Abstract
During ovarian transplantation, the tissue undergoes both ischemia and reoxygenation, which can result in oxidative damage to the remaining follicle pool. In order to optimize fertility preservation techniques, it is essential to determine the native levels of oxygen (O2) in the ovary, particularly the primordial follicle. Using an ischemia and reperfusion model in nonhuman primates, our studies would have direct applicability to human fertility studies.
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