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1-1 6 13 3 685g 905g 1176g 50% 100% 5 30 3 240Hz % 2 50% 100.4 0.5% 100% 101.3 0.6% 100% 50% 1-2 25 12 13 250Hz 2 1000Hz 60 90 120deg/s PowerMAX 30m 90 120deg/s p<0.05-32-

1-3 6 1-4 3 3-33-

1-5 Karo prospective 1-6 2 6 20 4m 2 8.6cm - 34-

1-7 CASIO EXIRIM EX-1 pre post 1-8 6 62 5 76 4 89 3 69 296 2013 PC Pitcher and Catcher O Other 2 PC O - 35-

1-9. m VTR 1-10 4 20 20 1 2-36-

1-11 10 2 1-12 27 WBSC U-18 1 3 2 2015 8 28 10 27 WBSCU 18 9 17 20 10-37-

1-13 2 10 10 20m 5m 6m 6m 6m 20m 3 1-14 CRS JAB CRS JAB 2 12 JAB CRS JAB CRS - 38-

1-15 1-16 BBCOR - 39-

1-17 3 3 3 9 3 8 8 Max 1-18 2 6 10M 5M 8M 3 3 VICON 3.1 0.3 6.8-40-

1-19 2014 5 OPS 20 OPS 2014 OPS 1-20 2 3 2 2 2-41-

1-21 1900 2014 1920 1900 1 2 1902 1930 35 17 30 1-22 2000-42-

2-1 12 WP SP 2 1 SP 5 WP p < 0.01 2 SP Y 3 WP p < 0.05 1 SP WP 2 3 2-2 75 2015 1 64 2015 7 7 10cm 50 60 155 16.3 7 7 6 75 13-43-

2-3 10 6 90 T 12 2 9 7 2-4 300fps - 44-

2-5 The effect of FMS-based training program on pitching pattern for an elite pitcher Wei-Hsuan Lin Graduate Institute of Athletics and Coaching Science, National Taiwan Sport University Shu-Wei Chen Graduate Institute of Athletics and Coaching Science, National Taiwan Sport University Jung-Tang Kung Department of Sports Training Science-Balls, National Taiwan Sport University TaiwanYa-Han Guo Graduate Institute of Athletics and Coaching Science, National Taiwan Sport University Szu-Yuan Kan SUNBLVD CO. LTD. Wen-Tzu Tang Graduate Institute of Athletics and Coaching Science, National Taiwan Sport University The Functional Movement Screen FMS had demonstrated some efficacy in screening and identify physical or functional limitation by capturing fundamental movements, motor control within movement patterns and uncomplicated skills. Therefore, the purpose of the study was to diagnose potential movement s limitation by 3D analysis of pitching movement, FMS test and isokinetic measurement for a 3A minor league pitcher. The pitcher was re-evaluated with pitching movement and FMS after 3 month FMS-based training. We found that the imbalances shoulder flexors/extensors strength ratio at pre-training. In addition, the muscle strength asymmetry was also observed in the subject s knees, hip, and trunk. In FMS test, trunk stability control, coordination and mobility of lower extremities were at weak level, and premature pelvis rotation during pitching. A particular 3 month training program was designed base on the diagnostic results to stress on shoulder, trunk, pelvis stability and agonist/antagonist balance. In the pitching test after training program, the subject had showed greater pelvic rotation, forward trunk tilt and lead knee extension angular velocity at the instant of ball release, greater lead knee extension during the approach to ball release. The result showed that FMS may be an effective diagnostic tool to combine the pitching movement assessment to design the training. Coaches, conditioning coaches, and athletic trainers can use the tool to observe joint motion range and muscle flexibility of athletes. It may help to prevent sport injuries and enhance sport performance. - 45-

2-6 0.2 120 6 64.5% 6 1 2-7 2 2-46-

2-8 2-9 12 r=0.757 r=0.584 p<0.05-47-

2-10 2-11 - 48-

2-12 3 2.5M 27M 193 20 49 2-13 5m 7 240fps Quick Time Player 3.545 0.151 3.717 0.239 3.336 0.169 3.536 0.185 3.445 0.174 3.600 0.238 p<0.05-49-

2-14 1983 2013 2012 2013 PC Exel 30 2-15 WBSCU - 50-

2-16 Lead No Back 3 19 3 5 15 2 Back Lead P<0.01 2-17 9 (QuickTime) 5 5 0.274 0.070 0.192 0.031 0.164 0.046 0.047 0.006 1.316 0.106 (r=0.940 p<0.001) (r=0.774 p>0.05) - 51-

2-18 9 9 MSe=7.38 p<0.05 MSe=6.39 p<0.01 MSe=6.39 p<0.001 5 2-19 WBC 2 7 2010-52-

2-20 2-21 B BC PROJECT B VB VB 1 2 44 VB1 B2 B6 VB1 B2 Ene VB Ene Ene VB Ene VB - 53-

2-22 - 54-