Background: Breast cancer is the most common cancer in women, and one of the main risk factors is obesity. There are many measurements of obesity. However, in the literature review of Mendelian randomization (MR), obesity plays a different role in breast cancer. Mendelian randomization‘s results are either protective or insignificant, which are not consistent with the clinical result that obesity is a risk factor for breast cancer. To investigate the causal relationship between obesity measurements and breast cancer protection, we divide body weight into body fat weight (BFM) and free fat weight (FFM), and made causal inferences for BFM and FFM respectively. Understanding the correlation between obesity indicators and breast cancer will not only help to identify high-risk cases of breast cancer early, but also can increase the individual's fat-free body weight through interventional methods, which can be used as a preventive measure. In this study, we will use Mendelian randomization to clarify the causal relationship between obesity indicators and breast cancer. Method: This study uses the data of female breast cancer patients from the UK Biobank to conduct one-sample Mendelian randomization, extracting 164 and 98 variants as FFM’s and BFM’s instrumental variables (IV). Using two-stage least squares and inverse variance weighted estimation measures the causal relationship between obesity indicators and breast cancer. We also use the weighted median method, MR-Egger regression for the robust causal inference. In a sensitivity study, by setting breast cancer as the exposure variable and FFM as the outcome variable, we investigate whether there is a bidirectional causal relationship between the two variables. In external validation, we perform two-sample Mendelian randomization by using FFM’s 164 variants extracted from the UK Biobank. We first collect Genome-wide association study (GWAS) data from the Breast Cancer Association Consortium (BCAC). Next, two-sample Mendelian randomization is performed with data from the Taiwan Biobank to reproduce the same causal relationship between FFM and breast cancer in Han Chinese. Result: The results show （β ̂_2SLS= -0.012, OR_2SLS=0.988, P_2SLS =0.283；β ̂_IVW= -0.024, OR_IVW=0.976, P_IVW =0.012）, a negative causal relationship between FFM and breast cancer, but the statistical power is not stable in different statistical methods. The sensitivity study（β ̂_2SLS= 0.352, OR_2SLS=1.422, P_2SLS =0.296；β ̂_IVW= 0.062, OR_IVW=1.064, P_IVW =0.175）tests a causal relationship that only increased FFM is associated with a reduced risk of breast cancer, the reverse causality did not exist and having breast cancer did not affect the gain or loss of FFM. Conclusion: In this study, one-sample Mendelian randomization conducted by the UK Biobank confirms that FFM is a protective factor for breast cancer risk with the result that there exists a negative causality and no reverse causality. There is no statistically significant causal relationship between BFM and breast cancer risk. We propose possible explanations for the unusual protective effect of obesity on breast cancer in previous Mendelian randomization papers by splitting off body weight into FFM and BFM and using one-sample Mendelian randomization and two-sample randomization. Therefore, we can understand whether an increase in fat mass or an increase in muscle mass leads to a decrease in breast cancer risk more clearly. And we come to the conclusion that the increase in muscle mass (FFM) may reduce the risk of breast cancer. This result may not be significant in the Taiwanese ethnic group because of the difference in the mechanism of breast cancer among different ethnic groups. In future studies, it would be necessary to use the FFM data of the Han Chinese to extract instrumental variables and further consider breast cancer differences between ethnic. In this study, FFM, as a protective factor that can reduce the risk of breast cancer, is closely related to hormone levels after menopause. The average menopause age of Taiwanese women is 48-52 years old, which is almost matching to the peak incidence of breast cancer in Taiwan at 45-69 years old. From the perspective of disease prevention, it should be noted that postmenopausal women may increase the risk of breast cancer if their exercise habits change after menopause or their muscle loss. It is recommended for postmenopausal women to develop exercise habits as an intervention to maintain hormone levels in the body to reduce the risk of breast cancer.