Abstract Skeletal muscle is of great importance for human activity and quality of life, as its loss contributes greatly to immobilization, especially for aged individuals. An increased dietary intake of antioxidant vitamins may be beneficial for muscle loss because of aging. However, the quantitative relationship between total antioxidation capacity (TAC) of antioxidant vitamins and muscle mass is undetermined. 4009 participants from the National Health and Nutrition Examination Survey (NHANES) were included. Multivariate linear regression analysis was performed with demographic, lifestyle and dietary intake adjustment factors. The dose saturation effect was also determined by a saturation effect analysis. Subgroup analysis were performed forage and sex. In the fully adjusted model, per unit increase of dietary TAC was associated with an increase of 0.018 g/kg appendicular lean mass (95% CI: 0.007–0.029), 0.014 g/kg trunk lean mass (95% CI: 0.004–0.024) and 0.035 g/kg total lean mass (95% CI: 0.014–0.055). TAC was associated with an decrease of 0.004 kg/kg total percent fat (95% CI: -0.006–-0.002), 0.005 kg/kg trunk percent fat (95% CI: -0.007–-0.002) and 0.003 kg/m2 BMI (95% CI: -0.006–-0.001) at the same time. Subgroup analysis indicated that women and adults <50 years may experience the most significant association between TAC and skeletal muscle mass. We revealed a positive correlation between TAC and lean body mass, a negative association between TAC and body fat and BMI. Saturation values were found among people aged 40–59. Age and sex mediate these associations.
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