Sam Sudhakaran scite author profile

Transplantation of ovarian tissue for the preservation of fertility in oncological patients is becoming an accepted clinical practice. However, the risk of re-introducing tumour cells at transplantation has stirred an increased interest for complete in vitro folliculogenesis. This has not yet been achieved in humans possibly for the lack of knowledge on the environmental milieu that orchestrates folliculogenesis in vivo. The main aim of this study was to investigate the effect of oxygen availability on follicle health and growth during in vitro culture of ovarian tissue strips. To this end, a model was developed to predict the dissolved oxygen concentration in tissue under varying culture conditions. Ovarian cortical strips of bovine, adopted as an animal model, and human tissue were cultured in conventional (CD) and gas permeable (PD) dishes under different media column heights and gaseous oxygen tensions for 3, 6 and 9 days. Follicle quality, activation of primordial follicles to the primary stage, and progression to the secondary stage were analysed through histology. Follicle viability was assessed through a live-dead assay at the confocal scanning laser microscope. Findings showed a higher follicle quality and viability after culture of bovine ovarian strips in PD in adequate medium height and oxygen tensions. The best culture conditions found in the bovine were adopted for human ovarian strip culture and promoted a higher follicle quality, viability and progression. Overall, data demonstrated that modulation of oxygen availability in tissue plays a key role in maintaining follicles’ health and their ability to survive and progress to the secondary stage during ovarian tissue in vitro culture. Such culture conditions could increase the yield of healthy secondary follicles for subsequent dissection and individual culture to obtain competent oocytes.

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Supplementation of sperm media with zinc, D-aspartate and co-enzyme Q10 protects bull sperm against exogenous oxidative stress and improves their ability to support embryo development

Barbato

Talevi

Braun

et al. 2017

Zygote

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High levels of reactive oxygen species in the semen of infertile patients or spontaneously generated during in vitro sperm handling may impair sperm quality, fertilization and embryo developmental competence. We recently reported that zinc, d-aspartate and co-enzyme Q10, contained in the dietary supplement Genadis® (Merck Serono), have protective effects on human and bull sperm motility, lipid peroxidation and DNA fragmentation in vitro; furthermore, in bovine, treated spermatozoa had an improved ability to support embryo development. However, only a few studies have investigated the protective role of antioxidants during in vitro sperm handling in the presence of an exogenous oxidative stress. Herein, to simulate such conditions in an animal model, we induced exogenous oxidative stress on spermatozoa through the xanthine-xanthine oxidase system and investigated its effects on sperm function and subsequent embryo developmental competence in the presence of zinc, d-Asp and CoQ10 protection. The main results showed that exogenous oxidative stress decreased sperm motility, increased sperm DNA fragmentation, and reduced fertilization and blastocyst rates and quality. Pre-treatment with zinc, d-aspartate and co-enzyme Q10 before exogenous oxidative stress was able to prevent these effects. Supplementation of sperm culture media with zinc, d-aspartate and co-enzyme Q10 could protect sperm from oxidative stress damage during in vitro handling in assisted reproductive technologies.

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Successful slush nitrogen vitrification of human ovarian tissue

Talevi

Barbato

Fiorentino

et al. 2016

Fertility and Sterility

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Oocytes recovered after ovarian tissue slow freezing have impaired H2AX phosphorylation and functional competence

Sudhakaran

Uppangala

Salian

et al. 2015

Reprod. Fertil. Dev.

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It has been shown that oocytes isolated from ovarian tissue cryopreservation acquire DNA damage during the process of freeze-thawing. Using a mouse model, here we have investigated the functional competence and phosphorylation of H2AX (γ-H2AX) in germinal vesicle (GV) and parthenogenetically activated oocytes derived from conventional ovarian tissue slow freezing and vitrification techniques. The number of GV-stage oocytes with γ-H2AX foci was not significantly different between the slow-freezing and vitrification groups. Although the in vitro maturation (IVM) potential of GV oocytes in the slow-freezing group showed a significant delay (P<0.0001) in the process of germinal vesicle breakdown, no difference in the maturation rate was observed between the two protocols. Nevertheless, parthenogenetic activation of IVM oocytes using strontium chloride showed a significantly lower activation rate in the slow-freezing group compared with the vitrification (P<0.05) and control (P<0.01) groups. Importantly, H2AX phosphorylation was significantly perturbed in the slow-freezing group in comparison to the control (P<0.05). Therefore, we conclude that impaired sensing of DNA strand breaks and repair processes are associated with the reduced functional competence of the oocytes recovered from the slow-freezing group, which may have a significant impact on the reproductive outcome.

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Sam Sudhakaran

Is oxygen availability a limiting factor for in vitro folliculogenesis?

Supplementation of sperm media with zinc, D-aspartate and co-enzyme Q10 protects bull sperm against exogenous oxidative stress and improves their ability to support embryo development

Successful slush nitrogen vitrification of human ovarian tissue

Oocytes recovered after ovarian tissue slow freezing have impaired H2AX phosphorylation and functional competence

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