels such as the right superior vena cava;2) the right ventricular inflow tract via the tricuspid orifice;3) the right ventricular outflow tract to the main pulmonaryartery; 4) the left atrial inflow channel, e.g. pulmonary vein;5) the left ventricular inflow tract via the mitral orifice;6) the left ventricular outflow tract to the ascending aorta;7) the left coronary artery; and 8) the aortic arch and associatedbranches. Two-dimensional ultrasound images of these cardiacregions are correlated to similar sections in the 3D MR dataset to verify anatomical details of the in vivo UBM imaging.Dimensions of the left ventricle and ascending aorta are measuredby M-mode. Flow velocities are recorded using Doppler at sixrepresentative intra-cardiac locations: right superior venacava, tricuspid orifice, main pulmonary artery, pulmonary vein,mitral orifice and ascending aorta. The methodologies and baselinemeasurements of inbred mice provide a useful guide for investigatorsapplying the high frequency ultrasound imaging to mouse cardiacphenotyping.

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