Your search keyword '"Iguchi J"' showing total 14 results

1. Dry Helium Compressor for Refrigeration Systems

Author

Ishizaki, Y., Akiyama, M., Iguchi, J., Matsumoto, S., Timmerhaus, K. D., editor, and Weitzel, D. H., editor

Published

1975

2. Dry Helium Compressor for Refrigeration Systems

Author

Ishizaki, Y., primary, Akiyama, M., additional, Iguchi, J., additional, and Matsumoto, S., additional

Published

1960

3. Seasonal Changes in Body Composition of Elite Ice Hockey Players

Author

Kuzuhara, K, primary, Iguchi, J, additional, Yamada, Y, additional, Shimamoto, H, additional, and Shibata, M, additional

Published

2011

4. Samba helps football players improve their skill

Author

Iguchi, J., primary, Yamamoto, T., additional, and Fujinami, T., additional

Published

2006

5. Analysis of collegiate American football injuries in a Kansai Division I team using injury rates per 1,000 athlete-exposures.

Author

Kuzuhara, K., Iguchi, J., and Hojo, T.

Abstract

Collegiate American football injuries through the 2007-2008 season in a Kansai Division I team were analyzed using injury rates (IR) per 1,000 athlete-exposures (1,000AE: one athlete-exposure was defined as a player participating in one game or one practice). The total number of injuries through spring, fall, and postseason was 208 injuries. Through all seasons, the game injury rate (GIR) was 25.7 per 1,000 AE, and the practice injury rate (PIR) was 13.2 per 1,000 AE. The GIR was 2.1 times higher than the PIR (p<0.05), and injury risks were greatest during games. On the other hand, the PIR (12.9 per 1,000 AE) during the fall season in this study was about 6 times higher than the PIR (2.1 per 1,000 AE) of NCAA all Divisions in the U.S.A. Future studies need to identify the injury mechanism during practices and games. It is also necessary to change the practice circumstances so that the PIR can be reduced. The most common types of injury during games were sprain (33.2%), following strain (22.6%). The most common region of injury was the lower extremity (55.3%), indicating 17.1 per 1,000 AE in the GIR. Although there was no significant difference in the injured body sites between games and practices, the GIRs in the knee (6.7 per 1,000AE) and the ankle (6.7 per 1,000AE) were highest. Future research is required on injury prevention methods for the sprains in the lower extremity during games. [ABSTRACT FROM AUTHOR]

Published

2009

6. A tri-leaflet mitral valve with left ventricular non-compaction cardiomyopathy.

Author

Iguchi J, Suzuki S, Kimura K, Minamisawa M, and Kuwahara K

Abstract

Competing Interests: Conflict of interest: None declared.

Published

2024

7. Synergistic Dominance Induced by Hip Extension Exercise Alters Biomechanics and Muscular Activity During Sprinting and Suggests a Potential Link to Hamstring Strain.

Author

Iguchi J, Hojo T, Fujisawa Y, Kuzuhara K, Yanase K, Hirono T, Koyama Y, Tateuchi H, and Ichihashi N

Subjects

Male, Humans, Young Adult, Adult, Biomechanical Phenomena, Exercise Therapy, Exercise, Lower Extremity, Myalgia, Hamstring Muscles

Abstract

Abstract: Iguchi, J, Hojo, T, Fujisawa, Y, Kuzuhara, K, Yanase, K, Hirono, T, Koyama, Y, Tateuchi, H, and Ichihashi, N. Synergistic dominance induced by hip extension exercise alters biomechanics and muscular activity during sprinting and suggests a potential link to hamstring strain. J Strength Cond Res 37(9): 1770-1776, 2023-Hamstring strain is likely to occur during the late swing phase or the first half of the stance phase in sprinting. During the late swing phase, the hamstrings and gluteus maximus (Gmax) contract eccentrically to decelerate the lower limb. We hypothesized that, when the Gmax becomes dysfunctional because of delayed onset muscle soreness (DOMS), the hamstring workload is increased (i.e., there is synergetic dominance), which could lead to an increased risk of strain. A total of healthy 15 male undergraduate or graduate students (age 23.1 ± 1.28 years) were recruited to perform exercises and maximal sprints. On day 1, before subjects performing DOMS-causing exercises, and on day 3, while subjects were experiencing DOMS in the Gmax, lower-limb biomechanical and muscle activity data were recorded using a motion analysis system and electromyography (EMG), respectively. Data were analyzed and compared between day 1 and day 3. Hip flexion angle on day 3 was significantly lower than that on day 1, but the opposite was true for the knee flexion angle (P < 0.05). Vastus medialis (VM), biceps femoris (BF), and Gmax muscle activities on day 3 were significantly higher than those on day 1 (P < 0.05). Peak propulsive forces on day 3 were significantly higher than those on day 1 (P < 0.05). Kinematic changes such as decreased hip flexion angle and EMG changes such as increased BF EMG activity on day 3 to compensate for the loss of function of the Gmax may potentially increase the risk of hamstring strain., (Copyright © 2023 National Strength and Conditioning Association.)

