Probiotics and ascorbic acid improved radiographic bone density and mitigated oxidative stress and multiple organ dysfunction induced by heat stress in rats

Abstract

Heat stress is a substantial environmental challenge that adversely affect health and performance. This study aimed to investigate the effect of advanced short-term dietary supplementation of probiotics or vitamin C on serum biochemical parameters, antioxidant status, and radiographic bone density in heat-stressed rats. A 48 male albino rat were randomly allocated into six groups: Control, Heat stress, Probiotics, Probiotics+Heat stress, Vitamin C, Vitamin C+Heat stress group. Rats in supplementation groups received probiotics or ascorbic acid orally from week 1 to 8. Heat stress groups were subjected to elevated temperature (42 ±1 ˚C and relative humidity 65 ± 2%) 60 minutes daily for 4 weeks starting from week 5 to 8, while other groups were maintained under standard laboratory conditions. Heat stress resulted in increased serum ALT, AST, urea and creatinine (P<0.001), decreased calcium, increased phosphorus and osteocalcin (P<0.001), increased serum MDA, decreased TAC (P<0.001), decreased radiographic bone density (P<0.001) compared to other groups. Histopathological examination of liver, kidney and adrenal glands reflected the ongoing heat-stress damage. Administration of probiotics and ascorbic acid demonstrated substantial protection, suggesting their potential efficacy against heat stress. The obtained findings hold promise for the development of novel strategies to enhance heat stress resilience in animals.