Journal of International Academy of Physical Therapy Research (국제물리치료학회지)

International Academy of Physical Therapy Research (국제물리치료연구학회)
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Effect of Static Recovery and Dynamic Recovery on the Cardiopulmonary Variables, Lower Extremity Muscle Activity after Progressive Resistance Exercise to Maximal Point

  • Received : 2010.09.23
  • Accepted : 2011.01.29
  • Published : 2011.03.31
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Abstract

This study was to examine on the respiratory variables, heart rate and muscle activity between the static recovery and dynamic recovery after progressive resistance exercise to maximal point. Subjects were 15 students enrolled in N University. All were tested two times (static recovery and dynamic recovery) and were requested to perform a walking on a treadmill after progressive resistance exercise to maximal point. Electromyography(EMG) was used to monitor the muscle activity(TA: Tibialis Anterior, MG: Medial Gastrocnemius) during gait. CPEX-1 was used to measure the respiratory variables and heart rate. The dynamic recovery group was shown the significant lower heart rate than that of static recovery group at during gait. Respiratory rate showed statistically a significant difference. Electromyography(RMS, root mean square) showed a non-significant difference. But the dynamic recovery group of muscle activity was found highly in TA and MG. This study indicated that the dynamic recovery method evidenced more faster than the static recovery method. And this type of dynamic rest by walking can be a help of recovery after exercise.