Published

2023

8. Seasonal Changes in Anthropometric, Physiological, Nutritional, and Performance Factors in Collegiate Rowers.

Author

Iguchi J, Kuzuhara K, Katai K, Hojo T, Fujisawa Y, Kimura M, Yanagida Y, and Yamada Y

Subjects

Dietary Carbohydrates, Dietary Proteins, Energy Intake, Exercise Test, Humans, Male, Physical Conditioning, Human methods, Young Adult, Body Composition, Energy Metabolism, Physical Conditioning, Human physiology, Universities, Water Sports physiology

Abstract

Iguchi J, Kuzuhara, K, Katai, K, Hojo, T, Fujisawa, Y, Kimura, M, Yanagida, Y, and Yamada, Y. Seasonal changes in anthropometric, physiological, nutritional, and performance factors in collegiate rowers. J Strength Cond Res 34(11): 3225-3231, 2020-Well-controlled seasonal distribution of training intensity seems to be an important variable for endurance athletes' success as competitors and for avoidance of overtraining. The aim of this study was to examine the interrelationships of training distribution, body composition, energy intake/expenditure, and rowing ergometer performance throughout the 2012-2013 season. In this study of 15 collegiate male rowers, most of whom started rowing during their time at the university, we divided the 2012-2013 season (total 37 weeks) into 3 phases (off-season, December to mid-March, 16 weeks; pre-season, late March-April, 5 weeks; and in-season, May-August, 16 weeks) and analyzed the transition of 2,000-m rowing ergometer time, training intensity/volume, body composition (body mass and body fat), and energy intake/expenditure in each phase. There were significant main effects of the training time by the intensities; 2,000-m rowing ergometer time; energy expenditure; and protein, fat, and carbohydrate intake across the seasons (p < 0.05). Two findings were particularly important. First, on-water high-intensity training, especially for inexperienced rowers, may contribute to improvement of 2,000-m rowing ergometer performance. Second, higher intake of carbohydrate, and to a lesser degree, protein, is necessary for optimal training adaptation (e.g., increase of muscle glycogen content), and results in better 2,000-m performance on the rowing ergometer. Also, those findings may be beneficial to the coaches who are interested in designing the well-controlled seasonal training program, which is especially intended to improve the 2,000-m rowing ergometer performance as well as avoidance of overtraining.

Published

2020

9. In-match physical demands on elite Japanese rugby union players using a global positioning system.

Author

Yamamoto H, Takemura M, Iguchi J, Tachibana M, Tsujita J, and Hojo T

Abstract

Objectives: Our aim of this study was to quantify the physical demands of elite rugby union players by each position as a step towards designing position-specific training programme using a Global Positioning System/accelerometer system., Methods: This study was performed as a retrospective observational study. Data were obtained from 45 official matches. The sample size used for the analysis was 298. The per-match total distances, accelerations and impacts were calculated and statistically compared for the forwards and backs and for individual positions., Results: Total distances for the forwards and backs were 5731.1±507.8 and 6392.1±646.8 m, respectively. The high-velocity running distances (>18.0 km/hour) covered by the forwards and backs were 317.4±136.9 and 715.0±242.9 m, respectively. The number of accelerations (>1.5 m/s 2 ) for the forwards and backs were 76.3±18.9 and 100.8±19.6 times, respectively, and the number of high impacts (>10 g) were 48.0±46.9 and 35.6±28.3 times for the forwards and backs, respectively. All characteristics were significantly different between the forwards and backs (p<0.05). The per-position characteristics were also calculated. Within the backs, scrum half (SH) and wingers (WTBs) covered high-velocity running significantly higher distance than fly-half (SH d =2.571, WTBs d =1.556) and centres (SH d =1.299, WTBs d =0.685) (p<0.05)., Conclusion: By clarifying the physical demands according to the positions, it will be possible to create optimised position-specific training programmes., Competing Interests: Competing interests: None declared., (© Author(s) (or their employer(s)) 2020. Re-use permitted under CC BY-NC. No commercial re-use. See rights and permissions. Published by BMJ.)

