Your search keyword '"Jung-Tang Kung"' showing total 9 results

1. Using a Sensor-Embedded Baseball to Identify Finger Characteristics Related to Spin Rate and Pitching Velocity in Pitchers

Author

Ming-Chia Yeh, Wen-Wen Yang, Yu-Hsuan Hung, Ya-Chen Liu, Jung-Tang Kung, Hsi-Pin Ma, and Chiang Liu

Subjects

pitching finger force, rate of force development, pinch strength, Chemical technology, TP1-1185

Abstract

Background: Previous investigations have shown a positive relationship between baseball pitching velocity and the kinetic chain involved in pitching motion. However, no study has examined the influence of finger characteristics on pitching velocity and rate of spin via a sensor-embedded baseball. Methods: Twenty-one pitchers volunteered and were recruited for this study. An experimental baseball embedded with a force sensor and an inertial measurement unit was designed for pitching performance measurement. Finger length and strength were measured as dependent variables. Spin rate and velocity were independent variables. Pearson product–moment correlations (r) and intraclass correlation coefficients (ICCs) determined the relationship between finger characteristics and pitching performance. Results: Finger length discrepancy, two-point pinch strength, index finger RFD (rate of force development), middle finger impulse, and force discrepancy had significant correlations with spin rate (r = 0.500~0.576, p ≤ 0.05). Finger length discrepancy, two-point pinch, three-point pinch strength, index and middle finger RFD, middle finger impulse, and force combination had significant correlations with fastball pitching velocity (r = 0.491~0.584, p ≤ 0.05). Conclusions: Finger length discrepancy, finger pinch strength, and pitching finger force including maximal force and RFD may be factors that impact fastball spin rate and fastball pitching velocity.

Published

2024

2. Does Deep Squat Quality Affect the Propulsion of Baseball Throwing?

Author

Wei-Hsuan Lin, Tsung-Yu Huang, Shu-Wei Chen, Joseph Hamill, Jung-Tang Kung, and Wen-Tzu Tang

Subjects

ground reaction force, joint mobility, movement assess, sports performance, training, Technology, Biology (General), QH301-705.5

Abstract

This study investigates the influence of the quality of the “deep squat” movement, adapted from the Functional Movement Screen (FMS) system, on the lower extremity movement pattern during baseball throwing, and its potential impact on throwing performance and propulsion efficiency. Twenty-two baseball players were recruited and categorized into two groups: 13 in the high-score squat group (HSS) and 9 in the low-score squat group (LSS), based on their deep squat screening results. This research explored disparities in ball velocity, propulsion efficiency, propulsion ground reaction force (GRF) characteristics, and throwing kinematics between these two groups. The findings revealed no significant difference in ball velocity between the groups. However, the LSS group demonstrated a lower propulsion GRF efficiency (p < 0.030, ES = 0.46), along with a higher vertical peak GRF (p < 0.002, ES = 0.66). In the pivot leg, the HSS group exhibited significantly lower impulse forces in the Impulse Fresultant (p < 0.035, ES = 0.45), throwing direction (p < 0.049, ES = 0.42), and vertical direction (p < 0.048, ES = 0.42). Additionally, the contribution to the ball velocity of the pivot leg was significantly greater in the HSS group, along with significantly better efficiency in Impulse Fresultant (p < 0.035, ES = 0.45), throwing direction (p < 0.053, ES = 0.41), and vertical direction (p < 0.032, ES = 0.46). In the leading leg, the HSS group demonstrated significantly lower impulse forces in the Impulse Fresultant (p < 0.001, ES = 0.69), throwing direction (p < 0.007, ES = 0.58), and vertical direction (p < 0.001, ES = 0.70). Moreover, the contribution to the ball velocity of the leading leg was significantly greater in the HSS group, accompanied by significantly better efficiency in Impulse Fresultant (p < 0.003, ES = 0.63), throwing direction (p < 0.005, ES = 0.60), and vertical direction (p < 0.021, ES = 0.49). In conclusion, this study suggests that squat screening is a valuable tool for assessing propulsion efficiency. Coaches and trainers should be mindful of players with low squat quality but high throwing performance, as they may face increased impact and injury risks in the future.

