16645 | スポーツ科学を活用するための計測機器はトレーニングに関わるあらゆる人に貢献します

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OptoJumpNext

オプトジャンプネクスト

光学式ストライド計測システム

 

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OptoJumpNext 参考文献

【ジャンプ】

1 . ATTIA, A., et al. Measurement errors when estimating the vertical jump height with flight time using photocell devices: the example of Optojump. Biology of sport, 2017, 34.1: 63.
2 . VOISIN, Matthieu PJ; SCOHIER, Mikaël. Effect of an 8-week plyometric training program with raised forefoot platforms on agility and vertical jump performance. International journal of exercise science, 2019, 12.6: 491.
3 . ATIKOVIĆ, Almir, et al. EFFECTS OF A MINI-TRAMPOLINE EXERCISE DURING 15 WEEKS FOR INCREASING THE VERTICAL JUMP PERFORMANCE. Sport Scientific & Practical Aspects, 2018, 15.1.
4 . MONTALVO, Samuel, et al. Validity of vertical jump measuring devices. In: International Journal of Exercise Science: Conference Proceedings. 2018. p. 69.
5 . BAENA-RAYA, Andrés, et al. Effects of two drop-jump protocols with different volumes on vertical jump performance and its association with the force–velocity profile. European Journal of Applied Physiology, 2020, 120.2: 317-324.
6 . COMYNS, Thomas M., et al. Interday Reliability and Usefulness of a Reactive Strength Index Derived From 2 Maximal Rebound Jump Tests. International journal of sports physiology and performance, 2019, 14.9: 1200-1204.
7 . HOJKA, Vladimír, et al. Concurrent validity of Myotest for assessing explosive strength indicators in countermovement jump. Acta Gymnica, 2018, 48.3: 95-102.
8 . RAGO, Vincenzo, et al. Countermovement Jump Analysis Using Different Portable Devices: Implications for Field Testing. Sports, 2018, 6.3: 91.
9 . HEALY, Robin; KENNY, Ian C.; HARRISON, Andrew J. Assessing reactive strength measures in jumping and hopping using the Optojump™ system. Journal of human kinetics, 2016, 54.1: 23-32.
10 . HAYNES, Tom, et al. The validity and reliability of the my jump 2 app for measuring the reactive strength index and drop jump performance. The Journal of sports medicine and physical fitness, 2019.
11 . DE KEIJZER, Kevin L., et al. Effect of Volume on Eccentric Overload–Induced Postactivation Potentiation of Jumps. International Journal of Sports Physiology and Performance, 2020, 1.aop: 1-6.
12 . VUKSANOVIKJ, Vladimir, et al. RELATION BETWEEN THE STANDING VERTICAL JUMP (ABALAK TEST), STANDING LONG JUMP, AND SQUAT JUMP 2 LEGS 5 JUMPS (OPTOJUMP) TESTS FOR ASSESSMENT OF THE EXPLOSIVE STRENGTH OF LEGS. Research in Physical Education, Sport & Health, 2016, 5.2.
13 . ABDOLLAHIPOUR, Reza; PSOTTA, Rudolf; LAND, William M. The influence of attentional focus instructions and vision on jump height performance. Research Quarterly for Exercise and Sport, 2016, 87.4: 408-413.
14 . AOUICHAOUI, C., et al. Iconography: Reference values of vertical jumping performances and anthropometric characteristics in trained adolescents. 2018.

 

