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Mineralized Human Amniotic Membrane As a Biomimetic Scaffold for Hard Tissue Engineering Applications Publisher Pubmed



Sabouri L1, 2 ; Farzin A3 ; Kabiri A4 ; Milan PB1, 2 ; Farahbakhsh M5 ; Mehdizadehkashi A6 ; Kajbafzadeh A3 ; Samadikuchaksaraei A1, 2, 7 ; Yousefbeyk F8 ; Azami M3 ; Moghtadaei M1, 2, 9, 10
Authors
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Authors Affiliations
  1. 1. Cellular and Molecular Research Center, Iran University of Medical Sciences, Tehran, 1449614535, Iran
  2. 2. Department of Tissue Engineering and Regenerative Medicine, Faculty of Advanced Technologies in Medicine, Iran University of Medical Sciences, Tehran, 1449614535, Iran
  3. 3. Department of Tissue Engineering and Applied Cell Sciences, School of Advanced Technologies in Medicine, Tehran University of Medical Sciences, Tehran, 1417755469, Iran
  4. 4. Department of Anatomical Sciences, Guilan University of Medical Science, Rasht, 4188794755, Iran
  5. 5. Department of Medical Laboratory Sciences, Paramedical Sciences School of Langeroud, Guilan University of Medical Science, Rasht, 4188794755, Iran
  6. 6. Endometriosis Research Center, Iran University of Medical Science, Tehran, 1445613131, Iran
  7. 7. Department of Medical Biotechnology, Faculty of Allied Medicine, Iran University of Medical Sciences, Tehran, 1449614535, Iran
  8. 8. Department of Pharmacology, School of Pharmacy, Guilan University of Medical Sciences, Rasht, 4188794755, Iran
  9. 9. Department of Orthopaedic Surgery, Rasoul-e-Akram Hospital, Iran University of Medical Sciences, Tehran, 1445613131, Iran
  10. 10. Bone and Joint Reconstruction Research Center, Iran University of Medical Sciences, Tehran, 1157637131, Iran

Source: ACS Biomaterials Science and Engineering Published:2020


Abstract

The human amniotic membrane (HAM) has been viewed as a potential regenerative material for a wide variety of injured tissues because of its collagen-rich content. High degradability of HAM limits its wide practical application in bone tissue engineering. In this study, the natural matrix of the decellularized amniotic membrane was developed by the double diffusion method. The results confirmed a reduction of the amniotic membrane's degradability because of the deposition of calcium and phosphate ions during the double diffusion process. Real-time PCR results showed a high expression of osteogenesis-related genes from adipose-derived mesenchymal stem cells (ADMSCs) cultured on the surface of the developed mineralized amniotic membrane (MAM). Further in vivo experiments were conducted using an MAM preseeded with ADMSCs and a critical-size rat calvarial defect model. Histopathological results confirmed that the MAM + cell sample has excellent potential in bone regeneration. © 2020 American Chemical Society.
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