Ovarian Tissue Transport for Fertility Preservation: from Animals to Human.

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Ovarian Tissue Transport for Fertility Preservation: from Animals to Human.

Reproduction. 2016 Aug 4;

Authors: Duncan FE, Zelinski MB, Gunn AH, Pahnke JE, O'Neill CL, Songsasen N, Woodruff RI, Woodruff TK

Abstract

Primordial follicles dictate a female's reproductive lifespan and therefore are central to fertility preservation for both endangered species as well as for individuals with fertility threatening conditions. Ovarian tissue containing primordial follicles can be cryopreserved and later thawed and transplanted back into individuals to restore both endocrine function and fertility. Importantly, increasing numbers of human live births have been reported following ovarian tissue cryopreservation and transplantation. A current limitation of this technology is patient access to sites that are approved or equipped to process and cryopreserve ovarian tissue - especially in larger countries or low resource settings. Here we review empirical evidence from both animal models and human studies that suggest that ovarian tissue can be transported at cold temperatures for several hours while still maintaining the integrity and reproductive potential of the primordial follicles within the tissue. In fact, several human live births have been reported in European countries using tissue that was transported at cold temperatures for up to 20 hours prior to cryopreservation and transplantation. Ovarian tissue transport, if implemented widely in clinical practice, could therefore expand both patient and provider access to emerging fertility preservation options.

PMID: 27492079 [PubMed - as supplied by publisher]