【サッカー】
15 . BLOBEL, Thomas, et al. Healthy Reference Patterns (HRP) supporting prevention and rehabilitation process in professional football. In: World conference on science and soccer. 2017. p. 183-184.
16 . DUNTON, Alan; O’NEILL, Cian; COUGHLAN, Edward K. The impact of a spatial occlusion training intervention on pass accuracy across a continuum of representative experimental design in football. Science and Medicine in Football, 2020, 1-9.
17 . STARZAK, Marcin; MAKARUK, Hubert; STARZAK, Anna. the effeCts of a runninG ConsistenCy ProGramme on footfall VariaBility and PerformanCe in the lonG JumP. Polish Journal of Sport and Tourism, 2016, 23.3: 145-152.
18 . COUTINHO, Diogo, et al. Mental fatigue and spatial references impair soccer players' physical and tactical performances. Frontiers in psychology, 2017, 8: 1645.
19 . IAIA, F. Marcello, et al. Short-or long-rest intervals during repeated-sprint training in soccer?. PloS one, 2017, 12.2.
20 . ZOUITA, SGHAIR, et al. STRENGTH TRAINING REDUCES INJURY RATE IN ELITE YOUNG SOCCER PLAYERS DURING ONE. 2016.
21 . BISHOP, Chris, et al. Jumping asymmetries are associated with speed, change of direction speed, and jump performance in elite academy soccer players. Journal of strength and conditioning research, 2019.
22 . ŚLIWOWSKI, Robert, et al. The relationship between jumping performance, isokinetic strength and dynamic postural control in elite youth soccer players. J Sports Med Phys Fitness, 2018, 58.9: 1226-33.
23 . ROMMERS, Nikki, et al. A machine learning approach to assess injury risk in elite youth football players. Medicine and science in sports and exercise, 2020.
24 . REBELO-GONÇALVES, Ricardo, et al. Assessment of technical skills in young soccer goalkeepers: Reliability and validity of two goalkeeper-specific tests. Journal of sports science & medicine, 2016, 15.3: 516.
25 . HERVÉOU, T., et al. Force-velocity muscular profiles and jumping performances of soccer goalkeeper. Science & Sports, 2018, 33.5: 307-313.
26 . LESINSKI, Melanie; MUEHLBAUER, Thomas; GRANACHER, Urs. Concurrent validity of the Gyko inertial sensor system for the assessment of vertical jump height in female sub-elite youth soccer players. BMC sports science, medicine and rehabilitation, 2016, 8.1: 35.
27 . BOUGUEZZI, Raja, et al. Effects of Different Plyometric Training Frequencies on Measures of Athletic Performance in Prepuberal Male Soccer Players. The Journal of Strength & Conditioning Research, 2020, 34.6: 1609-1617.
28 . TASEVSKI, Zikica, et al. THE INFLUENCE OF A SPECIALLY PROGRAMMED FUNCTIONAL TRAINING IN IMPROVING THE VERTICAL JUMP OF SENIOR SOCCER PLAYERS. Research in Physical Education, Sport & Health, 2019, 8.1.
29 . ELIAKIM, Eyal, et al. Pre-season fitness level and injury rate in professional soccer–a prospective study. Sports medicine international open, 2018, 2.03: E84-E90.
30 . KOTSIFAKI, Argyro; WHITELEY, Rodney; HANSEN, Clint. Dual Kinect v2 system can capture lower limb kinematics reasonably well in a clinical setting: concurrent validity of a dual camera markerless motion capture system in professional football players. BMJ open sport & exercise medicine, 2018, 4.1: e000441.
31 . ABBOTT, William, et al. Presleep casein protein ingestion: acceleration of functional recovery in professional soccer players. International journal of sports physiology and performance, 2018, 14.3: 385-391.
32 . KROLO, Ante, et al. Agility Testing in Youth Football (Soccer) Players; Evaluating Reliability, Validity, and Correlates of Newly Developed Testing Protocols. International Journal of Environmental Research and Public Health, 2020, 17.1: 294.
33 . BOUGUEZZI, Raja, et al. Effects of jump exercises with and without stretch-shortening cycle actions on components of physical fitness in prepubertal male soccer players. Sport Sciences for Health, 2019, 1-8.
34 . TRECROCI, Athos, et al. Effects of traditional balance and slackline training on physical performance and perceived enjoyment in young soccer players. Research in Sports Medicine, 2018, 26.4: 450-461.
35 . PERRI, E., et al. Analysis of performance in different agility tests in young soccer players. In: Crossing borders through sport science. European College of Sport Science, 2016. p. 393-393.
36 . GIOLDASIS, Aristotelis; BEKRI, Evangelos. Soccer Impact on the Physiological Profile of Beginners. International Journal of Sport Culture and Science, 2016, 4.1: 46-55.
37 . PARDOS-MAINER, Elena; CASAJÚS, José Antonio; GONZALO-SKOK, Oliver. Adolescent female soccer players’ soccer-specific warm-up effects on performance and inter-limb asymmetries. Biology of Sport, 2019, 36.3: 199.
38 . LEHNERT, Michal, et al. Muscular and neuromuscular control following soccer‐specific exercise in male youth: Changes in injury risk mechanisms. Scandinavian journal of medicine & science in sports, 2017, 27.9: 975-982.
39 . LEHNERT, Michal, et al. Changes in injury risk mechanisms after soccer-specific fatigue in male youth soccer players. Journal of human kinetics, 2018, 62.1: 33-42.
40 . RODRÍGUEZ-ROSELL, David, et al. Traditional vs. sport-specific vertical jump tests: reliability, validity, and relationship with the legs strength and sprint performance in adult and teen soccer and basketball players. The Journal of Strength & Conditioning Research, 2017, 31.1: 196-206.

