Acute effects of static and dynamic stretching on preparation and neuromuscular activation for resistance exercise practice: an integrative review
DOI:
https://doi.org/10.33448/rsd-v11i17.38935Keywords:
Physical exercise; Static and dynamic stretching; Muscle strength.Abstract
Strength and flexibility help people achieve healthy levels of physical fitness and functional autonomy and play key roles in reducing sports injuries and improving skills (Li et al., Mahesh, Joladarashi, and Kulkarni). In this sense, the objective of this work is to verify, in the light of the current literature, the acute effects of static and dynamic stretching on the preparation and neuromuscular activation for the practice of resistance exercise. This work is an integrative review, studies were searched in the database: National Library of Medicine of the United States - PUBMED, WEB OF SCIENCE and SCIENCE DIRECT, from June to November 2022. Most of the studies consulted show that does occur, improvement in ROM both soon after AE and AD, however, with damage to strength peaks, which in conclusion is inappropriate as part of the preparation before the practice of TR. On the other hand, three of the consulted studies reported that there is no such damage to the manifestations of muscle strength when using both AE and AD.
References
American College of Sports Medicine. (2019). Manual ACSM para la valoración y prescripción del ejercicio. Paidotribo.
Angulo, J., El Assar, M., Álvarez-Bustos, A., & Rodríguez-Mañas, L. (2020). Physical activity and exercise: Strategies to manage frailty. Redox biology, 35, 101513.
Balachandran, A. T., Steele, J., Angielczyk, D., Belio, M., Schoenfeld, B. J., Quiles, N., ... & Abou-Setta, A. M. (2022). Comparison of Power Training vs Traditional Strength Training on Physical Function in Older Adults: A Systematic Review and Meta-analysis. JAMA network open, 5(5), e2211623-e2211623.
Babault, N., Hitier, M., & Cometti, C. (2022). Usefulness of Surface Electromyography Complexity Analyses to Assess the Effects of Warm-Up and Stretching during Maximal and Sub-Maximal Hamstring Contractions: A Cross-Over, Randomized, Single-Blind Trial. Biology, 11(9), 1337.
Brodeur, Z. R., Paustian, M. J., Monteleone-Haught, D. A., Lamm, R. A., Pagano, A. G., & Ellis, C. E. (2022). The Effects of Static and Dynamic Stretching on Muscle Oxygen Saturation in the Rectus Femoris. International Journal of Exercise Science, 15(3), 702-708.
Cai, Y., Tian, Q., Gross, A. L., Wang, H., E, J. Y., Agrawal, Y., ... & Schrack, J. A. (2022). Motor and physical function impairments as contributors to slow gait speed and mobility difficulty in middle-aged and older adults. The Journals of Gerontology: Series A, 77(8), 1620-1628.
Ceballos-Laita, L., Jiménez-del-Barrio, S., Marín-Zurdo, J., Moreno-Calvo, A., Marín-Boné, J., Albarova-Corral, M. I., & Estébanez-de-Miguel, E. (2022). Comparison of dry needling and self-stretching in muscle extensibility, pain, stiffness, and physical function in hip osteoarthritis: A randomized controlled trial. Complementary Therapies in Clinical Practice, 49, 101667.
Fowles, J. R., Sale, D. G., & MacDougall, J. D. (2000). Reduced strength after passive stretch of the human plantarflexors. Journal of applied physiology.
Hanssen, B. (2022). Muscle structure, weakness and strengthening: a complex traingle for children with spastic cerebral palsy (Doctoral dissertation, Ghent University).
Hou, H. Y., & Li, H. J. (2022). Effects of exergame and video game training on cognitive and physical function in older adults: A randomized controlled trial. Applied Ergonomics, 101, 103690.
Kasahara, K., Konrad, A., Yoshida, R., Murakami, Y., Sato, S., Koizumi, R., ... & Nakamura, M. The comparison between foam rolling either combined with static or dynamic stretching on knee extensors’ function and structure. Biology of Sport, 40(3), 753-760.
Kaufmann, J. E., Nelissen, R. G., Stubbe, J. H., & Gademan, M. G. (2022). Neuromuscular Warm-Up is Associated with Fewer Overuse Injuries in Ballet Dancers Compared to Traditional Ballet-Specific Warm-Up. Journal of Dance Medicine & Science, 26(4), 244-254.
Kokkonen, J., Nelson, A. G., & Cornwell, A. (1998). Acute muscle stretching inhibits maximal strength performance. Research quarterly for exercise and sport, 69(4), 411-415.
Li, S., Wang, L., Xiong, J., & Xiao, D. (2022). Gender-Specific Effects of 8-Week Multi-Modal Strength and Flexibility Training on Hamstring Flexibility and Strength. International Journal of Environmental Research and Public Health, 19(22), 15256.
Lyons, K. (2022). Examining the Effect of Muscle Asymmetry on Physical Function in Middle Aged Women (Doctoral dissertation, University of Rhode Island).
Lynch, M., Bucknall, M., Jagger, C., & Wilkie, R. (2022). Projections of healthy working life expectancy in England to the year 2035. Nature Aging, 2(1), 13-18.
Marchetti, P. H., Miyatake, M. M., Magalhaes, R. A., Gomes, W. A., Da Silva, J. J., Brigatto, F. A., ... & Behm, D. G. (2022). Different volumes and intensities of static stretching affect the range of motion and muscle force output in well-trained subjects. Sports biomechanics, 21(2), 155-164.
