Hum. Reprod. Advance Access originally published online on February 3, 2009
Human Reproduction 2009 24(5):1142-1151; doi:10.1093/humrep/dep008
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Superficial ovarian cortex vascularization is inversely related to the follicle reserve in normal cycling ovaries and is increased in polycystic ovary syndrome
1 Instituto Valeciano de Infertilidad, Valencia, Spain 2 Department of Pathology, University of Córdoba, Córdoba, Spain 3 Department of Cell Biology, Physiology and Immunology, School of Medicine, University of Córdoba, 14004 Córdoba, Spain
4 Correspondence address. E-mail: bc1galuf{at}uco.es
BACKGROUND: The superficial ovarian cortex constitutes the micro-environment where resting and early growing follicles reside. As small follicles do not possess an independent capillary network, both their survival and early growth depend on their proximity to the cortical vessels. Little is known about the possible changes in superficial ovarian cortex vascularization in normal women throughout reproductive life or in pathological conditions such as polycystic ovary syndrome (PCOS) involving abnormal early follicle growth. We studied the vascularization of the superficial and deep cortical stroma (DCS) in normal cycling ovaries from 21 to 50 years of age and in infertile women with PCOS.
METHODS: We used archival ovarian samples and specific CD34 immunostaining to determine blood vessel density and to analyse correlation with age and with the ovarian follicle reserve.
RESULTS: Normal cycling ovaries showed an age-related increase in the superficial cortical stroma vascularization that was inversely correlated with the density of small (primordial and primary) follicles. In contrast, blood vessel density in the DCS significantly decreased in women aged 
40 years. Ovaries from PCOS showed a 2-fold increase in blood vessel density in both superficial cortical stroma and DCS with respect to age-matched controls.
CONCLUSIONS: The increased vascularization of the superficial cortical stroma in normal ovaries in relation to age and in ovaries from PCOS could have profound effects on cortical metabolic rate, primordial follicle survival/activation and early follicle growth, and may underline changes in follicle dynamics in mid-aged women and in PCOS.
Key words: ovarian ageing/ovarian cortex/vascularization/PCOS/follicle reserve
Submitted on October 19, 2008; resubmitted on November 29, 2008; accepted on January 6, 2009.