دورية أكاديمية
Tournament Recovery Profiles and Physical Demands in a Collegiate Women's Tennis Team.
| العنوان: | Tournament Recovery Profiles and Physical Demands in a Collegiate Women's Tennis Team. |
|---|---|
| المؤلفون: | Tendero-Ortiz E; Department of Health Sciences and Kinesiology, Biodynamics and Human Performance Center, Georgia Southern University-Armstrong Campus, Savannah, Georgia., Johnson MJ, Horsfall CM, Vondrasek JD, Grosicki GJ, Riemann BL, Flatt AA |
| المصدر: | Journal of strength and conditioning research [J Strength Cond Res] 2024 Jul 23. Date of Electronic Publication: 2024 Jul 23. |
| Publication Model: | Ahead of Print |
| نوع المنشور: | Journal Article |
| اللغة: | English |
| بيانات الدورية: | Publisher: Human Kinetics Pub Country of Publication: United States NLM ID: 9415084 Publication Model: Print-Electronic Cited Medium: Internet ISSN: 1533-4287 (Electronic) Linking ISSN: 10648011 NLM ISO Abbreviation: J Strength Cond Res Subsets: MEDLINE |
| أسماء مطبوعة: | Original Publication: Champaign, IL : Human Kinetics Pub., c1993- |
| مستخلص: | Abstract: Tendero-Ortiz, E, Johnson, MJ, Horsfall, CM, Vondrasek, JD, Grosicki, GJ, Riemann, BL, and Flatt, AA. Tournament recovery profiles and physical demands in a collegiate women's tennis team. J Strength Cond Res XX(X): 000-000, 2024-We aimed to characterize recovery profiles and tournament physical demands in women's collegiate tennis players. A Division 1 team (n = 9) participated in the study. Markers of cardiac autonomic (resting heart rate [HR], HR variability), neuromuscular (isometric handgrip strength, seated single-arm shot-put test [SSAPT], hexagon agility, countermovement jump characteristics), and perceptual recovery were obtained before the tournament (baseline) and again 1 and 2 days posttournament. Cardiorespiratory (HR) and movement characteristics from matches were quantified with wearable devices. p values < 0.05 were statistically significant. No recovery markers differed from baseline (ps > 0.05), although small effect size reductions 1 day posttournament were noted for SSAPT, hexagon agility, and select countermovement jump characteristics. In addition, hexagon agility times and SSAPT were slower (p < 0.01) and shorter (p < 0.05), respectively, at 1 versus 2 days posttournament. Similarly, relative to 1 day posttournament, perceptual makers were improved 2 days posttournament (ps < 0.05). Mean and peak HR were higher for singles versus doubles matches (ps < 0.05). Except for average speed, movement parameters were greater during singles versus doubles matches (ps < 0.05). Markers of recovery were minimally affected 1 day posttournament relative to baseline, but perceptual and select neuromuscular markers were most improved 2 days posttournament. Thus, passive rest or limited intensity training 1 day posttournament seems advisable. Competition HR and movement profiles inform practitioners of the cardiorespiratory and locomotor demands of women's collegiate tennis, which may be useful in designing preparatory conditioning programs to ensure that players attain match-specific physical capacities in training before competition. (Copyright © 2024 National Strength and Conditioning Association.) |
| References: | Alrabaa RG, Lobao MH, Levine WN. Rotator cuff injuries in tennis players. Curr Rev Musculoskel Med 13: 734–747, 2020. Armstrong C, Reid M, Beale C, Girard O. A comparison of match load between padel and singles and doubles tennis. Int J Sports Physiol Perf 18: 512–522, 2023. Beato M, Devereux G, Stiff A. Validity and reliability of global positioning system units (STATSports viper) for measuring distance and peak speed in sports. J Strength Cond Res 32: 2831–2837, 2018. Bergeron M, Maresh C, Kraemer W, Abraham A, Conroy B, Gabaree C. Tennis: A physiological profile during match play. Int J Sports Med 12: 474–479, 1991. Buchheit M. Monitoring training status with HR measures: Do all roads lead to rome? Front Physiol 5: 73, 2014. Christiani M, Grosicki GJ, Flatt AA. Cardiac-autonomic and hemodynamic