Reproductive organ blood flow measured using radioactive microspheres in diestrous and estrous mice.

Blood flow is a primary mechanism controlling reproductive organ functions. In the present study, radioactive microsphere techniques were adapted to measure ovarian, uterine, and vaginal blood flow levels in C57BL mice. Anesthetized animals were tracheostomized and the left carotid artery was cannulated. The heart was exposed and 113Sn-labeled spheres (15 microns size, 2 microCi, 0.1 ml) were injected via the left ventricle. Reference sample was obtained by carotid artery blood "free flowing" into a tared microfuge tube for 1 min. The animal was killed, and selected tissues were excised for weighing and radioactivity measurement to determine flow. Absence of differences in flow levels (ml.min-1.g-1) to paired nonreproductive organs (adrenals and kidneys) validated the procedure. Blood flow levels were significantly higher in the ovaries, but not in the uterus and vagina of estrous mice vs. diestrous mice. Comparison of left vs. right ovaries suggested consistent blood flow distribution during diestrus. Ovarian blood flow level is enhanced during estrus and, in addition, is highly nonuniform regarding right-left flow distribution. Nonuniform ovarian blood flow distribution in estrous mice leads us to speculate that alternating right-left (i.e. nonuniform) ovulation predominates during each murine estrous cycle.