The impact of acute blood-flow-restriction resistance exercise on somatosensory-evoked potentials in healthy adults.
biceps curl
blood‐flow restriction
somatosensory excitability
somatosensory‐evoked potentials
Journal
Experimental physiology
ISSN: 1469-445X
Titre abrégé: Exp Physiol
Pays: England
ID NLM: 9002940
Informations de publication
Date de publication:
04 Sep 2024
04 Sep 2024
Historique:
received:
25
03
2024
accepted:
12
08
2024
medline:
5
9
2024
pubmed:
5
9
2024
entrez:
5
9
2024
Statut:
aheadofprint
Résumé
Blood-flow-restriction exercise (BFR
Types de publication
Journal Article
Langues
eng
Sous-ensembles de citation
IM
Informations de copyright
© 2024 The Author(s). Experimental Physiology published by John Wiley & Sons Ltd on behalf of The Physiological Society.
Références
Amjad, I., Niazi, I. K., Toor, H. G., Nedergaard, R. B., Shafique, M., Holt, K., Haavik, H., & Ahmed, T. (2020). Acute effects of aerobic exercise on somatosensory‐evoked potentials in patients with mild cognitive impairment. Brain Sciences, 10(10), 663.
Baechle, T. R., & Earle, R. W. (2008). Essentials of strength training and conditioning. Haff, G. G., & Triplett, N. T. (Eds.), Fourth edition. Champaign, IL. Human Kinetics, 735 pages.
Bohannon, R. W. (2007). Muscle strength and muscle training after stroke. Journal of Rehabilitation Medicine, 39(1), 14–20.
Bulut, S., Ozmerdivenli, R., & Bayer, H. (2003). Effects of exercise on somatosensory‐evoked potentials. International Journal of Neuroscience, 113(3), 315–322.
Centner, C., & Lauber, B. (2020). A systematic review and meta‐analysis on neural adaptations following blood flow restriction training: What we know and what we don't know. Frontiers in Physiology, 11, 887.
Chuang, T. Y., Robinson, L. R., Nelson, M. R., Moss, F., & Chiou‐Tan, F. Y. (1999). Effect of isometric contraction on threshold somatosensory evoked potentials. American Journal of Physical Medicine & Rehabilitation, 78(1), 2–6.
Clark, B. C., Manini, T. M., Hoffman, R. L., Williams, P. S., Guiler, M. K., Knutson, M. J., McGlynn, M. L., & Kushnick, M. R. (2011). Relative safety of 4 weeks of blood flow‐restricted resistance exercise in young, healthy adults. Scandinavian Journal of Medicine & Science in Sports, 21(5), 653–662.
Cook, S. B., Murphy, B. G., & Labarbera, K. E. (2013). Neuromuscular function after a bout of low‐load blood flow‐restricted exercise. Medicine and Science in Sports and Exercise, 45(1), 67–74.
Cruccu, G., Aminoff, M. J., Curio, G., Guerit, J. M., Kakigi, R., Mauguiere, F., Rossini, P. M., Treede, R. D., & Garcia‐Larrea, L. (2008). Recommendations for the clinical use of somatosensory‐evoked potentials. Clinical Neurophysiology, 119(8), 1705–1719.
Early, K. S., Rockhill, M., Bryan, A., Tyo, B., Buuck, D., & McGinty, J. (2020). Effect of blood flow restriction training on muscular performance, pain and vascular function. International Journal of Sports Physical Therapy, 15(6), 892–900.
Ferguson, R. A., Hunt, J. E. A., Lewis, M. P., Martin, N. R. W., Player, D. J., Stangier, C., Taylor, C. W., & Turner, M. C. (2018). The acute angiogenic signalling response to low‐load resistance exercise with blood flow restriction. European Journal of Sport Science, 18(3), 397–406.
Ghigo, J., Erwin, A. C., & Erwin, C. W. (1991). Near‐field vs. far‐field evoked potentials. American Journal of EEG Technology, 31(2), 109–118.
Harris, J. E., & Eng, J. J. (2010). Strength training improves upper‐limb function in individuals with stroke: A meta‐analysis. Stroke; A Journal of Cerebral Circulation, 41(1), 136–140.
Hayashi, R., Ogata, K., Nakazono, H., & Tobimatsu, S. (2019). Modified ischaemic nerve block of the forearm: Use for the induction of cortical plasticity in distal hand muscles. The Journal of Physiology, 597(13), 3457–3471.
Hermens, H. J., Freriks, B., Disselhorst‐Klug, C., & Rau, G. (2000). Development of recommendations for SEMG sensors and sensor placement procedures. Journal of Electromyography and Kinesiology, 10(5), 361–374.
Hughes, L., Jeffries, O., Waldron, M., Rosenblatt, B., Gissane, C., Paton, B., & Patterson, S. D. (2018). Influence and reliability of lower‐limb arterial occlusion pressure at different body positions. PeerJ, 6, e4697.
