REFERENCES 1) Magnusson, S., et al. Decellularized fish skin: characteristics that support tissue repair. Laeknabladid. 101, 567–573 (2015). 2) Rakers, S., et al. ‘Fish matters’: the relevance of fish skin biology to investigative dermatology. Exp Dermatol. 19, 313–324 (2010). 3) Baldursson, B. T., 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. 14, (2015). 4) Kirsner, R. S., et al. Fish skin grafts compared to human amnion/ chorion membrane allografts: A double-blind, prospective, randomized clinical trial of acute wound healing. Wound Repair and Regeneration, 28(1), 75-80 (2020). 5) Lullove, E. J., et al. A multicenter, blinded, randomized controlled clinical trial evaluating the effect of Omega-3–rich fish skin in the treatment of chronic, nonresponsive diabetic foot ulcers. Wounds (2021). 6) Winters, C., et al. Cost Effectiveness of Fish Skin Grafts Versus Standard of Care on Wound Healing of Chronic Diabetic Foot Ulcers: A Retrospective Comparative Cohort Study. Wounds. 32(10):283-290.(2020). 7) Stone, II, R., et al. Accelerated Wound Closure of Deep Partial Thickness Burns with Acellular Fish Skin Graft. Int J Mol Sci. 22(4):1590 (2021). 8) Yang, C.K., et al. 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. 28(4):112-8 (2016). 9) Trinh, T. T., et al. Marine Omega3 Wound Matrix for the Treatment of Complicated Wounds. Phlebologie. 45, 93–98 (2016). 10) Woodrow, T., et al.Treatment of diabetic foot wounds with acellular fish skin graft rich in omega-3: a prospective evaluation. J Wound Care. 28, 76–80 (2019). 11) Sitje, T. S., et al. A. Clinical innovation: fish-derived wound product for cutaneous wounds. Wounds Int. 2018 9, 44–50 (2018). 12) Patel, M. & Lantis II, J. C. Fish skin acellular dermal matrix: potential in the treatment of chronic wounds. Chronic Wound Care Manag Res. 6, 59–70 (2019). 13) Sibbald, R., et al. Special considerations in wound bed preparation 2011: An update. Adv Skin Wound Care. 24(9):415-36 (2011). 14) Easterbrook, C. & Maddern, G. Porcine and bovine surgical products: Jewish, Muslim, and Hindu perspectives. Arch Surg. 143(4), 366–370 (2008). 15) Wallner, C., et al. The Use of Intact Fish Skin as a Novel Treatment Method for Deep Dermal Burns Following Enzymatic Debridement: A Retrospective Case-Control Study. Euro Burn J. 3(1):43-55 (2022). REFERENCES Kerecis VET is an intact fish skin that has been successfully used to support tissue regeneration and repair in various animal species. Kerecis fish skin products are FDA cleared for diverse clinical applications. Our proprietary manufacturing method, which involves minimal processing, allows the fish skin to preserve its natural qualities, including its three-dimensional structure, mechanical properties, molecular , When grafted onto damaged tissue, such as a burn or wound, the fish skin recruits the body’s The superior clinical and economic performance of Kerecis fish skin has been demonstrated in multiple human blinded, randomized, controlled clinical trials3,4,5 and numerous other clinical studies.6-13, 15 Sustainably Harvested in Iceland For more information, visit www.jorvet.com or email:
[email protected] Jorgensen Laboratories, LLC Loveland, CO 80538 800.525.5614
[email protected] www.JorVet.com © 2024 Kerecis. All Rights Reserved.
KerecisVET Case Studies Brochure
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