Protective effect of a novel hydrogel loaded with CM-UCMSCs on vitrified–thawed ovaries during in vitro culture
Quan Wen, Li Zhao, Ting Wang, Mingjie Bao, Yan Ling, Si Qian, Yixiao Dou, Yabin Lin, Liqun Wang, Gorbachev Dmitrii, Irina Kurzina, Yuan Zhu

TL;DR
A new hydrogel loaded with stem cell medium protects frozen-thawed ovaries by reducing damage during lab culture.
Contribution
Development of an antioxidant-enriched hydrogel loaded with umbilical cord mesenchymal stem cell conditioned medium to protect cryopreserved ovarian tissue.
Findings
The hydrogel significantly reduced reactive oxygen species and apoptosis in ovarian tissue.
Transcriptomic analysis showed upregulated mitochondrial metabolism genes and downregulated apoptosis-related genes.
The system improved follicle survival and morphology while decreasing fibrosis and oxidative damage.
Abstract
Ovarian tissue cryopreservation and transplantation (OTCT) is an important fertility preservation method for female cancer patients; however, its efficacy is limited by post-transplantation ischemia–reperfusion injury, leading to oxidative stress, apoptosis, and fibrosis that impair ovarian reserve and graft function. Mesenchymal stem cell–conditioned medium shows therapeutic potential through paracrine actions, but clinical use is restricted by relatively limited antioxidant capacity and delivery challenges. To address this, an antioxidant-enriched hydrogel (PG-gel) was developed from N-acetylcysteine–modified gelatin and poly (ethylene glycol) succinimidyl succinate, loaded with conditioned medium from umbilical cord mesenchymal stem cells (CM-UCMSCs). This study evaluated the efficacy of PG-gel in protecting vitrified–thawed ovarian tissue during in vitro culture. The…
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Taxonomy
TopicsReproductive Biology and Fertility · Ovarian function and disorders · Mesenchymal stem cell research
