Introduction: Aging-related disorders, such as loss of muscle mass, obesity and chronic inflammation, may induce insulin resistance and increase risk for prediabetes or type 2 diabetes. Aerobic exercise can effectively improve glycemic control; however, the effect of resistance exercise on glycemic control remains controversial. Few studies have shown that high intensity resistance exercise impaired the glycemic control in elders. In addition, few studies have investigated resistance training with different intensities in the same training volume. Purpose: The present study was to investigate effects of low-intensity versus high-intensity resistance training on glycemic control, markers of inflammation, and body composition in older adults with prediabetes. Methods: 31 older adults with prediabetes were recruited in this study. Participants were matched and assigned in high intensity group (High, n = 16, 80%1RM) or low intensity group (Low, n = 15, 40%1RM). Both groups completed 10 weeks (3-day/week) resistance training. Glycemic control, markers of inflammation, and body composition were performed pre- (PRE) and post-training (POST). Two-way mixed ANOVA was used to analyze the data. Results: 24 participants completed the 10 weeks resistance training and the measurements. No significant difference was observed in a weekly training volume between both groups (p > .05). The improvement of muscle strength in High was significant higher than Low (High: 22% vs. Low: 12%, p < .05). Resistance training reduced fasting glucose levels (PRE: 104 ± 6 mg/dl；vs. POST: 100 ± 6 mg/dl, p < .05). After the training, High significantly lowered TNF-α levels compared with Low (High: 1.34 ± 0.27 pg/ml vs. Low: 1.51 ± 0.29 pg/ml, p < .05) and PRE (PRE: 1.79 ± 0.47 pg/ml vs. POST: 1.34 ± 0.27 pg/ml, p < .05). There were no significant differences in the remaining dependent variables. Conclusions: Resistance training improved fasting glucose in in older adults with prediabetes. Furthermore, only high-intensity resistance training lowered TNF-α levels. These findings underscore the ability of resistance exercise may help prevent or delay type 2 diabetes in older adults.