Hureau, T. J., Romer, L. M., & Amann, M. (2018). The ‘sensory tolerance limit’: A hypothetical construct determining exercise performance? European Journal of Sport Science, 18(1), 13–24.
Husmann, F., Mittlmeier, T., Bruhn, S., Zschorlich, V., & Behrens, M. (2018). Impact of blood flow restriction exercise on muscle fatigue development and recovery. Medicine and Science in Sports and Exercise, 50(3), 436–446.
Jessee, M. B., Buckner, S. L., Dankel, S. J., Counts, B. R., Abe, T., & Loenneke, J. P. (2016). The influence of cuff width, sex, and race on arterial occlusion: Implications for blood flow restriction research. Sports Medicine (Auckland, N.Z.), 46(6), 913–921.
Jessee, M. B., Buckner, S. L., Mouser, J. G., Mattocks, K. T., Dankel, S. J., Abe, T., Bell, Z. W., Bentley, J. P., & Loenneke, J. P. (2018). Muscle adaptations to high‐load training and very low‐load training with and without blood flow restriction. Frontiers in Physiology, 9, 1448.
Jessee, M. B., Dankel, S. J., Buckner, S. L., Mouser, J. G., Mattocks, K. T., & Loenneke, J. P. (2017). The cardiovascular and perceptual response to very low load blood flow restricted exercise. International Journal of Sports Medicine, 38(8), 597–603.
Jones, S. C., Fernau, R., & Woeltjen, B. L. (2004). Use of somatosensory evoked potentials to detect peripheral ischemia and potential injury resulting from positioning of the surgical patient: Case reports and discussion. The Spine Journal: Official Journal of the North American Spine Society, 4(3), 360–362.
Kiernan, M. C., & Bostock, H. (2000). Effects of membrane polarization and ischaemia on the excitability properties of human motor axons. Brain, 123(Pt 12), 2542–2551.
Lang, M., Welte, M., Syben, R., & Hansen, D. (2002). Effects of hypothermia on median nerve somatosensory evoked potentials during spontaneous circulation. Journal of Neurosurgical Anesthesiology, 14(2), 141–145.
Lixandrao, M. E., Ugrinowitsch, C., Berton, R., Vechin, F. C., Conceicao, M. S., Damas, F., Libardi, C. A., & Roschel, H. (2018). Magnitude of muscle strength and mass adaptations between high‐load resistance training versus low‐load resistance training associated with blood‐flow restriction: A systematic review and meta‐analysis. Sports Medicine (Auckland, N.Z.), 48(2), 361–378.
Loenneke, J. P., Fahs, C. A., Wilson, J. M., & Bemben, M. G. (2011). Blood flow restriction: The metabolite/volume threshold theory. Medical Hypotheses, 77(5), 748–752.
Lopez‐Alburquerque, T., Garcia Miguel, A., Ruiz Ezquerro, J. J., & de Portugal Alvarez, J. (1987). Effect of ischaemia on somatosensory evoked potentials in diabetic patients. Journal of Neurology, Neurosurgery, and Psychiatry, 50(4), 428–434.
Maudrich, T., Hähner, S., Kenville, R., & Ragert, P. (2022). Somatosensory‐evoked potentials as a marker of functional neuroplasticity in athletes: A systematic review [systematic review]. Frontiers in Physiology, 12, 821605.
Mendonca, G. V., Mouro, M., Vila‐Cha, C., & Pezarat‐Correia, P. (2020). Nerve conduction during acute blood‐flow restriction with and without low‐intensity exercise nerve conduction and blood‐flow restriction. Scientific Reports, 10(1), 7380.
Mouser, J. G., Ade, C. J., Black, C. D., Bemben, D. A., & Bemben, M. G. (2018). Brachial blood flow under relative levels of blood flow restriction is decreased in a nonlinear fashion. Clinical Physiology and Functional Imaging, 38(3), 425–430.
Mouser, J. G., Dankel, S. J., Jessee, M. B., Mattocks, K. T., Buckner, S. L., Counts, B. R., & Loenneke, J. P. (2017). A tale of three cuffs: The hemodynamics of blood flow restriction. European Journal of Applied Physiology, 117(7), 1493–1499.
Mouser, J. G., Laurentino, G. C., Dankel, S. J., Buckner, S. L., Jessee, M. B., Counts, B. R., Mattocks, K. T., & Loenneke, J. P. (2017). Blood flow in humans following low‐load exercise with and without blood flow restriction. Applied Physiology, Nutrition and Metabolism, 42(11), 1165–1171.
Nakata, H., Oshiro, M., Namba, M., & Shibasaki, M. (2016). Effects of aerobic exercise under different thermal conditions on human somatosensory processing. American Journal of Physiology‐Regulatory, Integrative and Comparative Physiology, 311(4), R629–R636.
Nascimento, D. D. C., Rolnick, N., Neto, I. V. S., Severin, R., & Beal, F. L. R. (2022). A useful blood flow restriction training risk stratification for exercise and rehabilitation. Frontiers in Physiology, 13, 808622.
Patterson, S. D., Hughes, L., Warmington, S., