Non-Contact Injury Risk in Lower Extremity depending on Global Positioning System Variables among Female Field Hockey Players |
Choi, Hokyung
(Research Institute for Sports Sciences, Pukyong National University)
Kim, Eunkuk (Dept. of Physical Education, Korea National Sport University) Park, Jong-Chul (Dept. of Sport Science, Korea Institute of Sport Science) Kim, Taegyu (Dept. of Marine Sports, Pukyong National University) |
1 | M. Mohr, P. Krustrup & J. Bangsbo. (2005). Fatigue in soccer: a brief review. J Sports Sci. 23(6), 593-599. DOI |
2 | M. Spencer, D. Bishop, B. Dawson & C. Goodman. (2005). Physiological and metabolic responses of repeated-sprint activities. Sports Med. 35(12), 1025-1044. DOI |
3 | T. M. Theilen, W. Mueller-Eising, P. Wefers Bettink & U. Rolle. (2016). Injury data of major international field hockey tournaments. Br J Sports Med. 50(11), 657-660. DOI |
4 | T. J. Gabbett. (2010). GPS analysis of elite women's field hockey training and competition. J Strength Cond Res. 24(5), 1321-1324. DOI |
5 | T. Kim, J. Cha & J. Park. (2016). Association between in-game performance parameters recorded via global positioning system and sports injuries to the lower extremities in elite female field hockey players. Cluster Computing, 21(1), 1069-1078. DOI |
6 | D. Macutkiewicz & C. Sunderland. (2011). The use of GPS to evaluate activity profiles of elite women hockey players during match-play. J Sports Sci. 29(9), 967-973. DOI |
7 | A. D. White & N. MacFarlane. (2013). Time-on-pitch or full-game GPS analysis procedures for elite field hockey? Int J Sports Physiol Perform. 8(5), 549-555. DOI |
8 | T. J. Gabbett. (2004). Influence of training and match intensity on injuries in rugby league. J Sports Sci. 22(5), 409-417. DOI |
9 | T. J. Gabbett & N. Domrow. (2007). Relationships between training load, injury, and fitness in sub-elite collision sport athletes. J Sports Sci. 25(13), 1507-1519. DOI |
10 | M. J. Colby, B. Dawson, J. Heasman, B. Rogalski & T. J. Gabbett. (2014). Accelerometer and GPS-derived running loads and injury risk in elite Australian footballers. J Strength Cond Res. 28(8), 2244-2252. DOI |
11 | B. Rogalski, B. Dawson, J. Heasman & T. J. Gabbett. (2013). Training and game loads and injury risk in elite Australian footballers. J Sci Med Sport. 16(6), 499-503. DOI |
12 | C. Cummins, R. Orr, H. O'Connor & C. West. (2013). Global positioning systems (GPS) and microtechnology sensors in team sports: a systematic review. Sports Med. 43(10), 1025-42. DOI |
13 | M. Waldron, C. Twist, J. Highton, P. Worsfold & M. Daniels. (2011). Movement and physiological match demands of elite rugby league using portable global positioning systems. J Sports Sci. 29(11), 1223-1230. DOI |
14 | C. Brewer, B. Dawson, J. Heasman, G. Stewart & S. Cormack. (2010). Movement pattern comparisons in elite (AFL) and sub-elite (WAFL) Australian football games using GPS. J Sci Med Sport. 13(6), 618-623. DOI |
15 | L. J. Suarez-Arrones, L. J. Portillo, J. M. Gonzalez-Rave, V. E. Munoz & F. Sanchez. (2012). Match running performance in Spanish elite male rugby union using global positioning system. Isokinetics and Exercise Science, 20(2), 77-83. DOI |
16 | M. K. Drew & C. F. Finch. (2016). The relationship between training load and injury, illness and soreness: a systematic and literature review. Sports Med. 46(6), 861-883. DOI |
17 | M. C. Varley & R. J. Aughey. (2013). Acceleration profiles in elite Australian soccer. Int J Sports Med. 34(1), 34-39. DOI |
