1.INJURIES OF WATER POLO PLAYERS
KOJI WAKAYOSHI ; YUKINORI TOMODA ; TOKUHIDE DOI ; MAKOTO HIRAOKA ; YOSHIHISA URITA ; KAZUSHI TEZUKA ; TORU FUKUBAYASHI ; YUTAKA KAMIMAKI ; HITOSHI SHIMOJO
Japanese Journal of Physical Fitness and Sports Medicine 1987;36(2):85-94
102 water polo players were interviewd about the injuries caused by water polo. 13% of the subjects had knee pain at least once a year. 73% of which were chronic cases. For 24 players, clinical examinations, including X-ray examination, A-P knee laxity measurement, isokinetic strength measurement of knee muscles, and photo analysis of the vertical egg beater kick motion were performed to elucidate the cause of knee pain.
The summary of the results were as follows;
1. The most common site of knee pain was the medial portion of the knee joint.
2. Protrusion of the medial femoral epicondyle and sharpning of the tibial intercondylar eminentia as well as spur formation of the superior pole of the patella were observed in most subjects.
3. Injured subjects had stiff knees and weak knee extensor muscles.
4. The vertical egg beater kick motion must be the main factor of the painful knee.
2.Injuries of water polo players - In special regard to the knee joint.
KOJI WAKAYOSHI ; YUKINORI TOMODA ; TOKUHIDE DOI ; MAKOTO HIRAOKA ; YOSHIHISA URITA ; KAZUSHI TEZUKA ; TORU FUKUBAYASHI ; YUTAKA KAMIMAKI ; HITOSHI SHIMOJO
Japanese Journal of Physical Fitness and Sports Medicine 1987;36(2):85-94
102 water polo players were interviewd about the injuries caused by water polo. 13% of the subjects had knee pain at least once a year. 73% of which were chronic cases. For 24 players, clinical examinations, including X-ray examination, A-P knee laxity measurement, isokinetic strength measurement of knee muscles, and photo analysis of the vertical egg beater kick motion were performed to elucidate the cause of knee pain.
The summary of the results were as follows;
1. The most common site of knee pain was the medial portion of the knee joint.
2. Protrusion of the medial femoral epicondyle and sharpning of the tibial intercondylar eminentia as well as spur formation of the superior pole of the patella were observed in most subjects.
3. Injured subjects had stiff knees and weak knee extensor muscles.
4. The vertical egg beater kick motion must be the main factor of the painful knee.
3.Baseball elbow and elbow joint instability.
KAZUSHI TEZUKA ; YUKINORI TOMODA ; TOKUHIDE DOI ; AKIRA HIRAOKA ; HIROKO NAKAGAWA ; HARUHI KIKUCHI ; TORU FUKUBAYASHI ; YUTAKA KAMIMAKI ; HITOSHI SHIMOJO ; ATSUSHI MASUJIMA
Japanese Journal of Physical Fitness and Sports Medicine 1988;37(1):37-45
97 baseball players from high school, universities and companies were subjected to this study in order to attempt to clarify the relationship between derangement of the elbow joint and lateral instabilitly by measuring various conventional parameters and the degree of lateral instability.
From the survey by questionnaire, 29 out of 97 players complained of elbow pain, paticularily on the medial side of the joint. The painful phases of the throwing motions were the acceleration phase (23 players, 61%) and release phase (7 players, 46%) . The hyperexten sion of the elbow on the dominant side was significantly smaller than that observed on the undominant side. X-ray examination revealed osteophyte formation at the tip of olecranon and medial joint space.
On the application of 63 kg⋅cm torque force, the varus deflection angle for the dominant side was 8.3° and that for the undominant side was 8.8°. The valgus angle for the dominant side was 12.2° and that for the undominant side was 10.8°. The varus stiffness (kg⋅cm/angle) was 9.5 for the dominant side and 8.4 for the undominant side. Valgus stiffness were 6.3 for the dominant side and 9.2 for the undominant side.
Thses results indicate that the lateral side become stiffer and medial side become looser in the dominant elbow than in the undominant one.
The unphysiological valgus stress at the acceleration phase would induce the osteophyte formation as well as the elongation of the medial collateral ligament on the medial side of the elbow. At the same time the impigement of the olecranon at follow through phase, would induce the osteophyte formation around the olecranon. Thses two factors would considerably influence the range of motion and the instability of the elbow joint.