 

【バスケットボール】
41 . ILIE, Mihai; CRISTIAN, Graur. Monitoring the explosive strength parameters in BCM U Pitesti Basketball team. Journal of Physical Education and Sport, 2017, 17: 2297-2300.
42 . KNJAZ, Damir; RUPČIĆ, Tomislav; ANTEKOLOVIĆ, Ljubomir. Application of modern technology in teaching and training with special emphasis on basketball contents. Physical Education and new technologies, 2016, 112.
43 . SLOMKA, Kajetan J., et al. THE INTERDEPENDENCE OF FUNCTIONAL AND DYNAMIC STABILITY OF THE 16-18 YEARS OLD BASKETBALL PLAYERS-A PILOT STUDY. In: ISBS-Conference Proceedings Archive. 2016.
44 . ORHAN, Ozlem; POLAT, Sezen Cimen; YARIM, Imdat. Relationship between Jump Performance and Sport Ages in U16 Basketball Players. Journal of Education and Learning, 2019, 8.2: 207-212.
45 . LEHNERT, Michal, et al. Acute effect of basketball-specific exercise on lower limb injury risk mechanisms in male basketball players U16 and U18. Research and Investigations in Sports Medicine, 2018, 2.3: 1-6.
46 . FĂGĂRAŞ, Pia Simona. Modeling physical training in young basketball players. Palestrica of the Third Millennium Civilization & Sport, 2016, 17.3.
47 . GONZALO-SKOK, Oliver, et al. Age differences in measures of functional movement and performance in highly youth basketball players. International journal of sports physical therapy, 2017, 12.5: 812.
48 . GONZALO-SKOK, Oliver, et al. Influence of force-vector and force application plyometric training in young elite basketball players. European journal of sport science, 2019, 19.3: 305-314.
49 . BONATO, M.; BENIS, R.; LA TORRE, A. Neuromuscular training reduces lower limb injuries in elite female basketball players. A cluster randomized controlled trial. Scandinavian journal of medicine & science in sports, 2018, 28.4: 1451-1460.

 

【バレーボール】
50 . NIKOLAIDIS, Pantelis Theodoros, et al. Vertical jumping tests versus wingate anaerobic test in female volleyball players: the role of age. Sports, 2016, 4.1: 9.
51 . RIVA, G., et al. The influence of knee joint angle and time of force application on vertical jump height during volleyball commit-block. In: European College of Sport Science. Baca Arnold, 2016. p. 711-711.
52 . JADCZAK, Łukasz, et al. Jumping height does not increase in well trained volleyball players after transcutaneous spinal direct current stimulation. Frontiers in Physiology, 2019, 10.
53 . FORZA, Jacopo; EDMUNDSON, Christopher J. Comparison between Gyko inertial sensor and Chrono jump contact mat for the assessment of Squat Jump, Countermovement Jump and Abalakov Jump in amateur male volleyball players, amateur male rugby players and in high school students. J. Multidiscip. Eng. Sci. Technol, 2019, 6: 9982-9988.
54 . İNCE, İzzet. Effects of Split Style Olympic Weightlifting Training on Leg Stiffness Vertical Jump Change of Direction and Sprint in Collegiate Volleyball Players. Universal Journal of Educational Research, 2019, 7.1: 24-31.
55 . BELLO, Fabio, et al. Beach and indoor volleyball athletes present similar lower limb muscle activation during a countermovement jump. Human Movement, 2020, 21.2: 42-50.
56 . FATHI, Abed, et al. Effect of a 16-Week Combined Strength and Plyometric Training Program Followed by a Detraining Period on Athletic Performance in Pubertal Volleyball Players. The Journal of Strength & Conditioning Research, 2019, 33.8: 2117-2127.
57 . COSMIN, Strava Cristian; MIHAELA, Rusu Alexandra; CLAUDIU, Avram. Anthropometric characteristics, body composition and physical performance of female cadet volleyball players. Journal of Physical Education and Sport, 2016, 16: 664.
58 . MROCZEK, Dariusz, et al. Effects of Plyometrics Training on Muscle Stiffness Changes in Male Volleyball Players. The Journal of Strength & Conditioning Research, 2019, 33.4: 910-921.
59 . MROCZEK, Dariusz, et al. Effects of volleyball plyometric intervention program on vertical jumping ability in male volleyball players. The Journal of sports medicine and physical fitness, 2018, 58.11: 1611-1617.

