A growing body of evidence suggests that resistance training can evoke beneficial changes in the brain and improve cognitive functioning; however, most research still focuses on the duration of intervention and on different age groups. Fewer studies are concerned with the impact of exercise prescription. Therefore, this literature review consolidates empirical articles on the effects of different long-term resistance training prescription interventions on cognition, then proposes possible physiological and biochemical mechanisms that promote cognitive function. It further provides suggestions for future research directions. The overall conclusions are as follows: 1) Higher training volume may benefit executive cognitive function more than low volume. Both moderate and high intensity may offer the same effect. 2) Different training movement patterns (such as high-speed resistance and instability resistance) may provide cognitive benefits. Additionally, for the elderly, instability resistance training may improve cognitive function more than traditional resistance training. 3) Using more complex and challenging training movements, or adding cognitive intervention, entails a learning process and greater investment of cognitive resources that may offer a more positive impact on cognitive improvement. In general, training at least twice per week, and engaging in resistance training modalities that invest more cognitive resources through complexity and challenge, may increase cognitive function. Finally, there is still insufficient data regarding optimal training volume and rest between sets, comparisons between different resistance training movement patterns, and the benefits of various prescriptions in different populations. Future research into these topics is warranted.