Femoral neck fractures are a common complication treated by orthopedic surgeons. Exploring the role of computer-assisted orthopedic programs in femoral fracture treatment is of particular interest given the technological advances in computer-assisted programs in the medical field. Notably, systems such as Stryker's Adaptive Positioning Technology (ADAPT) may allow for more precision in determining the tip-apex distance (TAD) when treating intertrochanter femur fractures. Such innovations hold the potential to reduce complication rates, including the incidence of lag screw cut-out, which could improve clinical outcomes in intertrochanter femur fracture treatment. This meta-analysis aims to evaluate the effectiveness of computer-assisted orthopedic systems in improving lag screw placement, as determined by the TAD and, ultimately, screw cut-out. Three studies were compared that reported continuous data for TAD in groups that did and did not use Stryker's ADAPT computer-assisted system. A random effects model was utilized to identify heterogeneity between studies. This was determined by variation and calculated through Cochran's Q-test, I