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Synergistic Effects of SDS and H 2 O 2 Combinations on Tracheal Scaffold Development: An In Vitro Study Using Goat Trachea.

Dhihintia JiwanggaFerdiansyah MahyudinGondo MastutikEstya Nadya Meitavany JulianaPriangga Adi Wiratama
Published in: International journal of biomaterials (2024)
Currently, a tissue-engineered trachea has been popularly used as a biological graft for tracheal replacement in severe respiratory diseases. In the development of tissue-engineered tracheal scaffolds, in vitro studies play a crucial role in allowing researchers to evaluate the efficacy and safety of scaffold designs and fabrication techniques before progressing to in vivo or clinical trials. This research involved the decellularization of goat trachea using SDS, H 2 O 2 , and their combinations. Various quantitative and qualitative assessments were performed, including histological analysis, immunohistochemistry, and biomechanical testing. Hematoxylin and eosin staining evaluated the cellular content, while safranin O-fast green and Masson's trichrome staining assessed glycosaminoglycan content and collagen distribution, respectively. The immunohistochemical analysis focused on detecting MHC-1 antigen presence. Tensile strength measurements were conducted to evaluate the biomechanical properties of the decellularized scaffolds. The results demonstrated that the combination of SDS and H 2 O 2 for goat tracheal decellularization yielded scaffolds with minimal cellular remnants, low toxicity, preserved ECM, and high tensile strength and elasticity. This method holds promise for developing functional tracheal scaffolds to address severe respiratory diseases effectively.
Keyphrases
  • tissue engineering
  • clinical trial
  • early onset
  • oxidative stress
  • high resolution
  • machine learning
  • drug delivery
  • drug induced
  • finite element analysis
  • randomized controlled trial
  • study protocol
  • phase iii
  • phase ii