Published

2020

10. Functional Movements in Japanese Mini-Basketball Players.

Author

Kuzuhara K, Shibata M, Iguchi J, and Uchida R

Abstract

Functional movement screen (FMS) has been used to establish normative data and determine potential injury risk for young adults and athletes, but there are few data in elementary school-age children. The purpose of this study was to establish fundamental values for the FMS in elementary school-age mini-basketball players. Secondary purposes were to examine relationships between functional movement patterns and age, peak height velocity (PHV), and body mass index (BMI), and to compare functional movement patterns between boys and girls and between individuals with and without a history of injury. The mean composite FMS score was 16.5 ± 2.2 (16.5 ± 2.4 for boys, 16.5 ± 1.7 for girls). The composite FMS score was positively correlated with age (r = .312) and negatively correlated with the BMI (r = - .371). However, the FMS score was not correlated with PHV or with PHV age. The FMS score was not different between boys and girls or between individuals who reported a previous injury and those who did not. However, boys in the mini-basketball teams performed better than girls on the trunk stability push-up and rotary stability tests. Age and the body mass index were significantly associated with better and poorer functional movement, respectively.

Published

2018

11. Risk Factors for Injury Among Japanese Collegiate Players of American Football Based on Performance Test Results.

Author

Iguchi J, Watanabe Y, Kimura M, Fujisawa Y, Hojo T, Yuasa Y, Higashi S, and Kuzuhara K

Subjects

Ankle Injuries epidemiology, Asian People, Athletic Injuries epidemiology, Cohort Studies, Hamstring Muscles injuries, Humans, Incidence, Knee Injuries epidemiology, Retrospective Studies, Risk Factors, Survival Analysis, Universities, Young Adult, Ankle Injuries etiology, Athletic Injuries etiology, Athletic Performance physiology, Football injuries, Knee Injuries etiology

Abstract

Iguchi, J, Watanabe, Y, Kimura, M, Fujisawa, Y, Hojo, T, Yuasa, Y, Higashi, S, and Kuzuhara, K. Risk factors for injury among Japanese collegiate players of American football based on performance test results. J Strength Cond Res 30(12): 3405-3411, 2016-The purpose of this study was to identify how risk factors for injury during American football are related to players' physical strength as determined using typical performance tests. One hundred 53 Japanese collegiate players of American football were recruited for this study. Eight potential risk factors were evaluated: position (skill vs. lineman), body mass index, back squat one-repetition maximum, vertical jump height, power, height, body weight, and previous injury. Using multivariate Cox regression, we examined how these factors were associated with knee sprain, ankle sprain, and hamstring strain. We recorded 63 injuries (17 knee sprains, 23 ankle sprains, and 23 hamstring strains). Players with higher power were at significantly greater risk for knee sprains (p = 0.04), those with low power had a significantly higher incidence of ankle sprain (p = 0.01), and vertical jump height was a significant predictor of hamstring strain (p = 0.02). We identified several independent predictors of injuries associated with American football. Our findings may contribute to the development of effective screening tests and prevention exercises.

Published

2016

12. The effect of sex and fatigue on lower limb kinematics, kinetics, and muscle activity during unanticipated side-step cutting.

Author

Iguchi J, Tateuchi H, Taniguchi M, and Ichihashi N

Subjects

Adult, Anterior Cruciate Ligament Injuries, Athletes, Biomechanical Phenomena, Electromyography, Exercise physiology, Female, Humans, Knee Injuries epidemiology, Male, Muscle, Skeletal physiology, Range of Motion, Articular, Sex Factors, Task Performance and Analysis, Young Adult, Hip Joint physiology, Knee Injuries physiopathology, Knee Joint physiology, Leg physiology, Muscle Fatigue physiology, Sports physiology

Abstract

Purpose: To determine how sex and fatigue affect lower limb kinematics, kinetics, and muscle activity during unanticipated side-step cutting., Methods: Twenty-three physically active subjects (men 11, women 12) performed 10 successful trials of cutting manoeuvres each to either side under unanticipated conditions in response to 2 light emitting diodes before and after fatigue conditions. Data were analysed and compared regarding sex and fatigue conditions using two-way repeated measures analysis of variance., Results: After fatigue-inducing exercise, women demonstrated larger impulses of ground reaction force (IGRF) during the first 50 ms (2.4 ± 0.8 vs. 2.1 ± 0.9, P < 0.05) than did men. Significant primary effects of sex indicated that women showed a smaller hip flexion angle at initial contact (40.4 ± 6.9° vs. 49.7 ± 9.1°, P < 0.05) and at maximum flexion angle (41.3 ± 7.7° vs. 51.4 ± 9.0°, P < 0.05) compared with men. Significant primary effects of fatigue were observed in the gluteus maximus muscle during 50 ms before initial contact (+21.5 ± 48.3 %, P < 0.05) and in the semimembranosus muscle during 50 ms before initial contact (-6.2 ± 20.1 %, P < 0.05) and the first 50 ms of side-step cutting (-7.9 ± 26.6 %, P < 0.05)., Conclusions: Our results suggest that sex differences, especially larger IGRF in a fatigue state combined with less hip flexion angle, lead to women having a higher risk for anterior cruciate ligament (ACL) injury. These findings may contribute to understanding the underlying mechanism of injury and development of preventive exercises against ACL injury.

