A modified hydrogel production protocol to decrease cellular content

Gabriela Catão Diniz Braga; Cristina Pires Camargo; Martin Conrad Harmsen; Aristides Tadeu Correia; Sonia Souza; Marilia Seelaender; Viviane Araujo Nunes; Jeniffer Farias Dos Santos; Elida Adalgisa Neri; Iuri Cordeiro Valadão; Luiz Felipe Pinho Moreira; Rolf Gemperli

doi:10.1590/acb371005

A modified hydrogel production protocol to decrease cellular content

Acta Cir Bras. 2022 Dec 19;37(10):e371005. doi: 10.1590/acb371005. eCollection 2022.

Affiliations

¹ Bachelor. Universidade de São Paulo - Discipline of Plastic Surgery, Microsurgery and Plastic Surgery Laboratory - School of Medicine - São Paulo (SP), Brazil.
² PhD. Universidade de São Paulo - Discipline of Plastic Surgery, Microsurgery and Plastic Surgery Laboratory - School of Medicine - São Paulo (SP), Brazil.
³ PhD. Associate professor. University Medical Center Groningen - Laboratory for Cardiovascular Regenerative Medicine - Department of Pathology and Medical Biology - Hanzeplein 1, Netherlands.
⁴ PhD. Universidade de São Paulo - Department of Cardiopneumology - Thoracic Surgery Research Laboratory - Heart Institute of School of Medicine - São Paulo (SP), Brazil.
⁵ Bachelor. Universidade de São Paulo - Department of Cardiopneumology - Cardiovascular Surgery and Circulatory Physiopathology Laboratory - School of Medicine - São Paulo (SP), Brazil.
⁶ PhD. Associate professor. Universidade de São Paulo - Department of Clinical Surgery - School of Medicine - São Paulo (SP), Brazil.
⁷ PhD. Associate professor. Universidade de São Paulo - Department of Biotechnology - School of Arts, Sciences and Humanities - São Paulo (SP), Brazil.
⁸ PhD. Universidade de São Paulo - Department of Biotechnology - School of Arts, Sciences and Humanities - São Paulo (SP), Brazil.
⁹ PhD. Universidade de São Paulo - Laboratory of Genetics and Molecular Cardiology - Heart Institute - School of Medicine - São Paulo (SP), Brazil.
¹⁰ PhD. Associate professor. Universidade de São Paulo - Department of Cardiopneumology, Cardiovascular Surgery and Circulatory Physiopathology Laboratory - School of Medicine - São Paulo (SP), Brazil.
¹¹ PhD. Full professor. Universidade de São Paulo - Discipline of Plastic Surgery, Microsurgery and Plastic Surgery Laboratory - School of Medicine - São Paulo (SP) Brazil.

Abstract

Purpose: To analyze the cytotoxicity and cell in porcine-derived decellularized skin matrix.

Methods: We analyzed the effect of multiple decellularization processes by histological analysis, DNA quantification, and flow cytometry. Subsequently, we analyzed the most appropriate hydrogel concentration to minimize cytotoxicity on fibroblast culture and to maximize cell proliferation.

Results: After the fourth decellularization, the DNA quantification showed the lowest DNA concentration (< 50 ng/mg). Histological analysis showed no cell components in the hydrogel. Moreover, hematoxylin and eosin showed a heterogeneous structure of collagen fibers. The best hydrogel concentration ranged from 3 to 25%, and there was no significant difference between the 24 hours and seven days.

Conclusions: The process of hydrogel production was effective for removing cells and DNA elements. The best hydrogel concentration ranged from 3 to 25%.

MeSH terms

Animals
Cell Proliferation
DNA / analysis
DNA / pharmacology
Extracellular Matrix
Hydrogels* / analysis
Hydrogels* / pharmacology
Swine
Tissue Engineering* / methods
Tissue Scaffolds

Substances

Hydrogels
DNA