Flow patterns in dog aortic arch under a steady flow condition simulating mid-systole

To elucidate the possible connection between blood flow and localized pathogenesis and tile development of atherosclerosis in humans, we studied the flow patterns and the distribution of fluid axial velocity and wall shear stress in the aortic arch in detail, This was done by means of flow visualization and highspeed cinemicrographic techniques, using transparent aortic tries prepared from the dog, Under a steady flow condition at inflow Reynolds numbers of 700-1600, which simulated physiologic conditions at early- to mid-systole, slow, spiral secondary, and recirculation flows formed along the left anterior wall of the aortic arch and at the entrance of each side branch adjacent to the vessel wail opposite the flow divider, respectively. The flow in the aortic arch consisted of three major components, namely, an undisturbed parallel now located close to the common median plane of the arched aorta and its side branches, a clockwise rotational now formed along the left ventral wall, and the main flow to the side branches, located along the right dorsal wall of the ascending aorta, Thus, looking down the aorta from its origin, the flow in the aortic arch appeared as a single helical flow revolving in a clockwise direction, Regions of low wall shear stress were located along the leading edge of each side branch opposite the flow divider where slow recirculation flows formed, and along the left ventral wall where slow spiral secondary flows formed. If we assume that the flow patterns in the human aortic arch well resemble those observed in the dog, then it is likely that atherosclerotic lesions develop preferentially at these sites of low wall shear stress in the same manner as in human coronary and cerebral arteries.