 

【ハンドボール】
60 . MUEHLBAUER, Thomas, et al. Validity of the jump-and-reach test in subelite adolescent handball players. The Journal of Strength & Conditioning Research, 2017, 31.5: 1282-1289.
61 . ORTEGA-BECERRA, Manuel, et al. Determinant factors of physical performance and specific throwing in handball players of different ages. The Journal of Strength & Conditioning Research, 2018, 32.6: 1778-1786.
62 . PRIESKE, Olaf, et al. Effects of drop height on jump performance in male and female elite adolescent handball players. International journal of sports physiology and performance, 2019, 14.5: 674-680.
63 . GRAINGER, Adam; COMFORT, Paul; HEFFERNAN, Shane. No Effect of Partial-Body Cryotherapy on Restoration of Countermovement Jump or Well-Being Performance in Elite Rugby Union Players During the Competitive Phase of the Season. International journal of sports physiology and performance, 2020, 15.1: 98-104.

 

【ラグビー】
64 . MCLAREN, Shaun J., et al. Differential training loads and individual fitness responses to pre-season in professional rugby union players. Journal of sports sciences, 2018, 36.21: 2438-2446.
65 . BANKS, Matthew. THE INFLUENCE OF STRENGTH AND AEROBIC CAPACITY ON ATHLETES ABILITY TO RECOVER FROM A RUGBY UNION SIMULATION PROTOCOL. 2017. PhD Thesis. St Mary's University, Twickenham.
66 . FURLONG, Laura-Anne; HARRISON, Andrew J.; JENSEN, Randall L. Measures of strength and jump performance can predict 30 m sprint time in Rugby Union players. The Journal of Strength & Conditioning Research, 2019.
67 . OXENDALE, Chelsea L., et al. The relationship between match-play characteristics of elite rugby league and indirect markers of muscle damage. International journal of sports physiology and performance, 2016, 11.4: 515-521.
68 . RELPH, Nicola. The landing error scoring system (LESS) and lower limb power profiles in elite rugby union players. 2018.
69 . GIBSON, Nikki E.; BOYD, Andy J.; MURRAY, Andrew M. Countermovement jump is not affected during final competition preparation periods in elite rugby sevens players. The Journal of Strength & Conditioning Research, 2016, 30.3: 777-783.
70 . DUÑABEITIA, Iratxe, et al. Effects of a capacitive-resistive electric transfer therapy on physiological and biomechanical parameters in recreational runners: A randomized controlled crossover trial. Physical Therapy in Sport, 2018, 32: 227-234.
71 . HANLEY, Brian; TUCKER, Catherine B. Reliability of the OptoJump Next system for measuring temporal values in elite racewalking. The Journal of Strength & Conditioning Research, 2019, 33.12: 3438-3443.

 

