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Decellularization and In Vivo Recellularization of Abdominal Porcine Fascial Tissue

Sánchez Julio C.,Díaz Diana M.,Sánchez Leidy V.,Valencia-Vásquez Aníbal,Quintero Juan F.,Muñoz Laura V.,Bernal Andrés F.,Osorio Germán,Guerra Álvaro,Buitrago Juliana 한국조직공학과 재생의학회 2021 조직공학과 재생의학 Vol.18 No.3
- 복사/대출신청
BACKGROUND: Tissue decellularization has evolved as a promising approach for tissue engineering applications. METHODS: In this study, we harvested fascial tissue from porcine anterior abdominal wall and the samples were decellularized with a combination of agents such as Triton X-100, trypsin and DNAase. Afterwards, we evaluated cell removal by histological analysis and DNA quantification. Mechanical functionality was evaluated by applying a range of hydrostatic pressures. A sample of decellularized fascia was transplanted into a rabbit and after 15 days a biopsy of this tissue was examined; the animal was observed during 6 months after surgery. RESULTS: The extracellular matrix was retained with a complete decellularization as evidenced by histologic examination. The DNA content was significantly reduced. The scaffold preserved its tensile mechanical properties. The graft was incorporated into a full thickness defect made in the rabbit abdominal wall. This tissue was infiltrated by granulation and inflammatory cells and the histologic structure was preserved 15 days after surgery. The animal did not develop hernias, infections or other complications, after a 6-months of follow up. CONCLUSIONS: The protocol of decellularization of fascial tissue employed in this study proved to be efficient. The mechanical test demonstrated that the samples were not damaged and maintained its physical characteristics; clinical evolution of the rabbit, recipient of the decellularized fascia, demonstrated that the graft was effective as a replacement of native tissue.In conclusion, a biological scaffold derived from porcine fascial tissue may be a suitable candidate for tissue engineering applications. BACKGROUND: Tissue decellularization has evolved as a promising approach for tissue engineering applications. METHODS: In this study, we harvested fascial tissue from porcine anterior abdominal wall and the samples were decellularized with a combination of agents such as Triton X-100, trypsin and DNAase. Afterwards, we evaluated cell removal by histological analysis and DNA quantification. Mechanical functionality was evaluated by applying a range of hydrostatic pressures. A sample of decellularized fascia was transplanted into a rabbit and after 15 days a biopsy of this tissue was examined; the animal was observed during 6 months after surgery. RESULTS: The extracellular matrix was retained with a complete decellularization as evidenced by histologic examination. The DNA content was significantly reduced. The scaffold preserved its tensile mechanical properties. The graft was incorporated into a full thickness defect made in the rabbit abdominal wall. This tissue was infiltrated by granulation and inflammatory cells and the histologic structure was preserved 15 days after surgery. The animal did not develop hernias, infections or other complications, after a 6-months of follow up. CONCLUSIONS: The protocol of decellularization of fascial tissue employed in this study proved to be efficient. The mechanical test demonstrated that the samples were not damaged and maintained its physical characteristics; clinical evolution of the rabbit, recipient of the decellularized fascia, demonstrated that the graft was effective as a replacement of native tissue.In conclusion, a biological scaffold derived from porcine fascial tissue may be a suitable candidate for tissue engineering applications.

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