Published

2024

3. Stride Pattern of the Lower Extremities Among Stride Types in Baseball Pitching

Author

Shu-Wei Chen, Wen-Tzu Tang, Jung-Tang Kung, Tsung-Ying Hung, Yu-Lin Chen, Wei-Hsuan Lin, and Daniel J. Burgee

Subjects

kinetic chain, movement pattern, overhead throwing, pivot leg, stride leg, Sports, GV557-1198.995

Abstract

The present study investigated the differences in the stride pattern of the lower extremities among different stride types in baseball pitchers with the aim of evaluating stride movement and skills to improve training effectiveness. Thirty elite male college baseball pitchers volunteered to pitch on an indoor-mound-like force plate, where motion data of their fastest strike trials were collected using an eight-camera motion analysis system at a 200–250 Hz sampling rate. Pelvis center trajectories of each participant were calculated and further categorized into three groups: tall-and-fall (TF), dip-and-drive (DD), and mixed (MX) pitchers. Motion analysis revealed that DD pitchers initiated pivot–knee extension and pivot–hip adduction earlier than TF pitchers and accelerated their bodies sooner than TF pitchers. In addition, TF pitchers accelerated their bodies forward by pivoting their legs until the middle of the arm-cocking and acceleration phases. The movement patterns of MX pitchers were similar to those of DD pitchers in terms of pivot leg, although this occurred a little later in the stride. Our findings are useful in developing training strategies for coaches, players, and trainers to better meet the demands of different pitching styles.

Published

2021

4. Center Of Mass Trajectory: An Image Descriptor For Baseball Swing Analysis Based On Single Low-Cost Camera.

Author

Chih-Chieh Fang, Ching-Hsien Hsu, Chun-Wen Chiu, Jung-Tang Kung, and Huang-Chia Shih

Published

2021

5. Stride Pattern of the Lower Extremities Among Stride Types in Baseball Pitching

Author

Wei-Hsuan Lin, Jung-Tang Kung, Yu-Lin Chen, Shu-Wei Chen, Tsung-Ying Hung, Wen-Tzu Tang, and Daniel J Burgee

Subjects

030222 orthopedics, medicine.medical_specialty, stride leg, movement pattern, STRIDE, 030229 sport sciences, General Medicine, Overhead throwing, 03 medical and health sciences, Movement pattern, 0302 clinical medicine, Physical medicine and rehabilitation, kinetic chain, Sports and Active Living, overhead throwing, GV557-1198.995, medicine, Psychology, pivot leg, Sports, Original Research

Abstract

The present study investigated the differences in the stride pattern of the lower extremities among different stride types in baseball pitchers with the aim of evaluating stride movement and skills to improve training effectiveness. Thirty elite male college baseball pitchers volunteered to pitch on an indoor-mound-like force plate, where motion data of their fastest strike trials were collected using an eight-camera motion analysis system at a 200–250 Hz sampling rate. Pelvis center trajectories of each participant were calculated and further categorized into three groups: tall-and-fall (TF), dip-and-drive (DD), and mixed (MX) pitchers. Motion analysis revealed that DD pitchers initiated pivot–knee extension and pivot–hip adduction earlier than TF pitchers and accelerated their bodies sooner than TF pitchers. In addition, TF pitchers accelerated their bodies forward by pivoting their legs until the middle of the arm-cocking and acceleration phases. The movement patterns of MX pitchers were similar to those of DD pitchers in terms of pivot leg, although this occurred a little later in the stride. Our findings are useful in developing training strategies for coaches, players, and trainers to better meet the demands of different pitching styles.

Published

2021

6. Functional Isokinetic Strength Ratios in Baseball Players With Injured Elbows.

Author

Yin-Chou Lin, Thompson, Angela, Jung-Tang Kung, Liang-Wei Chieh, Shih-Wei Chou, and Jung-Charng Lin

Subjects

ELBOW injuries, SPORTS injuries, BASEBALL injuries, MUSCLE strength, ISOKINETIC exercise, HEALTH outcome assessment, MULTIVARIATE analysis, FUNCTIONAL independence measure, PHYSICAL training & conditioning

