Résumé
Objective:To investigate the difference of isokinetic angle-specific moment curves between anterior cruciate ligament (ACL)-injured patients with and without patellofemoral cartilage injury (PFCI). Methods:A retrospective analysis was performed on patients underwent knee arthroscopy and isokinetic muscle strength testing before surgery from September, 2018 to September, 2019. Seventeen ACL-injured patients with PFCI and 17 ACL-injured patients without PFCI who matched in age, sex and meniscus injury were selected. Before arthroscopy, isometric and isokinetic strength of knee flexion and extension at velocity of 180°/s and 60°/s was tested by isokinetic dynamometer. Normalized torque-angle curves (torque/body mass) were generated in steps of 1° and the differences in angle-specific moment curves between two groups were compared. Results:At 180°/s, there was no significant difference in flexion isokinetic torque both healthy side and affected side between two groups (P >0.05); and no difference in extension torque of the healthy side (P >0.05), however, there was significant difference in extension torque of the affected side at 88° to 90° between two groups (t > 2.102, P <0.05). At 60°/s, there was significant difference in flexion torque of the healthy side at 62° to 82° between two groups (|t| >2.056, P <0.05), and no significant difference was found in flexion torque of the affected side (P >0.05), nor in extension torque of both sides between two groups (P > 0.05). A curve change was found at the beginning of the flexion and extension isokinetic moment curves at the velocity of 180°/s. The isometric knee extension torque was significantly different in the affected side between two groups (t = 2.858, P < 0.01), and no difference was found in isometric knee flexion torque in the affected side as well as both extension and flexion torques in the healthy side between two groups (t < 1.905, P > 0.05). Conclusion:The lower the isokinetic speed, the more significant the difference of strength is between ACL-injury patients with and without PFCI. High speed exercise is recommended for ACL-injured patients with PFCI.
Résumé
BACKGROUND: This study evaluated the shoulder girdle muscle characteristics of elite archery athletes and provides suggestions for archery training programs. METHODS: This study enrolled 15 cases of high level archery athletes (7 males, 8 females) and 30 cases of (15 males, 15 females) sex, age-matched, healthy, non-athletic individuals. We measured peak torques of flexion (FL), extension (EX), abduction (ABD), adduction (ADD), external rotation (ER) and internal rotation (IR) of both shoulders at an angular velocity of 30°/sec, 60°/sec, and 180°/sec. The peak torques and peak torque ratios of FL/EX, ABD/ADD, and ER/IR of the two groups were compared. RESULTS: The archer group had a greater peak torque of IR and ADD, but only in the left shoulder (p < 0.05). In the same group, both shoulders had greater peak torque of EX and lower peak torque of FL. The peak torque ratios of FL/EX of both shoulders were significantly lower in the archer group at all three angular velocities (p < 0.05). The peak torque ratios of ABD/ADD were significantly greater in only the left shoulder of the archer group (p < 0.05). CONCLUSIONS: The prominent characteristics of the shoulder girdle muscles of an elite archer are stronger adductor muscles of the bow shoulder and stronger extensors of both shoulders, as compared to healthy, non-athletic individuals. These muscle groups of the shoulder probably contribute a major role in maintaining the accuracy and stability during archery shooting. Hence, a training program that selectively enhances the adductor and extensor muscles could prove helpful in enhancing the archery skills of the athlete.