Activité, Système Moteur & Coordination
Douleur - Allodynie/Hyperalgésie Thermique
Douleur - Spontanée - Déficit de Posture
Douleur - Allodynie/Hyperalgésie Mécanique
Anxiété & Dépression
Apprentissage/Mémoire - Attention - Addiction
Physiologie & Recherche Respiratoire
Métabolisme & Prise Alimentaire
Douleur
Système Nerveux Central (SNC) 
Neurodégénérescence
Système sensoriel
Système moteur
Troubles de l'humeur
Autres pathologies
Système musculaire
Articulations
Métabolisme
Thématiques transversales
Bioseb on booth #14 at OARSI 2024 in Vienna Authors
Jeon, H.; Lee, K.; Kim, J.-Y.; Shim, J.-J.; Lee, J.-L
Lab
R&BD Center, Gyeonggi-do, Republic of Korea
Journal
Fermentation
Abstract
Sarcopenia, commonly found in the elderly, causes a decrease in muscle mass and function. Lactobacillus curvatus HY7602-fermented antler (FA) is a functional food that increases muscle strength and ameliorates dexamethasone-induced muscle atrophy. In the present study, we evaluated the effects of FA on age-related muscle atrophy and its mechanism of action using 100-week-old BALB/c mice. Physiological changes during fermentation were investigated. The results showed that the oral administration of FA substantially recovered muscle loss up to 23.6% and improved physical performance, such as treadmill running distance and limb grip strength, in aged mice. A gene expression analysis of muscle fibers showed that the effect of FA on age-related muscle atrophy was significantly associated with the inhibition of protein degradation and apoptosis, muscle fiber regeneration, and increased mitochondrial biogenesis. In addition, the acetate and butyrate contents increased by more than 50% during the fermentation of antler. In conclusion, FA can be considered as a functional food ingredient capable of effectively controlling muscle atrophy caused by aging and can be a novel alternative treatment for sarcopenia.
BIOSEB Instruments Used:
Grip strength test (BIO-GS4)