【陸上】
72 . HANLEY, Brian; TUCKER, C. Comparisons between systems to measure contact and flight times in elite race walking. 2018.
73 . HARRISON, Andrew J.; MOLLOY, Patrick G.; FURLONG, Laura-Anne M. Does the McNeill Alexander model accurately predict maximum walking speed in novice and experienced race walkers?. Journal of sport and health science, 2018, 7.3: 372-377.
74 . GOMEZ-EZEIZA, Josu, et al. Race walking gait and its influence on race walking economy in world-class race walkers. Journal of sports sciences, 2018, 36.19: 2235-2241.
75 . VAN DEN TILLAAR, Roland. Comparison of Step-by-Step Kinematics of Elite Sprinters' Unresisted and Resisted 10-m Sprints Measured With Optojump or Musclelab. LWW, 2019.
76 . LIVIU, Mihăilescu; ILIE, Mihai; FERNANDO, Georgescu. Determination of balance parameters as physical training factors in Athletics. Journal of Physical Education and Sport, 2018, 18: 2054.
77 . MAKARUK, Hubert, et al. An examination of approach run kinematics in track and field jumping events. Polish Journal of Sport and Tourism, 2016, 23.2: 82-87.
78 . DUCA, M., et al. Correlation between physical matureness and sprint performance in young track and field athletes. In: Annual Congress of the European College of sport science. European College of Sport Science, 2018. p. 480-480.
79 . CASSIRAME, J., et al. Mechanical performance determinants in women’s vs men’s pole-vault. Computer methods in biomechanics and biomedical engineering, 2017, 20.S1: 37-38.
80 . CASSIRAME, Johan; SANCHEZ, Hervé; MORIN, Jean-Benoit. The Elevated Track in Pole Vault: An Advantage During Run-Up?. International journal of sports physiology and performance, 2018, 13.6: 717-723.
81 . CASSIRAME, J., et al. Differences in approach run kinematics: successful vs. unsuccessful jumps in the pole vault. International Journal of Performance Analysis in Sport, 2019, 19.5: 794-808.

 

【柔道】
82 . KSIĄŻEK, Anna, et al. Relationship between 25 (OH) D levels and athletic performance in elite Polish judoists. Biology of Sport, 2018, 35.2: 191.
83 . GÜRSES, Veli Volkan, et al. Anthropometric Profile, Wingate Performance and Special Judo Fitness Levels of Turkish Cadet Judo Athletes. Uluslararası Kültürel ve Sosyal Araştırmalar Dergisi (UKSAD), 2018, 4.1: 77-82.
84 . CEYLAN, Bayram; BALCI, Ş. Serdar. THE RELATIONSHIP BETWEEN BODY COMPOSITION AND SOME PERFORMANCE VARIABLES IN CADET JUDO ATHLETES. Acta Medica Marisiensis, 2017, 63.

 

【テニス】
85 . DOSSENA, Filippo, et al. The role of lower limbs during tennis serve. Journal of Sports Medicine and Physical Fitness, 2018, 58.3: 210-215.
86 . GRIGOROIU, Carmen, et al. THE DEVELOPMENT OF THE MAXIMUM FORCE BY MEANS OF THE" MAXEX" METHOD FOR TENNIS PLAYERS AGED BETWEEN 16 AND 18. In: The International Scientific Conference eLearning and Software for Education. " Carol I" National Defence University, 2016. p. 355.
87 . ÖLÇÜCÜ, Burçin. INVESTIGATION AND COMPARISON OF PSYCHOLOGICAL RESISTANCE LEVELS OF TENNIS AND BASKETBALL SPORTS. Acta Medica Marisiensis, 2017, 63.

 

【スキー】
88 . VITALE, Jacopo A., et al. Effects of an 8-week body-weight neuromuscular training on dynamic balance and vertical jump performances in elite junior skiing athletes: a randomized controlled trial. The Journal of Strength & Conditioning Research, 2018, 32.4: 911-920.
89 . SLOMKA, Kajetan J., et al. EFFECTS OF 8-WEEK COMPLEX BALANCE TRAINING IN YOUNG SKIERS. 2018.
90 . CIGROVSKI, Vjekoslav. Is specific motor test enough to evaluate new alpine ski knowledge in ski beginners?. Annales Kinesiologiae, 2017, 8.1: 5-14.
91 . SŁOMKA, Kajetan J., et al. Effects of 8-week complex balance training in young alpine skiers: A pilot study. BioMed research international, 2018, 2018.

 

