| Txt Link | Title | Author(s) | Abstract | Publisher Link |
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Analysis of 3D kinematics concerning three different clubs in golf swing. |
Egret CI, Vincent O, Weber J, Dujardin FH, Chollet D. |
Although many professionals have produced books or videotapes which offer a novel approach to the game, a review of the scientific literature reports limited research evaluating the actual biomechanics of the golf swing in comparison with other sports. The aim of this study was to investigate the influence of kinematic pattern in golf swing using three different clubs: driver, five-iron, pitching-wedge. These three golf clubs have been chosen for their available range of ball flight. The measures of kinematic data during swing were established with the optoelectronic system VICON (Oxford's Metrics, Oxford, UK) with five cameras operating at 50 frames per second. Clubhead speed was measured using a swing made detector (Bell-Tronics, Ltd, Covington, USA). Seven right-handed male golfers with a high level of skill participated in the study. The results showed that there was an identical timing (movement time and proportion for each phase of the swing) between the three clubs tested, but the kinematics and the clubhead speed were different depending on the three different clubs used. |
12905097 |
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Anatomy, biomechanics, and surgical approach to synovial folds within the joints of the foot. |
Lidtke RH, George J. |
No abstract available |
Not Available |
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Biomechanics of golf swing and a comparison of club handle design. |
Chao EY, Cooney WP 3rd, Cahalan TD, Tamai K. |
Abstract not available |
3607177 |
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Biomechanics of the elbow in sports. |
Loftice J, Fleisig GS, Zheng N, Andrews JR. |
In throwing activities, the elbow is sometimes stressed to its biomechanical limits. In this article, forces, torques, angular velocities, and muscle activity about the elbow are reviewed for the baseball pitch, the football pass, the javelin throw, the windmill softball pitch, the tennis serve, and the golf swing. The elbow goes through rapid extension in baseball pitching (about 2400 degrees/s) and rapid flexion in the javelin throw (about 1900 degrees/s). During baseball pitching, the elbow joint is subject to a valgus torque reaching 64 Nm, and requires proximal forces as high as 1000 N to prevent elbow distraction. The ulnar collateral ligament (UCL) rupture in baseball pitching, lateral epicondylitis in the tennis backhand, and other injury mechanisms are also discussed. |
15474219 |
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Biomechanics of the golf swing in players with pathologic conditions of the forearm, wrist and hand. |
Mallon B. |
Abstract not available |
1554083 |
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Biomechanics of the golf swing in players with pathologic conditions of the forearm, wrist, and hand. |
Cahalan TD, Cooney WP 3rd, Tamai K, Chao EY. |
Abstract not available |
1867337 |
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Computer simulation of human motion in sports biomechanics. |
Vaughan CL. |
This chapter has covered some important aspects of the computer simulation of human motion in sports biomechanics. First the definition and the advantages and limitations of computer simulation were discussed; second, research on various sporting activities were reviewed. These activities included basic movements, aquatic sports, track and field athletics, winter sports, gymnastics, and striking sports. This list was not exhaustive and certain material has, of necessity, been omitted. However, it was felt that a sufficiently broad and interesting range of activities was chosen to illustrate both the advantages and the pitfalls of simulation. It is almost a decade since Miller [53] wrote a review chapter similar to this one. One might be tempted to say that things have changed radically since then--that computer simulation is now a widely accepted and readily applied research tool in sports biomechanics. This is simply not true, however. Biomechanics researchers still tend to emphasize the descriptive type of study, often unfortunately, when a little theoretical explanation would have been more helpful [29]. What will the next decade bring? Of one thing we can be certain: The power |
6376138 |
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Electromyographic analysis of muscle action about the shoulder. |
Bradley JP, Tibone JE. |
The application of dynamic integrated EMG and motion analysis to the shoulder has improved the understanding of dynamic shoulder biomechanics during athletic activities and rehabilitation protocols. These studies exemplify a symbiotic merger of basic science research and clinical application. EMG and motion analysis has produced specific objective quantifiable data concerning the muscles in and about the shoulder during normal planar motion, athletic motions, and rehabilitation exercises. This expanded understanding of intricate muscular interrelationships during athletic activities and rehabilitative exercises has not only complemented clinical awareness of subtle shoulder anomalies but helped to develop logical preventative exercises, surgical procedures, and rehabilitation protocols, all of which are based on sound scientific principles. Comprehension of the normal intermuscular interdependence during the previously mentioned activities has led us to investigate common athletic shoulder disorders. It is hoped that application of the normal EMG and motion analysis to the pathologic state will enable us to suggest new ideas concerning the pathomechanics of these disorders, as well |
1934097 |
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Foot and ankle considerations in golf. |
Pietrocarlo TA. |
As golf continues to grow in popularity, so will the incidence of golf-related foot problems. An understanding of foot biomechanics in the golf swing and an appreciation of pre-existing foot problems will allow the physician to make a more specific diagnosis and implement treatment sooner. The net result is a faster return to the links. |
8903713 |
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Proper swing technique and biomechanics of golf. |
Adlington GS. |
No abstract available |
Not Available |
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Rotational biomechanics of the elite golf swing: benchmarks for amateurs. |
Meister DW, Ladd AL, Butler EE, Zhao B, Rogers AP, Ray CJ, Rose J. |
No abstract available |
Not Available |
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Shoulder muscle recruitment patterns and related biomechanics during upper extremity sports. |
Escamilla RF, Andrews JR. |
No abstract available |
Not Available |
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The lumbar spine and low back pain in golf: a literature review of swing biomechanics and injury prevention. |
Gluck GS, Bendo JA, Spivak JM. |
No abstract available |
Not Available |
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The relationship between biomechanical variables and driving performance during the golf swing. |
Chu Y, Sell TC, Lephart SM. |
No abstract available |
Not Available |
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The role of biomechanics in maximising distance and accuracy of golf shots. |
Hume PA, Keogh J, Reid D. |
No abstract available |
Not Available |
