Arazi et al., 20122626. Arazi H, Asadi A, Nasehi M, Delpasand A. Cardiovascular and blood lactate responses to acute plyometric exercise in female volleyball and handball players. Sport Sci Health. 2012;8(1):23-9.
|
n = 8 W |
Training: 5 h per week Experience: 6.12 ± 2.29 years |
Maximal treadmill protocol |
Polar monitor S610i |
170.0 ± 8.0 bpm |
Azboy et al., 20092323. Azboy O, Kaygisiz Z. Effects of sleep deprivation on cardiorespiratory functions of the runners and volleyball players during rest and exercise. Acta Physiol Hung. 2009;96(1):29-36.
|
n = 10 M |
Training: 2 sessions per week Experience: 3 years |
Maximal cycle ergometer protocol |
ECG DII |
184.1 ± 7.1 bpm |
Concu & Marcelo, 19934949. Concu A, Marcello C. Stroke volume response to progressive exercise in athletes engaged in different types of training. Eur J Appl Physiol Occup Physiol. 1993;66(1):11-7.
|
n = 6 M |
Training: 6 h per week |
Maximal cycle ergometer protocol |
Not reported. |
180.0 ± 4.0 bpm |
CuestaVargas et al., 200911. Cuesta-Vargas A, Garcia-Romero JC, Kuisma R. Maximum and Resting Heart Rate in Treadmill and Deep-Water Running in Male International Volleyball Players. Int J Aquat Res Educ. 2009;3(4):7.
|
n = 10 M |
Training: > 15 h per week week Experience: at least 10 years |
Maximal treadmill protocol |
Polar monitor S610i |
190.3 ± 5.3 bpm |
Nascimento et al., 20135050. Nascimento TA, Verlengia R, Crisp AH, et al. Evaluation of physical capacity in athletic female volleyball players using the TW20meters test. Gazz Med Ital. 2013;172:449-55.
|
n = 9 W |
Experience: >2 years |
Highest value in In the TW20 meters test |
Polar Vantage NV |
183.6 ± 10.7 bpm |
Karaca et al., 20185151. Karaca N, Turgay F, Nalcakan GR, Nalaakan M, Sieman AR. Effects of a volleyball match on serum nitric oxide level and oxidant/antioxidant status. Spor Hekim Derg. 2018;53(1):27-36.
|
n = 12 W |
Training: 10h per week Experience: 6.8 ± 1.7 years |
Highest value in the IR1 test |
Telemetric gauge System (Activio AB, Stockholm, Sweden) |
177 ± 17.2 bpm |
Kasabalis et al., 20055252. Kasabalis A, Douda H, Volaklis K, pilianidis V. Energy requirements of elite volleyball players training and competition. J Hum Movement Stud. 2005;48:365-77.
|
n = 20 sênior and 16 junior (M) |
Experience: Senior: 4.82 ± 1.06 years Junior: 9.80 ± 2.98 years |
Maximal treadmill protocol |
Polar Sport Tester Vantage NYTM |
190.2 ± 5.5 bpm (Senior) 184.6 ± 6.1 bpm (Junior) |
Manna et al., 20111111. Manna I, Khanna GL, Dhara PC. Effect of Training on Anthropometric, Physiological, and Health-Related Variables of Indian Senior Elite Volleyball Players. Asian J Exerc Sport Sci. 2011;8(1).
|
n = 30 M |
Training: 20 h per week Experience: 12 to 17 years |
Maximal treadmill protocol |
Oxycon Champion Metabolic analyzer |
188.8 ± 2.2 bpm |
Manna et al., 20122727. Manna I, Lal Khanna G, Chandra Dhara P. Effect of training on anthropometric, physiological and biochemical variables of U-19 volleyball players. Published online 2012.
|
n = 30 M |
Training: 20 h |
Maximal treadmill protocol |
Oxycon Champion Metabolic analyzer |
192.4 ± 9.0 bpm |
Parnat et al., 33. Spence DW, Disch JG, Fred HL, Coleman AE. Descriptive profiles of highly skilled women volleyball players. Med Sci Sports Exerc. 1980;12(4):299-302. 19755353. Pärnat J, Viru A, Savi T, Nurmekivi A. Indices of aerobic work capacity and cardio-vascular response during exercise in athletes specializing in different events. J Sports Med Phys Fitness. 1975;15(2):100.
|
n = 12 M |
Not reported. |
Maximal cycle ergometer protocol |
Cardiotachograph. |
183.2 ± 2.4 bpm |
Pense et al., 20125454. Pense M. Effect of glycerol supplementation in male volleyball players on total body water, body temperature and heart rate. ENERGY Educ Sci Technol PART B-SOCIAL Educ Stud. 2012;4(2):765-72.
|
n = 6 M |
Experience: national level athletes |
Highest value in the 20 m Modified Shuttle-Run Test |
Transmitter and watch (brand not reported) |
180.0 ± 13.8 bpm |
Pereira et al., 20085555. Pereira G, Almeida AG, Rodacki ALF, Ugrinowitsch C, Fowler NE, Kokubun E. The influence of resting period length on jumping performance. J Strength Cond Res. 2008;22(4):1259-64.
|
n = 10 M |
Experience: 5.4 years |
Highest value in the CMJ performed until fatigue (fatigued when they no longer could touch the target) |
Polar Sport Tester; Polar Electro Oy |
194.0 ± 9.0 bpm |
Puhl et al., 19825656. Puhl J, Case S, Fleck S, Van Handel P. Physical and physiological characteristics of elite volleyball players. Res Q Exerc Sport. 1982;53(3):257-62.
|
n = 8 M and 14 W |
Not reported. |
Maximal treadmill protocol |
Not reported. |
178.0 ± 6.0 bpm (M) 179.0 ± 8.0 bpm (H) |
Simões et al., 20095757. Simões RA, Salles GSLM, Gonelli PRG, et al. Efeitos do treinamento neuromuscular na aptidão cardiorrespiratória e composição corporal de atletas de voleibol do sexo feminino Effects of the neuromuscular training in the cardiorespiratory fitness and body composition of female volleyball athletes. Rev Bras Med do Esporte. 2009;15(4):295-8.
|
n = 11 W |
Experience: 4 years |
Maximal treadmill protocol |
Polar Vantage NV |
190.6 ± 7.0 bpm |
Spence et al., 198033. Spence DW, Disch JG, Fred HL, Coleman AE. Descriptive profiles of highly skilled women volleyball players. Med Sci Sports Exerc. 1980;12(4):299-302.
|
n = 15 W |
Not reported. |
Maximal treadmill protocol |
ECG Quinton Instrum ents |
180.1 ± 5.1 bpm |