responses to a hypertonic, sugar-sweetened sports beverage in physically active men. Appl Physiol Nutr Metab 46: 1189–1195, 2021. Duffield R, Murphy A, Kellett A, Reid M. Recovery from repeated on-court tennis sessions: Combining cold-water immersion, compression, and sleep recovery interventions. Int J Sports Physiol Perf 9: 273–282, 2014. Ebben WP, Petushek EJ. Using the reactive strength index modified to evaluate plyometric performance. J Strength Cond Res 24: 1983–1987, 2010. Fernandez-Fernandez J, Sanz-Rivas D, Fernandez-Garcia B, Mendez-Villanueva A. Match activity and physiological load during a clay-court tennis tournament in elite female players. J Sports Sci 26: 1589–1595, 2008. Fernandez-Fernandez J, Sanz-Rivas D, Mendez-Villanueva A. A review of the activity profile and physiological demands of tennis match play. Strength Cond J 31: 15–26, 2009. Fernandez-Fernandez J, Sanz-Rivas D, Sanchez-Muñoz C, Pluim BM, Tiemessen I, Mendez-Villanueva A. A comparison of the activity profile and physiological demands between advanced and recreational veteran tennis players. J Strength Cond Res 23: 604–610, 2009. Fernandez-Fernandez J, Mendez-Villanueva A, Fernandez-Garcia B, Terrados N. Match activity and physiological responses during a junior female singles tennis tournament. Br J Sports Med 41: 711–716, 2007. Fernandez J, Mendez-Villanueva A, Pluim BM. Intensity of tennis match play. Br J Sports Med 40: 387–391, 2006. Ferrauti A, Schulz H, Strüder HK, Heck H, Weber K. Metabolism in tennis and running with similar oxygen uptake and duration. Int J Sports Med 19: 22–23, 1998. Flatt A, Allen J, Bragg A, Keith C, Earley R, Esco M. Heart rate variability in college football players throughout preseason camp in the heat. Int J Sports Med 41: 589–595, 2020. Flatt AA, Esco MR. Evaluating individual training adaptation with smartphone-derived heart rate variability in a collegiate female soccer team. J Strength Cond Res 30: 378–385, 2016. Flatt AA, Globensky L, Bass E, Sapp BL, Riemann BL. Heart rate variability, neuromuscular and perceptual recovery following resistance training. Sports 7: 225, 2019. Flatt AA, Howells D. Effects of long-haul travel and the Olympic games on heart-rate variability in rugby sevens medalists. Int J Sports Physiol Perf 17: 951–960, 2022. Gathercole R, Sporer B, Stellingwerff T, Sleivert G. Alternative countermovement-jump analysis to quantify acute neuromuscular fatigue. Int J Sports Physiol Perf 10: 84–92, 2015. Gescheit DT, Cormack SJ, Duffield R, et al. Injury epidemiology of tennis players at the 2011–2016 Australian open grand slam. Br J Sports Med, 51: 1289–1294, 2017. Gilgen-Ammann R, Schweizer T, Wyss T. RR interval signal quality of a heart rate monitor and an ECG Holter at rest and during exercise. Eur J Appl Physiol 119: 1525–1532, 2019. Girard O, Christian RJ, Racinais S, Périard JD. Heat stress does not exacerbate tennis-induced alterations in physical performance. Br J Sports Med 48: i39, 2014. Girard O, Millet GP. Neuromuscular fatigue in racquet sports. Phys Med Rehabil Clin North America 20: 161-ix, 2009. Gomes R, Santos R, Nosaka K, Moreira A, Miyabara E, Aoki M. Muscle damage after a tennis match in young players. Biol Sport 31: 27–32, 2014. González-Fimbres RA, Hernández-Cruz G, Flatt AA. Ultrashort versus criterion heart rate variability among international-level girls' field hockey players. Int J Sports Physiol Perf 16: 985–992, 2021. Harper DJ, Carling C, Kiely J. High-intensity acceleration and deceleration demands in elite team sports competitive match play: A systematic review and meta-analysis of observational studies. Sports Med 49: 1923–1947, 2019. Hernández-Davó JL, Loturco I, Pereira LA, et al. Relationship between sprint, change of direction, jump, and hexagon test performance in young tennis players. J Sports Sci Med 20: 197–203, 2021. Hopkins W, Marshall S, Batterham A, Hanin J. Progressive statistics for studies in sports medicine and exercise science. Med Sci Sports Exerc 41: 3–13, 2009. Hoppe MW, Baumgart C, Freiwald J. Do running activities