Sport-specific upper extremity strain, mostly unilateral, during growth may lead to adaptations in soft tissue and bone. We investigated 51 male professional handball players between 18 and 39 years of age (average, 27 years), 39 right-handed and 12 left-handed. Thirty-eight players had no shoulder problems, and 13 had chronic shoulder pain. Humeral retrotorsion was determined by radiograph. The differences between the throwing and contralateral arms were compared with those of 37 controls who had no history of unilateral strain either through sports or profession. Standard statistical analysis was performed using the t-test. The retrotorsional angle of the humerus in the handball professionals' throwing arm was an average of 9.4 degrees larger in the dominant side than in the nondominant, with a side-to-side difference up to 29 degrees. In the control group, no statistically significant difference was found. In the group without chronic shoulder pain, the side-to-side difference was an average of 14.4 degrees more in the throwing arm than the other side. Players with chronic shoulder pain did not exhibit this increase, even showing an average decrease of humeral retrotorsion of 5.2 degrees in the throwing arm. The humeral retrotorsion increase can be explained as an adaptation to extensive external rotation in throwing practice during growth. Athletes who do not adapt this way seem to have more strain on their anterior capsules at less external rotation and develop chronic shoulder pain because of anterior instability.
This contribution addresses the following questions: Does unilateral sports-specific strain affect the skeletal system of the athlete? Specifically, can any differences be found in longitudinal growth of the bones of the forearm and hand in professional tennis players between the stroke arm and the contralateral arm? An investigation was conducted involving 20 high-ranking professional tennis players (12 male and eight female players) between 13 and 26 years of age as well as 12 controls of the same age range. The radiologic examinations of the bones of the forearm and hand yielded an increase in density of bone substance and bone diameter as well as length in the stroke arm as compared with the contralateral arm. Whereas the first results confirm previous findings, the stimulation of longitudinal growth has never been reported. This change in bone structure and size can be attributed to two factors: mechanical stimulation and hyperemia of the constantly strained extremity. It may thus be regarded as a biopositive adaptation process.
Achilles tendon injuries are rarely associated with osseous lesions. The combination of mediomalleolar fracture with Achilles tendon rupture has been reported as a rare combination injury in alpine skiers, but never before in basketball. This report presents an Achilles tendon rupture in a senior basketball player in combination with a non-displaced fracture of the medial malleolus. The osseous lesion was initially missed, because the tendon injury with all typical clinical and sonographical signs predominated. The routine X-ray examination was only done in the lateral and axial plane, because the examiner did not even think of an ankle fracture, since the description of the sports accident and the clinical signs were so typical for a sole tendon injury. This case report should remind us not to exclude an osseous or ligamentous ankle injury in those cases of acute Achilles tendon rupture especially if postoperative swelling and pain persist for a prolonged period.
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