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KMID : 1033620210480020111
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Clinical and Experimental Reproductive Medicine
2021 Volume.48 No. 2 p.111 ~ p.123
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Influence of hydrogel encapsulation during cryopreservation of ovarian tissues and impact of post-thawing in vitro culture systems in a research animal model
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Thuwanut Paweena
Comizzoli Pierre
Pimpin Alongkorn
Srituravanich Weerayut
Sereepapong Wisan
Pruksananonda Kamthorn
Taweepolcharoen Charoen
Tuntiviriyapun Punkavee
Suebthawinkul Chanakarn
Sirayapiwat Porntip
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Abstract
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Objective: Using domestic cats as a biomedical research model for fertility preservation, the present study aimed to characterize the influences of ovarian tissue encapsulation in biodegradable hydrogel matrix (fibrinogen/thrombin) on resilience to cryopreservation, and static versus non-static culture systems following ovarian tissue encapsulation and cryopreservation on follicle quality.
Methods: In experiment I, ovarian tissues (n=21 animals; 567 ovarian fragments) were assigned to controls or hydrogel encapsulation with 5 or 10 mg/mL fibrinogen (5 or 10 FG). Following cryopreservation (slow freezing or vitrification), follicle viability, morphology, density, and key protein phosphorylation were assessed. In experiment II (based on the findings from experiment I), ovarian tissues (n=10 animals; 270 ovarian fragments) were encapsulated with 10 FG, cryopreserved, and in vitro cultured under static or non-static systems for 7 days followed by similar follicle quality assessments.
Results: In experiment I, the combination of 10 FG encapsulation/slow freezing led to greater post-thawed follicle quality than in the control group, as shown by follicle viability (66.9%¡¾2.2% vs. 61.5%¡¾3.1%), normal follicle morphology (62.2%¡¾2.1% vs. 55.2%¡¾3.5%), and the relative band intensity of vascular endothelial growth factor protein phosphorylation (0.58¡¾0.06 vs. 0.42¡¾0.09). Experiment II demonstrated that hydrogel encapsulation promoted follicle survival and maintenance of follicle development regardless of the culture system when compared to fresh controls.
Conclusion: These results provide a better understanding of the role of hydrogel encapsulation and culture systems in ovarian tissue cryopreservation and follicle quality outcomes using an animal model, paving the way for optimized approaches to human fertility preservation.
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KEYWORD
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Cryopreservation, Fertility preservation, Hydrogel, In vitro culture, Ovarian tissue
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