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EFFECTS OF CIRCADIAN RHYTHM ON BALANCE PERFORMANCE

Osman Karagul
Osman Karagul
, 
Gulbin Rudarli Nalcakan
Gulbin Rudarli Nalcakan
, 
Yeliz Dogru
Yeliz Dogru
 e 
Murat Tas
Murat Tas
   | 27 ott 2017
Polish Journal of Sport and Tourism's Cover Image
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Pubblicato online: 27 ott 2017
Pagine: 155 - 161
Ricevuto: 08 mag 2017
Accettato: 30 giu 2017
DOI: https://doi.org/10.1515/pjst-2017-0016
© by Gulbin Rudarli Nalcakan
This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 License.

1. Can B. (2008). The effect of balance training on the sense of proprioception depending on fatigue in female volleyball players. Doctoral thesis. Gazi University, Institute of Health Sciences, Ankara. [in Turkish] Search in Google Scholar

2. Noakes T. (2000). Physiological models to understand exercise fatigue and the adaptations that predict or enhance athletic performance. Scandinavian Journal of Medicine and Science in Sports 10(3), 123-145. 10.1034/j.1600-0838.2000.010003123.x10843507Open DOISearch in Google Scholar

3. Kor A. (2015). Dynamic techniques for clinical assessment of the athlete. Clinics in Podiatric Medicine and Surgery 32(2), 217-229. 10.1016/j.cpm.2014.11.00425804711Search in Google Scholar

4. Drust B., Waterhouse J., Atkinson G., Edwards B., Reilly T. (2005). Circadian rhythms in sports performance-an update. Chronobiology International 22(1), 21-44. 10.1081/CBI-20004103915865319Open DOISearch in Google Scholar

5. Bessot N., Nicolas A., Moussay S., Gauthier A., Sesboüé B., Davenne D. (2006). The effect of pedal rate and time of day on the time to exhaustion from high intensity exercise. Chronobiology International 23(5), 1009-1024. 10.1080/0742052060092072617050214Open DOISearch in Google Scholar

6. Bernard T., Giacomoni M., Gavarry O., Seymat M., Falgairette G. (1997). Time-of-day effects in maximal anaerobic leg exercise. European Journal of Applied Physiology and Occupational Physiology 77(1), 133-138. 10.1007/s0042100503119459533Search in Google Scholar

7. Reilly T., Atkinson G., Edwards B., Waterhouse J., Farrelly K., Fairhurst E. (2007). Diurnal variation in temperature, mental and physical performance, and tasks specifically related to football (soccer). Chronobiology International 24(3), 507-519. 10.1080/0742052070142070917612948Open DOISearch in Google Scholar

8. Reilly T., Marshall S. (1991). Circadian rhythms in power output on a swim bench. Journal of Swimming Research 7(2), 11-13. Search in Google Scholar

9. Gribble P.A., Hertel J. (2003). Considerations for normalizing measures of the Star Excursion Balance Test. Measurement in Physical Education and Exercise Science 7(2), 89-100. 10.1207/S15327841MPEE0702_3Search in Google Scholar

10. Zouabi A., Quarck G., Martin T., Grespinet M., Gauthier A. (2016). Is there a circadian rhythm of postural control and perception of the vertical? Chronobiology International 33(10), 1320-1330. 10.1080/07420528.2016.121599327537825Search in Google Scholar

11. di Cagno A., Fiorilli G., Iuliano E., Aquino G., Giombini A., Battaglia C. et al. (2014). Time-of-day effects on static and dynamic balance in elite junior athletes and untrained adolescents. International Journal of Sports Science and Coaching 9(4), 615-625. 10.1260/1747-9541.9.4.615Search in Google Scholar

12. Schlesinger A., Redfern M.S., Dahl R.E., Jennings J.R. (1998). Postural control, attention and sleep deprivation. Neuroreport 9(1), 49-52. 10.1097/00001756-199801050-000109592046Open DOISearch in Google Scholar

