Sex-Specific Biochemical and Histopathological Effects of Chronic Meat-Based vs. Plant-Based Burger Consumption in a Rodent Model.

The growing consumption of processed foods, including meat-based and plant-based burgers (PBM), raises concerns about their long-term health effects. While PBM burgers are marketed as healthier alternatives, their biochemical and histological impacts remain unclear. This study investigates the effects of chronic meat-based and PBM burger consumption on metabolic and organ health, considering sex differences. Thirty-six Wistar rats (18 males and 18 females) were divided into three groups: control (standard chow), meat burger-fed, and PBM burger-fed. Improved chow was prepared using lyophilized burger powder. Over eight weeks, food intake, weight gain, and food efficiency ratio (FER) were monitored. Serum biochemical markers, including AST, ALT, urea, creatinine, lipid profile (TG, CHOL, HDL, LDL), and leptin, were analyzed, alongside histopathological evaluation of the liver, kidneys, and heart. PBM-fed rats exhibited significantly higher FER than the meat group ( < 0.05). AST and ALT levels were slightly elevated in meat-fed rats, while PBM-fed males had increased urea levels. Triglyceride levels were significantly higher in the meat group, but cholesterol levels did not differ significantly. Serum leptin was elevated in both experimental groups, suggesting leptin resistance. Histological findings showed mild hepatic inflammation and microvacuolar changes, with minor cardiac fibrosis. These findings highlight the need for further research on PBM's long-term health effects.