Influence of Storage Conditions on Decellularized Porcine Conjunctiva

Overview

Journal Bioengineering (Basel)

Date 2023 Mar 29

PMID 36978741

Authors

Adam Skornia

Gerd Geerling

Kristina Spaniol

Joana Witt

Affiliations

Soon will be listed here.

Abstract

Porcine decellularized conjunctiva (PDC) represents a promising alternative source for conjunctival reconstruction. Methods of its re-epithelialization in vitro with primary human conjunctival epithelial cells (HCEC) have already been established. However, a long-term storage method is required for a simplified clinical use of PDC. This study investigates the influence of several storage variants on PDC. PDC were stored in (1) phosphate-buffered saline solution (PBS) at 4 °C, (2) in glycerol-containing epithelial cell medium (EM/gly) at -80 °C and (3) in dimethyl sulfoxide-containing epithelial cell medium (EM/DMSO) at -196 °C in liquid nitrogen for two and six months, respectively. Fresh PDC served as control. Histological structure, biomechanical parameters, the content of collagen and elastin and the potential of re-epithelialization with primary HCEC under cultivation for 14 days were compared (n = 4-10). In all groups, PDC showed a well-preserved extracellular matrix without structural disruptions and with comparable fiber density ( ≥ 0.74). Collagen and elastin content were not significantly different between the groups ( ≥ 0.18; ≥ 0.13, respectively). With the exception of the significantly reduced tensile strength of PDC after storage at -196 °C in EM/DMSO for six months (0.46 ± 0.21 MPa, = 0.02), no differences were seen regarding the elastic modulus, tensile strength and extensibility compared to control (0.87 ± 0.25 MPa; ≥ 0.06). The mean values of the epithelialized PDC surface ranged from 51.9 ± 8.8% (-196 °C) to 78.3 ± 4.4% (-80 °C) and did not differ significantly ( ≥ 0.35). In conclusion, all examined storage methods were suitable for storing PDC for at least six months. All PDC were able to re-epithelialize, which rules out cytotoxic influences of the storage conditions and suggests preserved biocompatibility for in vivo application.

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