Abstract

Context: Elbow injuries are widely reported among baseball players. The elbow is susceptible to injury when elbow-flexor and -extensor forces are imbalanced during pitching or throwing. Assessment of muscle-strength ratios may prove useful for diagnosing elbow injury. Objective: The purpose of this study was to assess the relationship between the elbow-flexor and -extensor functional isokinetic ratios and elbow injury in baseball players. Design: Retrospective study. Setting: Biomechanics laboratory. Participants: College baseball players with (n = 9) and without (n = 12) self-reported elbow pain or loss of strength were recruited. Intervention and Main Outcome Measures: Trials were conducted using a dynamometer to assess dominant-arm flexor and extensor concentric and eccentric strength at angular velocities of 60° and 240°/s. Functional isokinetic ratios were calculated and compared between groups. Results: Regression analysis revealed that a ratio of biceps concentric to triceps concentric strength greater than 0.76 (the median value) significantly predicted elbow injury (P = .01, odds ratio of injury = 24). No other ratios or variables (including position played) were predictive of injury status. Conclusions: These findings suggest that the ratio of biceps concentric to triceps concentric functional strength strongly predicts elbow-injury status in baseball players. Assessment of this ratio may prove useful in a practical setting for training purposes and both injury diagnosis and rehabilitation. [ABSTRACT FROM AUTHOR]

Published

2010

7. Functional Movement Screen Performance on Baseball Players of Different Positions

Author

Yu-Lin Chen, Jung-Tang Kung, M Mu-Lin Tai, F Hsuan-Wei Chien, M Chih-Yi Wu, M Tzu-Yun Lin, F Wen-Tzu Tang, F Chien Hsun Hunag, and M Ssu-yun Hsiao M

Subjects

medicine.medical_specialty, Physical medicine and rehabilitation, medicine, Physical Therapy, Sports Therapy and Rehabilitation, Orthopedics and Sports Medicine, Psychology, Functional movement

Published

2017

8. Functional isokinetic strength ratios in baseball players with injured elbows

Author

Shih-Wei Chou, Yin-Chou Lin, Liang-Wei Chieh, Angela M. Thompson, Jung-Charng Lin, and Jung-Tang Kung

Subjects

Male, medicine.medical_specialty, Functional training, medicine.medical_treatment, Elbow, Posture, Biophysics, Taiwan, Physical Therapy, Sports Therapy and Rehabilitation, Context (language use), Muscle Strength Dynamometer, Concentric, Elbow pain, Baseball, Biceps, Young Adult, Physical medicine and rehabilitation, Risk Factors, Medicine, Humans, Orthopedics and Sports Medicine, Muscle Strength, Muscle, Skeletal, Retrospective Studies, Rehabilitation, business.industry, Biomechanical Phenomena, medicine.anatomical_structure, Logistic Models, Torque, Athletic Injuries, Multivariate Analysis, Physical therapy, Regression Analysis, business, Elbow Injuries, Throwing, Muscle Contraction

Abstract

Context:Elbow injuries are widely reported among baseball players. The elbow is susceptible to injury when elbow-flexor and -extensor forces are imbalanced during pitching or throwing. Assessment of muscle-strength ratios may prove useful for diagnosing elbow injury.Objective:The purpose of this study was to assess the relationship between the elbow-flexor and -extensor functional isokinetic ratios and elbow injury in baseball players.Design:Retrospective study.Setting:Biomechanics laboratory.Participants:College baseball players with (n = 9) and without (n = 12) self-reported elbow pain or loss of strength were recruited.Intervention and Main Outcome Measures:Trials were conducted using a dynamometer to assess dominant-arm flexor and extensor concentric and eccentric strength at angular velocities of 60° and 240°/s. Functional isokinetic ratios were calculated and compared between groups.Results:Regression analysis revealed that a ratio of biceps concentric to triceps concentric strength greater than 0.76 (the median value) significantly predicted elbow injury (P = .01, odds ratio of injury = 24). No other ratios or variables (including position played) were predictive of injury status.Conclusions:These findings suggest that the ratio of biceps concentric to triceps concentric functional strength strongly predicts elbow-injury status in baseball players. Assessment of this ratio may prove useful in a practical setting for training purposes and both injury diagnosis and rehabilitation.

Published

2010

9. Investigate Characteristic of Pitching Quality by Velocity and Trajectory

Author

Jung-Tang Kung, Ying-Chieh Kao, Kun-Da Chiang, and Chiang Liu

Subjects

Quality (physics), Computer science, Rehabilitation, Biomedical Engineering, Biophysics, Trajectory, Orthopedics and Sports Medicine, Simulation

Published

2007