Characterization of blood flow in the mouse dorsal spinal venous system before and after dorsal spinal vein occlusion
Document Type
Article
Publication Date
3-31-2015
Abstract
© 2015 ISCBFM All rights reserved. The availability of transgenic strains has made the laboratory mouse a popular model for the study of healthy and diseased state spinal cord (SC). Essential to identifying physiologic and pathologic events is an understanding of the microvascular network and flow patterns of the SC. Using 2-photon excited fluorescence (2PEF) microscopy we performed in vivo measurements of blood flow in the lower thoracic portion of the mouse dorsal spinal vein (dSV) and in the first upstream branches supplying it, denoted as dorsal ascending venules (dAVs). We found that the dSV had large radiculomedullary veins (RMVs) exiting the SC, and that flow in the dSV between pairs of RMVs was bidirectional. Volumetric flow increased in each direction away from the point of bifurcation. Flow in the upstream dAVs varied with diameter in a manner consistent with a constant distal pressure source. By performing ex vivo 2PEF microscopy of fluorescent-gel perfused tissue, we created a 3-D map of the dorsal spinal vasculature. From these data, we constructed a simple model that predicted changes in the flow of upstream branches after occlusion of the dSV in different locations. Using an atraumatic model of dSV occlusion, we confirmed the predictions of this model in vivo.
Recommended Citation
Farrar, Matthew J.; Rubin, Jonathan D.; Diago, Darcy M.; and Schaffer, Chris B., "Characterization of blood flow in the mouse dorsal spinal venous system before and after dorsal spinal vein occlusion" (2015). Educator Scholarship & Departmental Newsletters. 59.
https://mosaic.messiah.edu/mps_ed/59
Comments
Farrar, M. J., Rubin, J. D., Diago, D. M., & Schaffer, C. B. (2015). Characterization of blood flow in the mouse dorsal spinal venous system before and after dorsal spinal vein occlusion. Journal of Cerebral Blood Flow & Metabolism, 35(4), 667–675. https://doi.org/10.1038/jcbfm.2014.244