Whole Organ Sheep Kidney Tissue Engineering and in Vivo Transplantation: Effects of Perfusion-Based Decellularization on Vascular Integrity

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Whole Organ Sheep Kidney Tissue Engineering and in Vivo Transplantation: Effects of Perfusion-Based Decellularization on Vascular Integrity Publisher Pubmed

Kajbafzadeh AM¹ ; Khorramirouz R¹ ; Nabavizadeh B¹ ; Ladi Seyedian SS¹ ; Akbarzadeh A¹ ; Heidari R¹ ; Masoumi A¹ ; Azizi B¹ ; Seyed Hossein Beigi R¹

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1. Pediatric Urology and Regenerative Medicine Research Center, Children's Medical Center, Tehran University of Medical Sciences, Tehran, Iran

Source: Materials Science and Engineering C Published:2019

Abstract

Introduction: During the past decade, increased efforts have been made to develop alternative management options instead of dialysis and homograft renal transplantation for end-stage renal disease. State-of-the-art methods employ tissue engineering to produce natural acellular scaffolds that could resolve the concern of allograft rejection and obviate the need for immunosuppressive therapy. Complete decellularization of kidney with intact extracellular matrix is crucial for in vivo compatibility and success of transplantation. Herein, we evaluate the efficacy of two different whole organ decellularization protocols, vasculature integrity, and in vivo transplantation of sheep kidneys. Materials and methods: Eight sheep kidneys were decellularized by perfusion-based method utilizing two different protocols (Protocol 1: 1% Triton X-100 and 0.5% SDS vs. Protocol 2: 1% SDS). The samples were evaluated by histopathology in terms of decellularization and extracellular matrix preservation. Computerized tomography angiography was performed to evaluate vasculature. Subsequently, both methods were transplanted in four sheep and monitored for vascular integrity and extravasations in short-term. Results: Scaffolds obtained from both protocols were entirely decellularized. However; the extracellular matrix was better preserved in protocol 1 compared to protocol 2. In addition, the vascular integrity was intact in decellularized scaffolds treated with Triton X-100 plus SDS (protocol 1). After transplantation, the samples treated with protocol 2 showed extravasation of fluid in the interstitial space while the samples treated with protocol 1 showed intact extracellular matrix and vasculature. Conclusions: This study demonstrated the efficacy of well-preserved acellular scaffold and vasculature network in post renal transplant outcome in a sheep model. These results have potential to pave the road for further investigations in acellular whole organ transplantation. © 2019 Elsevier B.V.

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Style	Citing Format
MLA	Kajbafzadeh AM, et al.. "Whole Organ Sheep Kidney Tissue Engineering and in Vivo Transplantation: Effects of Perfusion-Based Decellularization on Vascular Integrity." Materials Science and Engineering C, vol. 98, no. , 2019, pp. 392-400.
APA	Kajbafzadeh AM, Khorramirouz R, Nabavizadeh B, Ladi Seyedian SS, Akbarzadeh A, Heidari R, Masoumi A, Azizi B, Seyed Hossein Beigi R (2019). Whole Organ Sheep Kidney Tissue Engineering and in Vivo Transplantation: Effects of Perfusion-Based Decellularization on Vascular Integrity. Materials Science and Engineering C, 98(), 392-400.
Chicago	Kajbafzadeh AM, Khorramirouz R, Nabavizadeh B, Ladi Seyedian SS, Akbarzadeh A, Heidari R, Masoumi A, Azizi B, Seyed Hossein Beigi R. "Whole Organ Sheep Kidney Tissue Engineering and in Vivo Transplantation: Effects of Perfusion-Based Decellularization on Vascular Integrity." Materials Science and Engineering C 98, no. (2019): 392-400.
Harvard	Kajbafzadeh AM et al. (2019) 'Whole Organ Sheep Kidney Tissue Engineering and in Vivo Transplantation: Effects of Perfusion-Based Decellularization on Vascular Integrity', Materials Science and Engineering C, 98(), pp. 392-400.
Vancouver	Kajbafzadeh AM, Khorramirouz R, Nabavizadeh B, Ladi Seyedian SS, Akbarzadeh A, Heidari R, et al.. Whole Organ Sheep Kidney Tissue Engineering and in Vivo Transplantation: Effects of Perfusion-Based Decellularization on Vascular Integrity. Materials Science and Engineering C. 2019;98():392-400.
BibTex	@article{ author = {Kajbafzadeh AM and Khorramirouz R and Nabavizadeh B and Ladi Seyedian SS and Akbarzadeh A and Heidari R and Masoumi A and Azizi B and Seyed Hossein Beigi R}, title = {Whole Organ Sheep Kidney Tissue Engineering and in Vivo Transplantation: Effects of Perfusion-Based Decellularization on Vascular Integrity}, journal = {Materials Science and Engineering C}, volume = {98}, number = {}, pages = {392-400}, year = {2019} }
RIS	TY - JOUR AU - Kajbafzadeh AM AU - Khorramirouz R AU - Nabavizadeh B AU - Ladi Seyedian SS AU - Akbarzadeh A AU - Heidari R AU - Masoumi A AU - Azizi B AU - Seyed Hossein Beigi R TI - Whole Organ Sheep Kidney Tissue Engineering and in Vivo Transplantation: Effects of Perfusion-Based Decellularization on Vascular Integrity JO - Materials Science and Engineering C VL - 98 IS - SP - 392 EP - 400 PY - 2019 ER -

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