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References

  1. Ingram J, Dawson B, Goodman C, Wallman K, Beilby J. Effect of water immersion methods on post-exercise recovery from simulated team spot exercise. J Sci Med Sport 2009; 12(3): 417-421. https://doi.org/10.1016/j.jsams.2007.12.011
  2. Nicolas A, Gauthier A, Trouillet J, Davenne D. The influence of circadian rhythm during a sustained submaximal exercise and on recovery process. J Electromyogr Kinesiol 2008; 18(0): 284-290. https://doi.org/10.1016/j.jelekin.2006.10.003
  3. Na CS, Kwon YG. The effect of breathing styles on the first stage recovery capacity in college females. J kor physi educ associ for women 2000; 14(2): 69-76.
  4. Kim BJ, Lee DT, Cha KS. High Concentration Oxygen Breathing on Recovery Heart Rate and Lactate Level After Graded Exercise Intensity Application. J kor soci of Living Envior 2007; 14(2): 149-155.
  5. Jun TW, Lee BK. Effective methods of fatigue recovery on the active old aged man. Kor Soci Exerc Physio 1997; 6(1): 73-84.
  6. Mun BI. Influence of Recovery Types on Blood Lactate Acid before and after a High Intensity Exercise in Soccer Athletes. J sport leisure studies 2008; 20(1): 1135-1143.
  7. Lee WJ, Joo SB, Cho CM. Comparison of Physiological Responses Following to the Different Recovery Trials in Boxing Bout. J Kor health physi educ 2001; 40(4): 665-675.
  8. Maughan RJ, Shirreffs SM. Rehydration and recovery after exercise. Sci Sport 2004; 19(5): 234-238. https://doi.org/10.1016/j.scispo.2004.05.003
  9. Kwon YC, Beak JH, Chea JH, Park SK, Yun MS. The Effect of Sports Massage on Cardiopulmonary Function and Lactate Concentration During recovery After Maximal Exercise. J Kor health physi educ 2001; 40(3): 825-834.
  10. Ok JS. The effect of exercise recovery on metablic and hormonal responses during the postexercise recovery period. Seoul National Univ 1991.
  11. Belcastro AN, Bonen A. Latic and removal rates during s controlled and uncontrolled recovery exercise. J Appl Physiol 1975; 39(0): 938-935.
  12. Kim KJ. Analysis of the Detailed Physiological Capacity with the Graded Maximal Testing in Athletes. J kor Sport Medi 1999; 17(1): 115-123.
  13. Kim SH. Influence of fatigue factor according to recovery types after maximal exercise. Chonbok National Univ 1995.
  14. Gordon LW, Ruth MM, Elizabeth JH. Temporal patterns of plantar pressures and lower-leg muscle activity during walking: effect of speed. Gait Posture 2004; 19(1): 91-100. https://doi.org/10.1016/S0966-6362(03)00031-6
  15. Park SH, Byun YS, Lee GS. A Study on EMG Signal Processing Using Linear Prediction. Kor J Institu Electro Engin 1987; 24(2): 280-291.
  16. Choi YH, Byun YS, Kim CJ, Kim SH. muscle Fatigue Monitoring Using Adaptive Digital Filter. Kor J Institu Electro Engin 1998; 25(9): 1074- 1080.
  17. Jung HC, Seok HK, Lee JP. The Effect of Icing Recovery-method on HR, Rlasma lactate concentration and Exercise Performance after 400m Running. Kor J Sport Sci 2003; 12(1): 539-546.
  18. Han JS, Kawk HS. Quantification of Degree of Fatigue in Back Muscle and Its Influence on Back Injury Using Electromyography Measurement. kor soci med bio engin 2008; 21(2): 219-224.
  19. Gordon LP, Eric JV. Assessing autonomic function by analysis of heart rate recovery from exercise in healthy subjects. Am J Cardiol 2004; 94(1): 64-68. https://doi.org/10.1016/j.amjcard.2004.07.021
  20. Kim WH, Kim DY. The Relation between Muscular Endurance of Lower extremity and Incremental Treadmill Exercise Testing. J Kor health physi educ. 2006; 45(5): 407-418.
  21. Jung HC, Seok HK, Lee JP. The Effect of Icing Recovery-method on HR, Rlasma lactate concentration and Exercise Performance after 400m Running. Kor J Sport Sci 2003; 12(1): 539-546.
  22. Oh SH, Ku HJ, Lee, JG. Effects of Exerciserecovery and Rest-recovery after Graded Exercise Test, J kor physi educ associ for women 2004; 18(1): 77-84.
  23. Kong UD. Effect of Active and Passive Recovery on Subsequent Treadmill Running Performance. J Kor health physi educ 1984; 23(2): 73-82.
  24. Astrand PO, Hallback I, Hedman R. Blood lactates after prolonged severe exercise. J App Physi, 1963; 18(6): 619-622. https://doi.org/10.1152/jappl.1963.18.3.619
  25. Julie S, Leslie LD, Carol FD. Exercise and heart rate recovery. Heart & Lung 2006; 35(6): 383- 390. https://doi.org/10.1016/j.hrtlng.2006.07.003
  26. Vaccaro P, Clarke DH. Cardiorespiratory alterations in 9 to 11 year old children following a season of competitive swimming. Med sci sports, 1978; 10(3): 204-207.
  27. Hur NY, Park CB. A Study on the Recovery Method after Maximal Exercise Load in Male Athletes. Kyung Hee Univ Institu Sport Sci 1993; 21(12): 35-42.
  28. Rob D, Johann E, David B. Effects of high-intensity interval training on the VO2 response during severe exercise. J Sci Med Sport 2006; 9(0): 249-255. https://doi.org/10.1016/j.jsams.2006.03.014
  29. Ward SA, Blesovsky L, Russak S, Ashjian A, Whipp BJ. Chemoreflex modulation of ventilatory dynamics during exercise in humans. J Appl Physiol 1987; 63(5):2001-2007. https://doi.org/10.1152/jappl.1987.63.5.2001
  30. Beaumont WV, Underkofler S, Beaumont SV. Erythrocyte volume, plasma volume and acid base changes in exercise and heat dehydration. J App Physi Respiratory 1981; 50(6): 1255-1262. https://doi.org/10.1152/jappl.1981.50.6.1255
  31. Greg DW, Stephen RN. Assessment of physiological capacities of elite athletes & respiratory limitations to exercise performance. Paediatr Respir Rev 2009; 10(4): 91-98. https://doi.org/10.1016/j.prrv.2009.04.002
  32. Andreassen S and Arendt-Nilsen L. Muscle fiber conduction velocity in motor units of the human anterior tibial muscle: a new size principle parameter. J physi 1987; 391(0): 561-571.
  33. Hong WS, Kim GW, Kim BK, Oh JL. Electromyographic Fatigue Analysis of the Gastrocnemius and Soleus. J Kor J Phys Ther Sci 2002; 14(4): 203-211.
  34. Bilodeau M, Schindler-Ivens S, Williams DM. Chandra R, Sharma SS. EMG frequency content changes with increasing force and during fatigue in the quadriceps femoris muscle of men and women. J Electromyogr Kinesiol 2003; 13(1): 83- 92. https://doi.org/10.1016/S1050-6411(02)00050-0