NEW PROGRESS OF ACELLULAR FISH SKIN AS NOVEL TISSUE ENGINEERED SCAFFOLD_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

 WEIXiaojuan ¹ , WANGNanping ¹ , HELan ¹ , GUOXiuyu ¹ , GUQisheng ²

1. Shanghai Fisheries Research Institute, Shanghai, 200433, P.R.China;
2. Shanghai Qisheng Institution of Biomaterials & Technology;

Corresponding author：

WEIXiaojuan, Email: xjweish@163.com

Keywords：

Acellular fish skin; Tissue engineered scaffold; Progress

DOI：

10.7507/1002-1892.20160296

Video：

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Objective To review the recent research progress of acellular fish skin as a tissue engineered scaffold, and to analyze the feasibility and risk management in clinical application. Methods The research and development, application status of acellular fish skin as a tissue engineered scaffold were comprehensively analyzed, and then several key points were put forward. Results Acellular fish skin has a huge potential in clinical practice as novel acellular extracellular matrix, but there have been no related research reports up to now in China. As an emerging point of translational medicine, investigation of acellular fish skin is mainly focused on artificial skin, surgical patch, and wound dressings. Conclusion Development of acellular fish skin-based new products is concerned to be clinical feasible and necessary, but a lot of applied basic researches should be carried out.

Citation： WEIXiaojuan, WANGNanping, HELan, GUOXiuyu, GUQisheng. NEW PROGRESS OF ACELLULAR FISH SKIN AS NOVEL TISSUE ENGINEERED SCAFFOLD. Chinese Journal of Reparative and Reconstructive Surgery, 2016, 30(11): 1437-1440. doi: 10.7507/1002-1892.20160296 Copy

1.	Turner NJ, Badylak SF. The use of biologic scaffold in the treatment of chronic nonhealing wound. Adv Wound Care (New Rochelle), 2015, 4(8): 490-500.
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4.	Rakers S, Gebert M, Uppalapati S, et al. 'Fish Matters': the relevance of fish skin biology to investigative dermatology. Exp Dermatol, 2010, 19(4): 313-324.
5.	陈俊德, 易瑞灶, 陈晖.鱼胶原蛋白及其活性肽的研究进展.中国海洋药物, 2009, 28(4): 52-56.
6.	杨玲, 赵燕, 鲁亮, 等.鲟鱼鱼皮胶原蛋白的提取及其理化性能分析.食品科学, 2013, 34(23): 41-46.
7.	Dominika V, Pajnkihar M, Langerholc T. Effect of omega-3 fatty acids on skin wound healing. Obzornik zdravstvene nege, 2015, 49(1): 60-65.
8.	McDaniel J, Belury M, Ahijevych KL, et al. Omega-3 fatty acids effect on wound healing. Wound Repair Regen, 2008, 16(3): 337-345.
9.	Jeevithan E, Zhao Q, Bin B, et al. Biomedical and pharmaceutical application of fish collagen and gelatin: a review. Journal of Nutritional Therapeutics, 2013, 2(4): 218-227.
10.	Chandika P, Ko SC, Oh GW, et al. Fish collagen/alginate/chitooligosaccharides integrated scaffold for skin tissue regeneration application. Int J Biol Macromol, 2015, 81: 504-513.
11.	Balakrishnan S, Selvam R, Sundar K, et al. Studies on calcification efficacy of stingray fish skin collagen for possible use as scaffold for bone regeneration. Tissue Engineering & Regenerative Medicine, 2014, 12(2): 98-106.
12.	Zhan J, Morsi Y, Ei-Hamshary H, et al. In vitro evaluation of electrospun gelatin-glutaraldehyde nanofibers. Frontiers of Materials Science, 2016, 10(1): 90-100.
13.	Magnússon S, Baldursson BT, Kjartansson H, et al. Decellularized fish skin: characteristics that support tissue repair. Laeknabladid, 2015, 101(12): 567-573.
14.	Sigurjonsson GF. A scaffold material graft for wound care and/or other tissue healing applications. Wo 2013/144727 A2, 2013-3-29.
15.	Yang CK, Polanco TO, Lantis JC. A prospective, postmarket, compassionate clinical evaluation of a novel acellular fish-skin graft which contains Omega-3 fatty acids for the closure of hard-to-heal lower extremity chronic ulcers. Wounds, 2016, 28(4): 112-118.
16.	Baldursson B, Kjartansson H, Konrádsdóttir F, et al. Healing rate and autoimmune safety of full-thickness wounds treated with fish skin acellular dermal matrix versus porcine small-intestine submucosa: a noninferiority study. Int J Low Extrem Wounds, 2015, 14(1): 37-43.
17.	Kjartansson H, Olafsson IH, Karason S, et al. Use of acellular fish skin for dura repair in an ovine model: A pilot study. Open Journal of Modern Neurosurgery, 2015, 5(4): 124-136.
18.	Trinh TT, Dünschede F, Vahl CF, et al. Marine Omega3 wound matrix for the treatment of complicated wounds. Phlebologie Stuttgart, 2016, 45(2): 93-98.
19.	Magnusson S, Winters C, Baldursson BT, et al. Acceleration of wound healing through utilization of fish skin containing Omega-3 fatty acid. Today's Wound Clinic, 2016, 10(5): http://www.todayswoundclinic.com/articles.
20.	张静怡.罗非鱼胶原蛋白的生物相容性研究.上海:上海海洋大学, 2015.
21.	国家食品药品监督管理总局医疗器械技术审评中心.动物源性医疗器械产品注册申报资料指导原则(修订版). 2015.