of adolescent and adult tennis players differ during play? Int J Sports Physiol Perf 11: 793–801, 2016. Kennedy RA, Drake D. The effect of acute fatigue on countermovement jump performance in rugby union players during preseason. J Sports Med Phys Fitness 57: 1261–1266, 2017. Kraemer WJ, Piorkowski PA, Bush JA, et al. The effects of NCAA Division 1 intercollegiate competitive tennis match play on recovery of physical performance in women. J Strength Cond Res 14: 265–272, 2000. Kramer A, Knudson D. Grip strength and fatigue in junior college tennis players. Percept Mot Skills 75: 363–366, 1992. Lipponen JA, Tarvainen MP. A robust algorithm for heart rate variability time series artefact correction using novel beat classification. J Med Eng Tech 43: 173–181, 2019. Michel M-F, Girard O, Guillard V, Brechbuhl C. Well-being as a performance pillar: A holistic approach for monitoring tennis players. Front Sports Act Living 5: 1259821, 2023. Moya-Ramon M, Mateo-March M, Peña-González I, Zabala M, Javaloyes A. Validity and reliability of different smartphones applications to measure HRV during short and ultra-short measurements in elite athletes. Comp Methods Prog Biomed 217: 106696, 2022. Nakamura FY, Pereira LA, Abad CCC, et al. Adequacy of the ultra-short-term hrv to assess adaptive processes in youth female basketball players. J Hum Kinet 56: 73–80, 2017. Ojala T, Häkkinen K. Effects of the tennis tournament on players' physical performance, hormonal responses, muscle damage and recovery. J Sports Sci Med 12: 240–248, 2013. Pereira TJC, Nakamura FY, de Jesus MT, et al. Analysis of the distances covered and technical actions performed by professional tennis players during official matches. J Sports Sci 35: 361–368, 2017. Perrotta AS, Jeklin AT, Hives BA, Meanwell LE, Warburton DE. Validity of the elite HRV smartphone application for examining heart rate variability in a field-based setting. J Strength Cond Res 31: 2296–2302, 2017. Plews DJ, Laursen PB, Meur YL, Hausswirth C, Kilding AE, Buchheit M. Monitoring training with heart-rate variability: How much compliance is needed for valid assessment? Int J Sports Physiol Perf 9: 783–790, 2014. Pluim BM, Jansen MG, Williamson S, et al. Physical demands of tennis across the different court surfaces, performance levels and sexes: A systematic review with meta-analysis. Sports Med 53: 807–836, 2023. Rabbani M, Agha-Alinejad H, Gharakhanlou R, Rabbani A, Flatt AA. Monitoring training in women's volleyball: Supine or seated heart rate variability? Physiol Behav 240: 113537, 2021. Riemann BL, Wilk KE, Davies GJ. Reliability of upper extremity functional performance tests for overhead sports activities. Int J Sports Phys Ther 18: 687–697, 2023. Sánchez-Pay A, Pino-Ortega J, Sanz-Rivas D. Influence of successive wheelchair tennis matches on handgrip strength in high-level male players. Int J Environ Res Public Health 20: 4842, 2023. Schneider C, Hanakam F, Wiewelhove T, et al. Heart rate monitoring in team sports—a conceptual framework for contextualizing heart rate measures for training and recovery prescription. Front Physiol 639: 639, 2018. Sikorski EM, Wilson JM, Lowery RP, et al. Changes in perceived recovery status scale following high-volume muscle damaging resistance exercise. J Strength Cond Res 27: 2079–2085, 2013. Stanley J, Peake JM, Buchheit M. Cardiac parasympathetic reactivation following exercise: Implications for training prescription. Sports Med 43: 1259–1277, 2013. Thiel C, Vogt L, Bürklein M, Rosenhagen A, Hübscher M, Banzer W. Functional overreaching during preparation training of elite tennis professionals. J Hum Kinet 28: 79–89, 2011. Villafaina S, Crespo M, Martínez-Gallego R, Fuentes-García JP. Heart rate variability in elite international ITF Junior Davis Cup tennis players. Biol 12: 17, 2023. |
| تواريخ الأحداث: | Date Created: 20240729 Latest Revision: 20240729 |
| رمز التحديث: | 20240730 |
| DOI: | 10.1519/JSC.0000000000004876 |
| PMID: | 39074238 |
| قاعدة البيانات: | MEDLINE |
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