Efficient decellularization by application of moderate high hydrostatic pressure with supercooling pretreatment

Daiki Zemmyo, Masashi Yamamoto, Shogo Miyata

Research output: Contribution to journalArticlepeer-review

8 Citations (Scopus)


Decellularized tissues are considered superior scaffolds for cell cultures, preserving the microstructure of native tissues and delivering many kinds of cytokines. high hydrostatic pressure (HHP) treatment could remove cells physically from biological tissues rather than chemical methods. however, there are some risks of inducing destruction or denaturation of extracellular matrices (ECMs) at an ultrahigh level of hHP. Therefore, efficient decellularization using moderate hHP is required to remove almost all cells simultaneously to suppress tissue damage. In this study, we proposed a novel decellularization method using a moderate hHP with supercooling pretreatment. To validate the decellularization method, a supercooling device was developed to incubate human dermal fibroblasts or collagen gels in a supercooled state. The cell suspension and collagen gels were subjected to 100, 150, and 200 MPa of hHP after supercooling pretreatment, respectively. After applying hHP, the viability and morphology of the cells and the collagen network structure of the gels were evaluated. The viability of cells decreased dramatically after hHP application with supercooling pretreatment, whereas the microstructures of collagen gels were preserved and cell adhesivity was retained after hHP application. In conclusion, it was revealed that supercooling pretreatment promoted the denaturation of the cell membrane to improve the efficacy of decellularization using static application of moderate hHP. Furthermore, it was demonstrated that the hHP with supercooling pretreatment did not degenerate and damage the microstructure in collagen gels.

Original languageEnglish
Article number1486
Issue number12
Publication statusPublished - 2021 Dec


  • Collagen structure
  • Cyclic hydrostatic pressure
  • Decellularization
  • High hydrostatic pressure
  • Preservation of structure
  • Supercooling

ASJC Scopus subject areas

  • Control and Systems Engineering
  • Mechanical Engineering
  • Electrical and Electronic Engineering


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