McBurnie, A. J., Parr, J., Kelly, D. M., & Dos' Santos, T. (2022). Multidirectional speed in youth soccer players: Programming considerations and practical applications. Strength and Conditioning Journal, 44(2), 10-32.
Mahesh, V., Joladarashi, S., & Kulkarni, S. M. (2022). An experimental study on adhesion, flexibility, interlaminar shear strength, and damage mechanism of jute/rubber-based flexible “green” composite. Journal of Thermoplastic Composite Materials, 35(2), 149-176.
Moreira, O. C., Cardozo, R. M. B., Vicente, M. D. A., de Matos, D. G., Mazini Filho, M. L., Guimarães, M. P., ... & de Oliveira, C. E. P. (2022). Acute effect of stretching prior to resistance training on morphological, functional and activation indicators of skeletal muscle in young men. Sport Sciences for Health, 18(1), 193-202.
Mukhopadhyay, K. (2022). Modern Scientific Innovations in Warming Up and Cool-Down in Sports. J Adv Sport Phys Edu, 5(7), 166-175.
Nakamura, M., Suzuki, Y., Yoshida, R., Kasahara, K., Murakami, Y., Hirono, T., ... & Konrad, A. (2022). The Time-Course Changes in Knee Flexion Range of Motion, Muscle Strength, and Rate of Force Development After Static Stretching. Front. Physiol. 13: 917661. doi: 10.3389/fphys. 2022.917661. Frontiers in Physiology| www. frontiersin. org, 13.
Nelson, A. G., Allen, J. D., Cornwell, A., & Kokkonen, J. (2001). Inhibition of maximal voluntary isometric torque production by acute stretching is joint-angle specific. Research quarterly for exercise and sport, 72(1), 68-70.
Opplert, J., & Babault, N. (2018). Acute effects of dynamic stretching on muscle flexibility and performance: an analysis of the current literature. Sports Medicine, 48(2), 299-325.
Orlando, G., Bubbear, J., Clarke, S., Keen, R., Roy, M., Anilkumar, A., ... & Ireland, A. (2022). Physical function and physical activity in adults with X-linked hypophosphatemia. Osteoporosis International, 33(7), 1485-1491.
Ruzmatovich, U. S., & Abdknabievna, Q. D. (2022). Health exercises focused on the development of strong physical qualities. World Bulletin of Social Sciences, 8, 46-48.
Taani, M. H., Strath, S. J., Cho, C. C., Ellis, J., & Oh, H. (2022). Objective physical activity levels, sedentary time, and muscle mass, strength, and function: Impact on physical and mental health-related quality of life in older adults. Research in Gerontological Nursing, 1-9.
Wagner, J., Knaier, R., Infanger, D., Arbeev, K., Briel, M., Dieterle, T., ... & Schmidt-Trucksäss, A. (2019). Functional aging in health and heart failure: the COmPLETE Study. BMC cardiovascular disorders, 19(1), 1-17.
Warneke, K., Wohlann, T., Lohmann, L. H., Wirth, K., & Schiemann, S. (2022). Acute effects of long-lasting stretching and strength training on maximal strength and flexibility in the calf muscle. German Journal of Exercise and Sport Research, 1-7.
Warneke, K., Keiner, M., Hillebrecht, M., & Schiemann, S. (2022). Influence of One Hour versus Two Hours of Daily Static Stretching for Six Weeks Using a Calf-Muscle-Stretching Orthosis on Maximal Strength. International Journal of Environmental Research and Public Health, 19(18), 11621.
Xing, Y. (2022, June). Is Genome Instability a Significant Cause of Aging? A Review. In 2022 8th International Conference on Humanities and Social Science Research (ICHSSR 2022) (pp. 1432-1445). Atlantis Press.
Yang, Y., van Schooten, K. S., Komisar, V., McKay, H. A., Sims-Gould, J., Cheong, D., & Robinovitch, S. N. (2022). Effects of the Mobility-Fit Physical Activity Program on Strength and Mobility in Older Adults in Assisted Living: A Feasibility Study. International Journal of Environmental Research and Public Health, 19(9), 5453.
Schäfer, E., Bürklein, S., & Donnermeyer, D. (2022). A critical analysis of research methods and experimental models to study the physical properties of NiTi instruments and their fracture characteristics. International Endodontic Journal, 55, 72-94.
Scarpelli, M. C., Nóbrega, S. R., Santanielo, N., Alvarez, I. F., Otoboni, G. B., Ugrinowitsch, C., & Libardi, C. A. (2022). Muscle hypertrophy response is affected by previous resistance training volume in trained individuals. Journal of Strength and Conditioning Research, 36(4), 1153-1157.
Simpkins, C., & Yang, F. (2022). Muscle power is more important than strength in preventing falls in community-dwelling older adults. Journal of biomechanics, 134, 111018.
Støvland, V. R. (2022). Prepare to fail or failing to prepare?: Acute performance after FIFA 11+ with and without strength exercises: A randomised crossover study (Master's thesis).
Türkmen, D., Günay, E., Güdücü, Ç., Öniz, A., & Bediz, C. Ş. (2022). Effect of Post-Warm-Up Three Different Duration Self-Selected Active Rests on 100 Meter Swimming Performance: Preliminary Findings. Montenegrin Journal of Sports Science and Medicine, 11(2), 57-64.
Young, W. B., & Behm, D. G. (2003). Effects of running, static stretching and practice jumps on explosive force production and jumping performance. Journal of sports medicine and physical fitness, 43(1), 21-27.
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