Tissue Eng Regen Med.  2019 Feb;16(1):39-50. 10.1007/s13770-018-0170-6.

A Comparative Study of the Effects of Different Decellularization Methods and Genipin-Cross-Linking on the Properties of Tracheal Matrices

Affiliations
  • 1Medical College of Yangzhou University, 11 Huaihai Road, Yangzhou 225001, Jiangsu Province, China. shihongcan@yzu.edu.cn
  • 2Center of Translational Medicine, Yangzhou University, 11 Huaihai Road, Yangzhou 225001, Jiangsu Province, China.
  • 3Peking University Third Hospital, 49 Huayuan Road, Haidian District, Beijing 100191, China.
  • 4Taizhou People’s Hospital, 366 Taihu Road, Taizhou 225300, Jiangsu Province, China.

Abstract

BACKGROUND
Different decellularization methods can affect the integrity and the biomechanical and biocompatible properties of the tracheal matrix. Natural cross-linking with genipin can be applied to improve those properties. The goals of this study were to evaluate the effects of different decellularization methods on the properties of genipin-cross-linked decellularized tracheal matrices in rabbits.
METHODS
The tracheas of New Zealand rabbits were decellularized by the Triton-X 100-processed method (TPM) and the detergent-enzymatic method (DEM) and were then cross-linked with genipin. Mechanical tests, haematoxylin-eosin staining, Masson trichrome staining, Safranin O staining, DAPI staining, scanning electronic microscopy (SEM), and biocompatibility tests were used to evaluate the treatment. The bioengineered trachea and control trachea were then implanted into allogeneic rabbits for 30 days. The structural and functional analyses were performed after transplantation.
RESULTS
The biomechanical tests demonstrated that the biomechanical properties of the decellularized tracheas decreased and that genipin improved them (p < 0.05). The histological staining results revealed that most of the mucosal epithelial cells were removed and that the decellularized trachea had lower immunogenicity than the control group. The analysis of SEM revealed that the decellularized trachea retained the micro- and ultra-structural architectures of the trachea and that the matrices cross-linked with genipin were denser. The biocompatibility evaluation and in vivo implantation experiments showed that the decellularized trachea treated with the DEM had better biocompatibility than that treated with the TPM and that immunogenicity in the cross-linked tissues was lower than that in the uncross-linked tissues (p < 0.05).
CONCLUSION
Compared with the trachea treated with the TPM, the rabbit trachea processed by the DEM had better biocompatibility and lower immunogenicity, and its structural and mechanical characteristics were effectively improved after the genipin treatment, which is suitable for engineering replacement tracheal tissue.

Keyword

Tissue engineering; Trachea; Decellularization; Genipin; Biological properties

MeSH Terms

Epithelial Cells
Methods*
Microscopy
Rabbits
Tissue Engineering
Trachea
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