13. Waterhouse J., Drust B., Weinert D., Edwards B., Gregson W., Atkinson G. et al. (2005). The circadian rhythm of core temperature: Origin and some implications for exercise performance. Chronobiology International 22(2), 207-225. 10.1081/CBI-20005347716021839Open DOISearch in Google Scholar

14. Baghbani F., Woodhouse L.J., Gaeini A.A. (2016). Dynamic postural control in female athletes and nonathletes after a whole-body fatigue protocol. The Journal of Strength and Conditioning Research 30(7), 1942-1947. 10.1519/JSC.000000000000127527328275Open DOISearch in Google Scholar

15. Isler A. (2005). Investigation of circadian changes in anaerobic performance. Hacettepe Journal of Sports Sciences 16(4), 174-184. [in Turkish] Search in Google Scholar

16. Ozturk M. (2005). The determination of validity and reliability of the International physical activity questionnaire and the physical activity level in university students. Master’s thesis. Hacettepe University, Institute of Health Sciences, Ankara. [in Turkish] Search in Google Scholar

17. Horne J.A., Ostberg O. (1975). A self-assessment questionnaire to determine morningness-eveningness in human circadian rhythms. International Journal of Chronobiology 4(2), 97-110. Search in Google Scholar

18. Punduk Z., Gur H., Ercan I. (2005). Reliability of Turkish the morning and evening type questionnaire. Türk Psikiyatri Dergisi 16(1), 40-45. [in Turkish] Search in Google Scholar

19. Izci B., Ardic S., Firat H., Sahin A., Altinors M., Karacan I. (2008). Reliability and validity studies of the Turkish version of the Epworth Sleepiness Scale. Sleep and Breathing 12(2), 161-168. 10.1007/s11325-007-0145-717922157Open DOISearch in Google Scholar

20. Sabin M.J. (2011). Reliability and validity of the Condition- Modified Star Excursion Balance Test: Influence of concus sion history. Champaign, Illinois: University of Illinois at Urbana-Champaign. Search in Google Scholar

21. Robinson R.H., Gribble P.A. (2008). Support for a reduction in the number of trials needed for the star excursion balance test. Archives of Physical Medicine and Rehabilitation 89(2), 364-370. 10.1016/j.apmr.2007.08.13918226664Search in Google Scholar

22. Gribble P.A., Hertel J., Denegar C.R., Buckley W.E. (2004). The effects of fatigue and chronic ankle instability on dynamic postural control. Journal of Athletic Training 39(4), 321-329. Search in Google Scholar

23. Gribble P.A., Tucker W.S., White P.A. (2007). Time-of-day influences on static and dynamic postural control. Journal of Athletic Training 42(1), 35-41. Search in Google Scholar

24. Riemann B.L., Caggiano N.A., Lephart S.M. (1999). Examination of a clinical method of assessing postural control during a functional performance task. Journal of Sport Rehabilitation 8(3), 171-183. 10.1123/jsr.8.3.171Open DOISearch in Google Scholar

25. Zemková E., Viitasalo J., Hannola H., Blomqvist M., Konttinen N., Mononen K. (2007). The effect of maximal exercise on static and dynamic balance in athletes and nonathletes. Medicina Sportiva 11(3), 70-77. 10.2478/v10036-007-0014-2Search in Google Scholar

26. Arnold B.L., Schmitz R.J. (1998). Examination of balance measures produced by the Biodex Stability System. Journal of Athletic Training 33(4), 323-327. Search in Google Scholar

27. Kinzey S.J., Armstrong C.W. (1998). The reliability of the star-excursion test in assessing dynamic balance. Journal of Orthopaedic and Sports Physical Therapy 27(5), 356-360. 10.2519/jospt.1998.27.5.3569580895Search in Google Scholar

28. Seliga R., Bhattacharya A., Succop P., Wickstrom R., Smith D., Willeke K. (1991). Effect of work load and respirator wear on postural stability, heart rate, and perceived exertion. The American Industrial Hygiene Association Journal 52(10), 417-422. 10.1080/152986691913649651951051Search in Google Scholar

29. Reilly T., Atkinson G., Waterhouse J. (2000). Chronobiology and physical performance. Exercise and Sport Science 24, 351-372. Search in Google Scholar

