Liver response to heat and humidity stress in high fat diet fed rats: a biochemical and histological investigation.

Climate change, characterized by rising global temperatures, has resulted in increased instances of heatwaves, posing significant public health threats. Among various health risks, heat-related illnesses are prevalent, exacerbated by environmental factors like high humidity and high-fat diet (HFD), which are known to impact metabolic functions in animals. The study was conducted to evaluate the effects of heat and humidity stress on liver function markers and histological changes in rats fed a high fat diet, thereby enhancing our understanding of how environmental stressors impact liver health. A total of 180 albino rats (90 males and 90 females) were divided into 6 groups, with controlled environmental conditions, fed with their respective diets. Experimental rats were subjected to stress (4 h daily) in a temperature-humidity chamber for 30 days. Blood samples were collected at three intervals (each of 10 days) for biochemical analysis (ALT, AST, ALP, GGT, ALB, TP, and TB), and liver tissues were processed for histological examination. The study found significant alterations (P < 0.01) in liver enzyme levels, including elevated ALT, AST, ALP, and GGT in HFD-fed rats under heat and humidity stress compared to RD groups. However, TP, ALB, and TB showed non-significant variations (P > 0.05). Histological analysis revealed structural damage in the liver, including inflammation and necrosis, particularly pronounced in male rats. Gender-specific responses were observed, with males generally exhibiting higher (P < 0.01) enzyme levels and liver injury compared to females. Heat stress led to disrupted hepatic cords and hepatocyte ballooning in RD-fed rats, while HFD-fed rats exhibited central vein disruptions with minimal ballooning. Humidity stress caused vacuolization in RD-fed rats and frequent central vein disruptions in HFD-fed rats. The findings suggest that a high-fat diet exacerbates liver damage under heat and humidity stress, emphasizing the need for dietary considerations in managing stress-induced liver injuries.