【アスリート】
92 . SAWCZUK, Thomas, et al. Between-day reliability and usefulness of a fitness testing battery in youth sport athletes: Reference data for practitioners. Measurement in Physical Education and Exercise Science, 2018, 22.1: 11-18.
93 . CONTRERAS-DIAZ, Guido, et al. Methods of evaluating the force-velocity profile through the vertical jump in athletes: a systematic review. Archivos de Medicina del Deporte, 2018, 333-339.
94 . ANTONINO VITALE, Jacopo, et al. Effect of mattress on actigraphy-based sleep quality and perceived recovery in top-level athletes: a randomized, double-blind, controlled trial. Biological Rhythm Research, 2019, 50.5: 689-702.
95 . TOUNSI, M., et al. Effect of socioeconomic status on leg muscle power in Tunisian adolescent athletes. Science & Sports, 2017, 32.5: 303-311.
96 . BIRAT, Anthony, et al. Effect of long-duration adventure races on cardiac damage biomarker release and muscular function in young athletes. Frontiers in Physiology, 2020, 11.
97 . DAR, Gali; MEI-DAN, Einat. Immediate effect of infrapatellar strap on pain and jump height in patellar tendinopathy among young athletes. Prosthetics and orthotics international, 2019, 43.1: 21-27.
98 . NEGRA, Yassine, et al. Agility in young athletes: is it a different ability from speed and power?. Journal of strength and conditioning research, 2017, 31.3: 727-735.
99 . WILSON-BARNES, Saskia L., et al. Seasonal variation in vitamin D status, bone health and athletic performance in competitive university student athletes: a longitudinal study. Journal of Nutritional Science, 2020, 9.
100 . WHITE, Gillian E., et al. Massage Therapy Modulates Inflammatory Mediators Following Sprint Exercise in Healthy Male Athletes. Journal of Functional Morphology and Kinesiology, 2020, 5.1: 9.
101 . MULLINS, Karen; HANLON, Michael; CARTON, Patrick. Arthroscopic correction of femoroacetabular impingement improves athletic performance in male athletes. Knee Surgery, Sports Traumatology, Arthroscopy, 2019, 1-10.

 

【高齢者】
102 . FORTE, Roberta, et al. How older adults cope with cognitive complexity and environmental constraints during dual-task walking: the role of executive function involvement. International journal of environmental research and public health, 2019, 16.10: 1835.
103 . PANIZZOLO, Fausto A., et al. Reducing the energy cost of walking in older adults using a passive hip flexion device. Journal of NeuroEngineering and Rehabilitation, 2019, 16.1: 117.
104 . FALBO, S., et al. Effects of physical-cognitive dual task training on executive function and gait performance in older adults: a randomized controlled trial. BioMed research international, 2016, 2016.
105 . MASLIVEC, Amy; BAMPOURAS, Theodoros M.; DEWHURST, Susan. Head flexion and different walking speeds do not affect gait stability in older females. Human movement science, 2017, 55: 87-93.

 

【スプリント】
106 . SCHMIDT, Marcus, et al. IMU-based determination of stance duration during sprinting. Procedia engineering, 2016, 147: 747-752.
107 . MONTE, Andrea, et al. Sprint running: how changes in step frequency affect running mechanics and leg spring behaviour at maximal speed. Journal of sports sciences, 2017, 35.4: 339-345.
108 . PRIESKE, Olaf, et al. Effects of resisted sprint training and traditional power training on sprint, jump, and balance performance in healthy young adults: a randomized controlled trial. Frontiers in physiology, 2018, 9: 156.
109 . SIMPERINGHAM, Kim David, et al. Acute changes in acceleration phase sprint biomechanics with lower body wearable resistance. Sports Biomechanics, 2020, 1-13.
110 . PETRESCU, Tomina Dana. BIOMECHANICAL DETAILS REGARDING THE EFFICIENCY OF START IN SPRINTING EVENTS. Bulletin of the Transilvania University of Brasov. Series IX, Sciences of Human Kinetics, 2019, 12.1: 113-120.
111 . HARRISON, Andrew J.; MCCABE, Ciaran. The effect of a gluteal activation protocol on sprint and drop jump performance. The Journal of sports medicine and physical fitness, 2017, 57.3: 179-188.
112 . STARZAK, Marcin, et al. The foam rolling of quadriceps decrease the kinematics of step during a 30-m sprint run. Journal of Physical Education and Sport, 2020, 20.1: 206-213.
113 . NTOUMAS, Ilias, et al. Acceleration and Maximum Running Phases in 60-m Sprint and Vertical Jump Performance. Multidisciplinary Digital Publishing Institute Proceedings, 2019, 25.1: 21.
114 . MEYERS, Robert W., et al. Influence of age, maturity, and body size on the spatiotemporal determinants of maximal sprint speed in boys. Journal of strength and conditioning research, 2017, 31.4: 1009-1016.
115 . OMELKO, Rafał; FOSTIAK, Marek; MACKALA, Krzysztof. Analysis of step kinematics during maximum speed of 60 m sprint performance. Journal of Education, Health and Sport, 2018, 8.10: 227-235.
116 . MEYERS, Robert W., et al. Asymmetry during maximal sprint performance in 11-to 16-year-old boys. Pediatric exercise science, 2017, 29.1: 94-102.