18 | J. Hausler, M. Halaki & R. Orr. (2016). Application of global positioning system and microsensor technology in competitive rugby league match-play: a systematic review and meta-analysis. Sports Med. 46(4), 559-588. DOI |
19 | C. D. Economos et al. (2007). A community intervention reduces BMI z-score in children: Shape Up Somerville first year results. Obesity. 15(5), 1325-1336. DOI |
20 | J. Ma et al. (2015). The choice of normative pediatric reference database changes spine bone mineral density Z-scores but not the relationship between bone mineral density and prevalent vertebral fractures. J Clin Endocrinol Metab. 100(3), 1018-1027. DOI |
21 | R. Bahr & I. Holme. (2003). Risk factors for sports injuries-a methodological approach. Br J Sports Med. 37(5), 384-392. DOI |
22 | B. T. Hulin, T. J. Gabbett, D. W. Lawson, P. Caputi & J. A. Sampson. (2016). The acute: chronic workload ratio predicts injury: high chronic workload may decrease injury risk in elite rugby league players. Br J Sports Med. 50(4), 231-236. DOI |
23 | P. B. Gastin, D. Meyer & D. Robinson. (2013). Perceptions of wellness to monitor adaptive responses to training and competition in elite Australian football. J Strength Cond Res. 27(9), 2518-2526. DOI |
24 | B. Cunniffe, W. Proctor, J. S. Baker & B. Davies. (2009). An evaluation of the physiological demands of elite rugby union using Global Positioning System tracking software. J Strength Cond Res. 23(4), 1195-1203. DOI |
25 | T. J. Gabbett & S. Ullah. (2012). Relationship between running loads and soft-tissue injury in elite team sport athletes. J Strength Cond Res. 26(4), 953-960. DOI |
26 | T. J. Gabbett & N. Domrow. (2005). Risk factors for injury in subelite rugby league players. Am J Sports Med. 33(3), 428-434. DOI |
27 | M. J. Cross, S. Williams, G. Trewartha, S. P. Kemp & K. A. Stokes. (2016). The influence of in-season training loads on injury risk in professional rugby union. International journal of sports physiology and performance. 11(3), 350-355. DOI |
28 | T. J. Gabbett. (2016). The training-injury prevention paradox: should athletes be training smarter and harder? Br J Sports Med. 50(5), 273-280. DOI |
29 | B. T. Hulin, T. J. Gabbett, P. Blanch, P. Chapman, D. Bailey & J. W. Orchard. (2014). Spikes in acute workload are associated with increased injury risk in elite cricket fast bowlers. Br J Sports Med. 48(8), 708-712. DOI |
30 | D. B. Dwyer & T. J. Gabbett. (2012). Global positioning system data analysis: velocity ranges and a new definition of sprinting for field sport athletes. J Strength Cond Res. 26(3), 818-24. DOI |
31 | T. Soligard et al. (2016). How much is too much? (Part 1) International Olympic Committee consensus statement on load in sport and risk of injury. Br J Sports Med. 50(17), 1030-1041. DOI |
32 | J. Windt & T. J. Gabbett. (2017). How do training and competition workloads relate to injury? The workload-injury aetiology model. Br J Sports Med. 51(5), 428-435. DOI |
33 | E. W. Banister & T. W. Calvert. (1980). Planning for future performance: implications for long term training. Can J Appl Sport Sci. 5(3), 170-176. |
34 | E. W. Banister, T. W. Calvert, M. Savage & T. A. Bach. A systems model of training for athletic performance. Aust J Sports Med. 7(3), 57-61. |
35 | F. E. Ehrmann, C. S. Duncan, D. Sindhusake, W. N. Franzsen & D. A. Greene. GPS and Injury Prevention in Professional Soccer. J Strength Cond Res. 30(2), 360-367. DOI |