Muscle Activity during Dryland Swimming while Wearing a Triathlon Wetsuit
Abstract
Background: Triathletes typically wear a wetsuit during the swim portion of an event, but it is not clear if muscle activity is influenced by wearing a wetsuit. Purpose: To investigate if shoulder muscle activity was influenced by wearing a full-sleeve wetsuit vs. no wetsuit during dryland swimming. Methods: Participants (n=10 males; 179.1±13.2 cm; 91.2±7.25 kg; 45.6±10.5 years) completed two dry land swimming conditions on a swim ergometer: No Wetsuit (NW) and with Wetsuit (W). Electromyography (EMG) of four upper extremity muscles was recorded (Noraxon telemetry EMG, 500 Hz) during each condition: Trapezius (TRAP), Triceps (TRI), Anterior Deltoid (AD) and Posterior Deltoid (PD). Each condition lasted 90 seconds with data collected during the last 60 seconds. Resistance setting was self-selected and remained constant for both conditions. Stroke rate was controlled at 60 strokes per minute by having participants match a metronome. Average (AVG) and Root Mean Square (RMS) EMG were calculated over 45 seconds and each were compared between conditions using a paired t-test (α=0.05) for each muscle. Results: PD and AD AVG and RMS EMG were each greater (on average 40.0% and 66.8% greater, respectively) during W vs. NW (p<0.05) while neither TRAP nor TRI AVG or RMS EMG were different between conditions (p>0.05). Conclusion: The greater PD and AD muscle activity while wearing a wetsuit might affect swimming performance and /or stroke technique on long distance event.
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Chatard, J.C., & Millet, G. (1996). Effects of wetsuit use in swimming events: Practical recommendations. Sports Medicine, 22(2), 70-75.
Chatard, J.C., Senegas, M., Dreanot, P., & Geyssant (1995). Wet suit effect: A comparison between competitive swimmers and triathletes. Medicine and Science in Sports and Exercise, 27(4), 580-586.
Cordain, L., & Kopriva, R. (1991). Wetsuits, body density and swimming performance. British Journal of Sports Medicine, 25(1), 31-33.
Corona, L.J., Simmons, G.H., Nessler, J.A., & Newcomer, S.C. (2017). Characterisation of regional skin temperatures in recreational surfers wearing a 2-mm wetsuit. Ergonomics, 1-7.
DeLuca, C. (1997). The use of surface electromyography in biomechanics. Journal of Applied Biomechanics, 13(2), 135-163.
Figueiredo, P., Sanders, R., Gorski, T., Vilas-Boas, J.P., & Fernandes, R.J. (2013). Kinematic and electromyographic changes during 200 m front crawl at race pace. International Journal of Sports Medicine, 34(1), 49-55.
Fröhlich, M., Balter, J., Pieter, A., Schwarz, M., & Emrich, E. (2013). Model-theoretic optimization approach to triathlon performance under comparative static conditions – Results based on the Olympic Games 2012, International Journal of Kinesiology & Sports Science, 1(3), 9-14.
Hawley, J. A., Williams, M.M., Vickovic, M.M., Handcock, P.J. (1992). Muscle power predicts freestyle swimming performance. British Journal of Sports Medicine, 26(3), 151-5.
Hermens, H.J., Freriks, B., Disselhorst-Klyg, C., Rau, G. (2000). Development of recommendations for SEMG sensors and sensor placement procedures. Journal of Electromyography and Kinesiology, 10(5), 361-374.
Ikuta, Y., Matsuda, Y., Yamada, Y., Kida, N., Oda, S., & Moritani, T. (2012). Relationship between decreased swimming velocity and muscle activity during 200-m front crawl. European Journal of Applied Physiology, 112(9), 3417-3429.
Martens, J., Daly, D., Deschamps, K., Staes, F., Fernandes, R.J. (2016). Inter-individual variability and pattern recognition of surface electromyography in front crawl swimming. Journal of Electromyography and Kinesiology, 31, 14-21.
Martens, J., Figueiredo, P., & Daly, D. (2015). Electromyography in the four competitive swimming strokes: A systematic review. Journal of Electromyography and Kinesiology, 25(2), 273-291.
Murry, K., McManus, C., & Parry, D. (2014). The validity of the VAS swim ergometer in the assessment of swimmers in the laboratory. Journal of Sports Sciences, 32(s2), 43.
Naebe, M., Robins, N., Wang, X., & Collins, P. (2013). Assessment of performance properties of wetsuits. Journal of Sports Engineering and Technology, 227(4), 255-264.
Nessler, J. A., Silvas, M., Carpenter, S., Newcomer, S. C. (2015). Wearing a wetsuit alters upper extremity motion during simulated surfboard paddling. PLoS ONE, 10(11), e0142325.
Pink, M., Perry, J., Browne, A., Scovazzo, M. L., Kerrigan, J. (1991). The normal shoulder during freestyle swimming: An electromyographic and cinematographic analysis of twelve muscles. American Journal of Sports Medicine, 19(6), 569-576.
Ulsamer, S., Rüst, A.C., Rosemann, T., Lepers, R., Knechtle, B. (2014). Swimming performances in long distance open-water events with and without wetsuit. BMC Sports Science, Medicine, and Rehabilitation, 6(20), 1-13.
Wakabayashi, H., Hanai, A., Yokoyama, S., & Normura, T. (2006). Thermal insulation and body temperature wearing a thermal swimsuit during water immersion. Journal of Physiological Anthropology, 25(5), 331-338.
DOI: https://doi.org/10.7575/aiac.ijkss.v.6n.1p.7
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