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Decellularized Human Amniotic Membrane: How Viable Is It As a Delivery System for Human Adipose Tissue-Derived Stromal Cells? Publisher Pubmed



Gholipourmalekabadi M1, 2 ; Sameni M2 ; Radenkovic D3 ; Mozafari M4 ; Mossahebimohammadi M5 ; Seifalian A6, 7
Authors
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Authors Affiliations
  1. 1. Biotechnology Department, School of Advanced Technologies in Medicine, Shahid Beheshti University of Medical Sciences, Tehran, 198396-3113, Iran
  2. 2. Cellular and Molecular Biology Research Centre, Shahid Beheshti University of Medical Sciences, Tehran, 198396-3113, Iran
  3. 3. University College London (UCL) Medical School, London, WC1E 6BT, United Kingdom
  4. 4. Bioengineering Research Group, Nanotechnology and Advanced Materials Department, MERC, Tehran, 14155-4777, Iran
  5. 5. Department of Hematology and Blood Banking, Faculty of Medical Sciences, Tarbiat Modares University, Tehran, 14115-111, Iran
  6. 6. Centre for Nanotechnology and Regenerative Medicine, UCL and Royal Free Hospital, London, NW3 2QG, United Kingdom
  7. 7. NanoRegMed Ltd, London, EC1V 4PW, United Kingdom

Source: Cell Proliferation Published:2016


Abstract

Objectives: Human amniotic membrane (HAM) has been widely used in soft tissue engineering both in its fresh form and decellularized; its efficiency to aid treatment of burn injuries is well known. On the other hand, it has been reported clinically by several studies that human adipose-derived stem cells (hADSC) are a promising cell source for cell therapy for burns. Recently, we have reported a new technique for decellularization of HAM. In this study, potential of prepared decellularized HAM (dHAM) as a viable support for proliferation and delivery of hADSC was investigated. Materials and methods: Amniotic membranes were collected, decellularized and preserved according to the protocol described in our previously published study. hADSC were obtained from the patients undergoing elective liposuction surgery and cells were then seeded on the decellularized membrane for various times. Efficiency of the decellularized membrane as a delivery system for hADSC was investigated by MTT, LDH specific activity, DAPI staining and SEM. Results: The results showed that dHAM provided a supporting microenvironment for cell growth without producing any cytotoxic effects. In addition, the cells were spread out and actively attached to the dHAM scaffold. Conclusion: These results strongly suggest that dHAMs have considerable potential as 3D cell-carrier scaffolds for delivery of hADSC, in tissue engineering and regenerative medicine applications. © 2016 John Wiley & Sons Ltd.
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