1. Turner NJ, Badylak SF. The use of biologic scaffold in the treatment of chronic nonhealing wound. Adv Wound Care (New Rochelle), 2015, 4(8): 490-500.
2. Klosová H, Klein L, Bláha J. Analysis of a retrospective double-centre data-collection for the treatment of burns using biological cover Xe-derma^®. Ann Burn Fire Disasters, 2014, 27(4): 171-175.
3. Abraham LM. Xenaderm: an essential wound care therapy. Adv Skin Wound Care, 2010, 23(2): 73-76.
4. Rakers S, Gebert M, Uppalapati S, et al. 'Fish Matters': the relevance of fish skin biology to investigative dermatology. Exp Dermatol, 2010, 19(4): 313-324.
5. 陈俊德, 易瑞灶, 陈晖.鱼胶原蛋白及其活性肽的研究进展.中国海洋药物, 2009, 28(4): 52-56.
6. 杨玲, 赵燕, 鲁亮, 等.鲟鱼鱼皮胶原蛋白的提取及其理化性能分析.食品科学, 2013, 34(23): 41-46.
7. Dominika V, Pajnkihar M, Langerholc T. Effect of omega-3 fatty acids on skin wound healing. Obzornik zdravstvene nege, 2015, 49(1): 60-65.
8. McDaniel J, Belury M, Ahijevych KL, et al. Omega-3 fatty acids effect on wound healing. Wound Repair Regen, 2008, 16(3): 337-345.
9. Jeevithan E, Zhao Q, Bin B, et al. Biomedical and pharmaceutical application of fish collagen and gelatin: a review. Journal of Nutritional Therapeutics, 2013, 2(4): 218-227.
10. Chandika P, Ko SC, Oh GW, et al. Fish collagen/alginate/chitooligosaccharides integrated scaffold for skin tissue regeneration application. Int J Biol Macromol, 2015, 81: 504-513.
11. Balakrishnan S, Selvam R, Sundar K, et al. Studies on calcification efficacy of stingray fish skin collagen for possible use as scaffold for bone regeneration. Tissue Engineering & Regenerative Medicine, 2014, 12(2): 98-106.
12. Zhan J, Morsi Y, Ei-Hamshary H, et al. In vitro evaluation of electrospun gelatin-glutaraldehyde nanofibers. Frontiers of Materials Science, 2016, 10(1): 90-100.
13. Magnússon S, Baldursson BT, Kjartansson H, et al. Decellularized fish skin: characteristics that support tissue repair. Laeknabladid, 2015, 101(12): 567-573.
14. Sigurjonsson GF. A scaffold material graft for wound care and/or other tissue healing applications. Wo 2013/144727 A2, 2013-3-29.
15. Yang CK, Polanco TO, Lantis JC. A prospective, postmarket, compassionate clinical evaluation of a novel acellular fish-skin graft which contains Omega-3 fatty acids for the closure of hard-to-heal lower extremity chronic ulcers. Wounds, 2016, 28(4): 112-118.
16. Baldursson B, Kjartansson H, Konrádsdóttir F, et al. Healing rate and autoimmune safety of full-thickness wounds treated with fish skin acellular dermal matrix versus porcine small-intestine submucosa: a noninferiority study. Int J Low Extrem Wounds, 2015, 14(1): 37-43.
17. Kjartansson H, Olafsson IH, Karason S, et al. Use of acellular fish skin for dura repair in an ovine model: A pilot study. Open Journal of Modern Neurosurgery, 2015, 5(4): 124-136.
18. Trinh TT, Dünschede F, Vahl CF, et al. Marine Omega3 wound matrix for the treatment of complicated wounds. Phlebologie Stuttgart, 2016, 45(2): 93-98.
19. Magnusson S, Winters C, Baldursson BT, et al. Acceleration of wound healing through utilization of fish skin containing Omega-3 fatty acid. Today's Wound Clinic, 2016, 10(5): http://www.todayswoundclinic.com/articles.
20. 张静怡.罗非鱼胶原蛋白的生物相容性研究.上海:上海海洋大学, 2015.
21. 国家食品药品监督管理总局医疗器械技术审评中心.动物源性医疗器械产品注册申报资料指导原则(修订版). 2015.

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Chinese Journal of Reparative and Reconstructive Surgery

NEW PROGRESS OF ACELLULAR FISH SKIN AS NOVEL TISSUE ENGINEERED SCAFFOLD

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