Background: Anatomic reduction of die punch fractures of the distal radius is crucial to optimize functional outcomes. The teardrop angle, formed by the volar cortex and articular surface, reflects distal radius alignment and articular congruity. This study evaluated the relationship between teardrop angle correction and clinical/functional results following surgical fixation of these injuries. Methods: This retrospective study included patients undergoing open reduction and internal fixation for die punch distal radius fractures between 2015-2020. Patients were divided into two groups based on teardrop angle correction: group 1 (≤10°) and group 2 (>10°). Disabilities of the arm, shoulder and hand (DASH) scores, patient-rated wrist evaluation (PRWE) scores, range of motion, and grip strength were assessed at final follow-up (minimum 12 months). Multivariate analysis identified predictors of functional outcomes. Results: 60 patients were included (32 in group 1, 28 in group 2). Groups were similar in baseline demographics and injury characteristics. Group 2 (>10° correction) had significantly better outcomes including lower DASH scores (14.5 versus 24.6, p=0.003), lower PRWE scores (21.6 versus 36.8, p=0.002), greater grip strength (84.6% versus 71.2%, p=0.005), increased flexion (62.5° versus 52.7°, p=0.004), and extension range of motion (55.8° versus 43.5°, p<0.001). On multivariate analysis, greater teardrop angle correction was an independent predictor of improved DASH and PRWE scores. Conclusions: Obtaining >10° of teardrop angle correction during surgical fixation of die punch distal radius fractures correlated with superior functional outcome scores, grip strength, and mobility compared to ≤10° of correction. These findings emphasize the importance of restoring distal radius anatomy and articular congruity in this injury pattern. Precise intraoperative correction of the teardrop angle deformity should be a key goal.