Abstract
The aim of this study was to determine the effect of the cupping therapy on the muscles and autonomic nervous system. Five healthy participants were recruited for the arm cranking tests. The protocols include a 1st 12-min bout, 20-min recovery, and 2nd 12-min bout. The cupping therapy (negative pressure of 300–450 mmHg on the upper back and shoulder muscles) was applied during the recovery period of experimental trials. The median frequency (MDF) of electromyographic signals and the heart rate variability (HRV) were used to objectively quantify the degree of muscle fatigue and cardiovascular regulations. The repeated measures ANOVA was applied to determine the differences. Our results showed that MDF was significantly higher in the experimental trials but the HRV was not significantly different between the experimental and control trials. Our study indicates that the role of cupping therapy may reduce muscle fatigue but do not alter the cardiorespiratory controls.
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References
Bompa, T.O.: Theory and Methodology of Training: the Key to Athletic Performance. Kendall Hunt Publishing Company, Dubuque (1994)
Barnett, A.: Using recovery modalities between training sessions in elite athletes. Sports Med. 36(9), 781–796 (2006)
Mehta, P., Dhapte, V.: Cupping therapy: A prudent remedy for a plethora of medical ailments. J. Tradit. Complement Med. 5(3), 127–134 (2015)
Lauche, R., et al.: Effectiveness of home-based cupping massage compared to progressive muscle relaxation in patients with chronic neck pain—a randomized controlled trial. PLoS ONE 8(6), e65378 (2013)
Hanan, S., Eman, S.: Cupping therapy (al-hijama): it’s impact on persistent non-specific lower back pain and client disability. Life Sci J 10(4), 631–642 (2013)
Mccabe, P.J.: Complementary therapies in nursing and midwifery: from vision to practice (2001)
Arslan, M., et al.: Wet cupping therapy restores sympathovagal imbalances in cardiac rhythm. J. Altern. Complement. Med. 20(4), 318–321 (2014)
Lewis, M.J., et al.: Rate of reduction of heart rate variability during exercise as an index of physical work capacity. Scandinavian J. Med. Sci. Sports 17(6), 696–702 (2007)
Micklewright, D., et al.: Blood lactate removal using combined massage and active recovery. Biol. Sport 23(4), 315 (2006)
Rozenfeld, E., Kalichman, L.: New is the well-forgotten old: the use of dry cupping in musculoskeletal medicine. J. Bodywork Mov. Ther. 20(1), 173–178 (2016)
Leicht, A., Sealey, R., Sinclair, W.: The reliability of VO2peak determination in healthy females during an incremental arm ergometry test. Int. J. Sports Med. 30(07), 509–515 (2009)
Forman, D.E., et al.: Cardiopulmonary exercise testing: relevant but underused. Postgrad. Med. 122(6), 68–86 (2010)
Bressel, E., et al.: The effect of handgrip position on upper extremity neuromuscular responses to arm cranking exercise. J. Electromyogr. Kinesiol. 11(4), 291–298 (2001)
Kuo, T.B., et al.: Effect of aging on gender differences in neural control of heart rate. Am. J. Physiol. Heart Circ. Physiol. 277(6), H2233–H2239 (1999)
Heart rate variability standards of measurement, physiological interpretation, and clinical use. Task force of the European society of cardiology and the North American society of pacing and electrophysiology. Eur. Heart J. 17, 354–381 (1996)
Ament, W., et al.: EMG median power frequency in an exhausting exercise. J. Electromyogr. Kinesiol. 3(4), 214–220 (1993)
Merletti, R., Roy, S.: Myoelectric and mechanical manifestations of muscle fatigue in voluntary contractions. J. Orthop. Sports Phys. Ther. 24(6), 342–353 (1996)
Dimitrova, N., Dimitrov, G.: Interpretation of EMG changes with fatigue: facts, pitfalls, and fallacies. Journal of Electromyography and Kinesiology 13(1), 13–36 (2003)
Bernasconi, S.M., et al.: Changes in oxygen uptake, shoulder muscles activity, and propulsion cycle timing during strenuous wheelchair exercise. Spinal Cord 45(7), 468–474 (2007)
Buchheit, M., Laursen, P.B., Ahmaidi, S.: Parasympathetic reactivation after repeated sprint exercise. Am. J. Physiol. Heart Circ. Physiol. 293(1), H133–H141 (2007)
Cerny, F.J., Ucer, C.: Arm work interferes with normal ventilation. Appl. Ergonomics 35(5), 411–415 (2004)
Chen, C-L., et al.: Immediate effects of smoking on cardiorespiratory responses during dynamic exercise: arm vs. leg ergometry. Front. Physiol. 6, 376 (2015)
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Chen, CL., Lung, CW., Jan, YK., Liau, BY., Tang, JS. (2018). The Effects of Cupping Therapy on Reducing Fatigue of Upper Extremity Muscles—A Pilot Study. In: Ahram, T. (eds) Advances in Human Factors in Sports, Injury Prevention and Outdoor Recreation. AHFE 2017. Advances in Intelligent Systems and Computing, vol 603. Springer, Cham. https://doi.org/10.1007/978-3-319-60822-8_7
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