Testicular extracellular matrix/gelatin-based scaffold using gas foaming to support spermatogonial stem cells
Maryam Momeni, Mohammad Kazemi Ashtiani, Zahra Bashiri, Zohreh Bagher, Hamidreza Asgari, Morteza Koruji

TL;DR
This study creates a porous scaffold using testicular extracellular matrix and gelatin to support spermatogonial stem cells, which could help preserve male fertility.
Contribution
A novel hybrid scaffold combining testicular ECM and gelatin is fabricated using gas foaming to support spermatogonial stem cells.
Findings
Successful decellularization preserved ECM components while removing DNA.
Hybrid scaffolds had uniform pores (298-330 μm) and improved cell penetration and viability.
ECM5% scaffolds showed proper compressive strength and decreased Young’s modulus.
Abstract
Developing a bioactive testicular scaffold has been proposed as a potential option to preserve male fertility. Using the gas foaming method, this study aimed to fabricate an effective and highly porous scaffold derived from a gelatin-testicular extracellular matrix. Male ram testis decellularization was performed using a combination of NaCl buffer and Triton. Then, evaluations were done for 4′,6-diamidino-2-phenylindole, hematoxylin-eosin staining, and quantitative DNA content. Masson’s trichrome, Alcian blue, and orcein staining were conducted to ensure the maintenance of ECM components post-decellularization. Porous scaffolds were fabricated using gelatin incorporation with various concentrations of extracted ECM via the gas foaming method. The mechanical and structural characteristics of the scaffolds, along with evaluations of cell spreading and penetration depth, were performed.…
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Taxonomy
TopicsTissue Engineering and Regenerative Medicine