30. Atkinson G., Todd C., Reilly T., Waterhouse J. (2005). Diurnal variation in cycling performance: Influence of warm-up. Journal of Sports Sciences 23(3), 321-329. 10.1080/0264041041000172991915966350Open DOISearch in Google Scholar

31. Jorgensen M., Rathleff M.S., Laessoe U., Caserotti P., Nielsen O., Aagaard P. (2012). Time-of-day influences postural balance in older adults. Gait and Posture 35(4), 653-657. 10.1016/j.gaitpost.2011.12.01822390960Search in Google Scholar

32. Kwon Y.H., Choi Y.W., Nam S.H., Lee M.H. (2014). The influence of time of day on static and dynamic postural control in normal adults. Journal of Physical Therapy Science 26(3), 409-412. 10.1589/jpts.26.409397601324707094Open DOISearch in Google Scholar

33. Heinbaugh E.M., Smith D.T., Zhu Q., Wilson M.A., Dai B. (2015). The effect of time-of-day on static and dynamic balance in recreational athletes. Sports Biomechanics 14(3), 361-373. 10.1080/14763141.2015.108403626517605Search in Google Scholar

34. Erkmen N., Taşkın H., Kaplan T., Sanioglu A. (2009). The effect of fatiguing exercise on balance performance as measured by the balance error scoring system. Isokinetics and Exercise Science 17(2), 121-127. 10.3233/IES-2009-0343Search in Google Scholar

35. Plisky P.J., Rauh M.J., Kaminski T.W., Underwood F.B. (2006). Star Excursion Balance Test as a predictor of lower extremity injury in high school basketball players. Journal of Orthopaedic and Sports Physical Therapy 36(12), 911-919. 10.2519/jospt.2006.224417193868Search in Google Scholar

36. Denizoglu H. (2010). Correlation between Q angle and balance in healthy individuals. Master’s thesis. Abant Izzet Baysal University, Institute of Health Sciences, Burdur. [in Turkish] Search in Google Scholar

37. Stelmach G.E., Worringham C.J., Strand E.A. (1987). The programming and execution of movement sequences in Parkinson’s disease. International Journal of Neuroscience 36(1-2), 55-65. 10.3109/002074587090021393654092Open DOISearch in Google Scholar

38. Hill D., Smith J. (1991). Circadian rhythm in anaerobic power and capacity. Canadian Journal of Sport Sciences 16(1), 30-32. Search in Google Scholar

39. Melhim A.F. (1993). Investigation of circadian rhythms in peak power and mean power of female physical education students. International Journal of Sports Medicine 14(6), 303-306. 10.1055/s-2007-10211828407059Open DOISearch in Google Scholar

40. Sekir U., Ozyener F., Gur H. (2002). Effect of time of day on the relationship between lactate and ventilatory thresholds: A brief report. Journal of Sports Science and Medicine 1(4), 136-140. Search in Google Scholar

41. Martin L., Thompson K. (2000). Reproducibility of diurnal variation in sub-maximal swimming. International Journal of Sports Medicine 21(06), 387-392. 10.1055/s-2000-382910961512Open DOISearch in Google Scholar

42. Edwards B., Edwards W., Waterhouse J., Atkinson G., Reilly T. (2005). Can cycling performance in an early morning, laboratory-based cycle time-trial be improved by morning exercise the day before? International Journal of Sports Medicine 26(08), 651-656. 10.1055/s-2004-83043916158370Search in Google Scholar

43. West D.J., Cook C.J., Beaven M.C., Kilduff L.P. (2014). The influence of the time of day on core temperature and lower body power output in elite rugby union sevens players. The Journal of Strength and Conditioning Research 28(6), 1524-1528. 10.1519/JSC.000000000000030124149752Open DOISearch in Google Scholar

44. Davlin C.D. (2004). Dynamic balance in high level athletes. Perceptual and Motor Skills 98(3 Suppl.), 1171-1176.10.2466/pms.98.3c.1171-117615291203Open DOISearch in Google Scholar

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