Combined ischemia preconditioning (IPC) with light resistance training (LRT) induces muscular hypoxia and decreases the pH. It augments muscular synthesis by increasing growth hormone secretion and mammalian target of rapamycin (mTOR) pathway activation post-exercise and so improves muscular fitness. The cross-transfer effects of IPC+LRT not only increase strength and cross-sectional area in occluded muscle and the non-occluded muscles (such as pectorals), but also decrease the injury risks suffered by different groups (healthy, athlete, elderly and patient with cardiovascular disease). The cooperative effects of such training enhance the relative strength of healthy people, and can be applied to injured athlete as a strategy to regain muscular fitness quickly. Studies revealed that muscular fitness can be improved with 20~50% 1RM+IPC. To replace the high intensity resistance training, the recommended intensity for lower limbs is ≧30% 1RM. 147~160 mmHg can induce the optimal exercise electromyogram activation for the upper arms. However, in order to meet the need of every subjects, it should develop the optimal relative occlude pressure for different people in the future such as a multiple of personal systolic blood pressure or rating of perceived exertion. Both training intensity and occlude pressure would influence the training result. The indication for further studies to establish the optimal prescription for different subjects and muscles is obvious.