Creatine in Sustainable Fish Aquaculture
Creatine in Sustainable Fish Aquaculture
Authors
Villasante, Alejandro
Ramirez, Carolina
Figueroa Villalobos, Elias
Pereira, Wellison A. A.
Powell, Madison S. S.
Gatlin, Delbert M. M.
Dantagnan, Patricio
Romero, Jaime
Ramirez, Carolina
Figueroa Villalobos, Elias
Pereira, Wellison A. A.
Powell, Madison S. S.
Gatlin, Delbert M. M.
Dantagnan, Patricio
Romero, Jaime
Profesor GuĆa
Authors
Date
Datos de publicaciĆ³n:
10.1080/23308249.2023.2210689
REVIEWS IN FISHERIES SCIENCE & AQUACULTURE,Vol.,,2023
REVIEWS IN FISHERIES SCIENCE & AQUACULTURE,Vol.,,2023
Tipo de recurso
Keywords
Materia geogrƔfica
Collections
Abstract
Creatine is a popular ergogenic sport supplement used to improve exercise performance and muscle growth in athletes. Further, studies suggest protective effects of creatine in neurodegenerative diseases, type 2 diabetes, osteoarthritis, fibromyalgia, aging and fatty liver disease in humans. Similarly, the versatility of creatine, as a supplement or feed additive, has been evaluated in different animal production systems, including terrestrial livestock, poultry and aquaculture fish species. Some of the observed effects are increased antioxidant activity and flesh quality, improved lipid homeostasis as well as enhanced overall productive performance. Despite creatine being synthesized endogenously, this capacity might be insufficient to adequately cover the creatine needs in fish fed diets formulated with ingredients devoid of this nutrient, notably plant protein feedstuffs. As aquaculture industry moves toward sustainability, removal of creatine-rich dietary ingredients, such as fishmeal, in aquafeeds will likely further increase in coming decades. Thus, under this scenario it might be necessary for dietary supplementation of creatine to support optimal fish productive performance and product quality. This review describes the current knowledge of creatine physiology and metabolism in fish, and highlights possible parallels with metabolism in livestock species, mammalian models and human as well as the benefits obtained from creatine supplementation.