 

【ランニング】
117 . BALSALOBRE-FERNÁNDEZ, Carlos; AGOPYAN, Hovannes; MORIN, Jean-Benoit. The validity and reliability of an iPhone app for measuring running mechanics. Journal of applied biomechanics, 2017, 33.3: 222-226.
118 . AMMANN, Rahel; TAUBE, Wolfgang; WYSS, Thomas. Accuracy of PARTwear inertial sensor and Optojump optical measurement system for measuring ground contact time during running. Journal of strength and conditioning research, 2016, 30.7: 2057-2063.
119 . WILKINSON, Michael, et al. Textured insoles reduce vertical loading rate and increase subjective plantar sensation in overground running. European journal of sport science, 2018, 18.4: 497-503.
120 . TUCKER, Catherine B.; HANLEY, Brian. Comparisons between systems to measure contact and flight times during treadmill race walking. 2018.

 

【その他】
121 . JAKUBOWSKI, Josephine S., et al. Equivalent Hypertrophy and Strength Gains in β-Hydroxy-β-Methylbutyrate-or Leucine-supplemented Men. Medicine and science in sports and exercise, 2019, 51.1: 65.
122 . MEYERS, Robert W., et al. Lower-Limb Stiffness and Maximal Sprint Speed in 11–16-Year-Old Boys. The Journal of Strength & Conditioning Research, 2019, 33.7: 1987-1995.
123 . İPEKOĞLU, Gökhan, et al. Effect of 12 week neuromuscular weighted rope jump training on lower extremity reaction time. Turkish Journal of Sport and Exercise, 2018, 20.2: 111-115.
124 . RUGGIERO, Luca; DEWHURST, Susan; BAMPOURAS, Theodoros M. Validity and reliability of two field-based leg stiffness devices: implications for practical use. Journal of applied biomechanics, 2016, 32.4: 415-419.
125 . ROSSI, A., et al. Relationship between vertical jump and body postural stability in males and females aged 6-18 years. In: European college of sport science. Baca Arnold, 2016. p. 415-416.
126 . AUSTIN, Daren; HOSTRUP, Morten; BIRD, Sheila M. 8 The salbutamol passport: how to rule out an adverse analytical finding from serial urine tests. 2018.
127 . MCDONALD, Tara. TESTING VERT™ ACCELEROMETER TO IDENTIFY VALIDITY AND RELIABILITY WHEN COMPARED TO SWITCH MAT. 2017.
128 . DÖNMEZ, Gürhan, et al. O-31 Two-weeks of elective sports medicine internship program in medical school education positively effects on physical activity counselling. 2016.
129 . BALDUCCI, Pascal, et al. Performance factors in a mountain ultramarathon. International journal of sports medicine, 2017, 38.11: 819-826.
130 . DI DOMENICO, Felice; D'ISANTO, Tiziana. Role of speed and agility in the effectiveness of motor performance. Journal of Physical Education and Sport, 2019, 19: 1836-1842.
131 . NIETO, Miriam Palomo, et al. The role of vision in walking patterns in children with different levels of motor coordination. Revista iberoamericana de psicología del ejercicio y el deporte, 2018, 13.2: 289-296.
132 . RANKIN, Paula, et al. Can Milk Affect Recovery from Simulated Team-Sport Match Play?. Nutrients, 2020, 12.1: 112.
133 . COLLINS, Ruben, et al. Effect of External Counterpulsation on Exercise Recovery in Team Sport Athletes. International journal of sports medicine, 2019, 40.08: 511-518.
134 . ROCHA, F., et al. The relationship between bandal chagui power with mechanical efficiency in taekwondo athletes. Sci. Int.(Lahore), 2017, 29.6: 1231-1236.
135 . ALTAVILLA, Gaetano. Monitoring training to adequate the teaching method in training: an interpretative concepts. Journal of Physical Education and Sport, 2019, 19: 1763-1766.
136 . BYRNE, Damien J., et al. Interday reliability of the reactive strength index and optimal drop height. Journal of strength and conditioning research, 2017, 31.3: 721-726.
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