Role of Collagen in Wound Healing of Fishes
Arya Prabhakaran*, Tincy Varghese, Garima Anand, Dharmaraj Patro and Husain Nottanalan
1Fish Nutrition Physiology and Biochemistry Division, ICAR-CIFE, Mumbai
2Scientist, ICAR-CIFE, Mumbai
*Corresponding Author: Tincy Varghese, Scientist, ICAR-CIFE, Mumbai.
Received:
July 20, 2023; Published: July 28, 2023
Abstract
The term ‘wound’ refers to the break in the continuity of tissue, it can be a varying degree of loss of substance caused by either physical, chemical, microbial, or immunological damage to tissue [8]. In aquaculture, fish are subject to injury from a variety of sources, like viral and bacterial pathogens causing internal hemorrhages, parasites, and predators that disrupt the mucosal surfaces by conspecific biting, abrasion against raceways, or contusions, from sorting procedures [13]. These wounds lead to poor welfare on the part of the fish and lead to downgrading fillet quality mostly due to poor visual appeal to the consumer. Wound healing is a physiological process of repairing proceeding injury to the skin and other soft tissues in humans and other animals.
References
- Birk David E and Peter Bruckner. "Collagen suprastructures”. Collagen: Primer in Structure, Processing and Assembly (2005): 185-205.
- Cai Linyi., et al. "The role of the lysyl oxidases in tissue repair and remodelling: a concise review”. Tissue Engineering and Regenerative Medicine14 (2017): 15-30.
- Ellingson AJ., et al. "Regulators of collagen crosslinking in developing and adult tendons”. European Cells and Materials43 (2022): 130.
- Goggins Bridie J., et al. "Hypoxia and integrin-mediated epithelial restitution during mucosal inflammation”. Frontiers in Immunology4 (2013): 272.
- Guo Sal and Luisa A DiPietro. "Factors affecting wound healing”. Journal of Dental Research3 (2010): 219-229.
- Hirata Yukihiro., et al. "Endoplasmic reticulum–to–Golgi trafficking of procollagen III via conventional vesicular and tubular carriers”. Molecular Biology of the Cell3 (2022): ar21.
- Jafari Hafez., et al. "Fish collagen: Extraction, characterization, and applications for biomaterials engineering”. Polymers10 (2020): 2230.
- Johnson FR and RMH McMinn. "The cytology of wound healing of body surfaces in mammals”. Biological Reviews3 (1960): 364-410.
- Parenteau-Bareil., et al. "Collagen-based biomaterials for tissue engineering applications”. Materials3 (2010): 1863-1887.
- Rakers Sebastian., et al. "Fish matters’: the relevance of fish skin biology to investigative dermatology”. Experimental Dermatology4 (2010): 313-324.
- Richardson Rebecca., et al. "Adult zebrafish as a model system for cutaneous wound-healing research”. Journal of Investigative Dermatology6 (2013): 1655-1665.
- Rodrigues Melanie., et al. "Wound healing: a cellular perspective”. Physiological Reviews1 (2019): 665-706.
- Sveen Lene., et al. "Mechanical induced wounds in fish a review on models and healing mechanisms”. Reviews in Aquaculture4 (2020): 2446-2465.
- Velazquez Omaida C. "Angiogenesis and vasculogenesis: Inducing the growth of new blood vessels and wound healing by stimulation of bone marrow–derived progenitor cell mobilization and homing”. Journal of Vascular Surgery6 (2007): A39-A47.
- Whitford David. “Proteins: structure and function”. John Wiley and Sons (2013).
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