Published

2014

13. Injuries in a Japanese Division I collegiate american football team: a 3-season prospective study.

Author

Iguchi J, Yamada Y, Kimura M, Fujisawa Y, Hojo T, Kuzuhara K, and Ichihashi N

Subjects

Athletes, Cohort Studies, Contusions epidemiology, Female, Fractures, Bone epidemiology, Humans, Incidence, Japan epidemiology, Joint Dislocations epidemiology, Male, Prospective Studies, Sprains and Strains epidemiology, Tendinopathy epidemiology, Universities, Young Adult, Athletic Injuries epidemiology, Football injuries

Abstract

Context: Previous research on American football injuries in Japan has focused on incidence proportion in terms of the number of injuries divided by the number of players. This is the first study to examine injury rates over several seasons., Objective: To conduct a prospective study of injuries in a Japanese Division I collegiate American football team over the 2007 through 2009 seasons., Design: Cohort study., Setting: Collegiate football team at Doshisha University, Kyoto, Japan., Patients or Other Participants: All 289 athletes who played on the collegiate Division I football team during the 2007 through 2009 seasons., Main Outcome Measure(s): A certified athletic trainer kept a daily record of all practice and game injuries. Injury rates were calculated according to season, injury type, body part, severity, and mechanism. Injuries were also analyzed according to position of player, school year, and playing experience., Results: The game injury rate (GIR; 32.7 injuries/1000 athlete-exposures) was higher than the practice injury rate (PIR; 10.9 injuries/1000 athlete-exposures) over the 3 seasons (P < .05). The PIR was higher among Japanese players than the comparable United States collegiate football injury rates (5.8-7.0 injuries/1000 athlete-exposures). Ankle and foot injuries occurred more frequently during games, whereas thigh and gluteal injuries occurred more frequently during practices., Conclusions: Our data show differences between games and practices in terms of injury rates, body parts injured, and positions of players injured. The high PIR in Japan may be due to the increased contact during practices and length of practices compared with the United States. Further research involving multiple teams is recommended to validate the trends noted in this study. The expanded data set could assist in the development of safety regulations and preventive interventions for Japanese football.

Published

2013

14. Physical and performance characteristics of Japanese division 1 collegiate football players.

Author

Iguchi J, Yamada Y, Ando S, Fujisawa Y, Hojo T, Nishimura K, Kuzuhara K, Yuasa Y, and Ichihashi N

Subjects

Adiposity, Adolescent, Adult, Analysis of Variance, Humans, Japan, Male, Running physiology, United States, Young Adult, Athletic Performance, Body Size, Football physiology, Muscle Strength, Muscle, Skeletal physiology

Abstract

Iguchi, J, Yamada, Y, Ando, S, Fujisawa, Y, Hojo, T, Nishimura, K, Kuzuhara, K, Yuasa, Y, and Ichihashi, N. Physical and performance characteristics of Japanese division 1 collegiate football players. J Strength Cond Res 25(12): 3368-3377, 2011-This study aimed to establish the physical and performance characteristics of football players in the Japanese Division 1 collegiate football program and perform a comparison of these characteristics between Japanese (n = 208) and US Division 1 football players (n = 797). The following comparisons were made: (a) between a higher-ranked university team vs. a lower-ranked university team in Japan, (b) between different playing positions in Japan, (c) between starters and nonstarters in Japan, and (d) between playing positions in Japan vs. those in the United States. The results of this study suggest that players in the higher-ranked university team were heavier, stronger in back squat, jumped higher, and had greater power than those on the lower-ranked team. Furthermore, linemen were generally characterized by larger size, greater strength, and more fat as compared with backs. On the other hand, backs tended to be faster, smaller in physical size, have higher vertical jump height, and show greater relative strength than linemen did. Starters were taller, heavier, stronger, had more powerful, and more fat-free mass than nonstarters. Finally, our results revealed that players in the United States were superior to players in Japan in all body status comparisons (p < 0.01). This study revealed that performance and superior body composition are essential for the success of a football player. Power and strength seem to be key factors in defining good football performance.

Published

2011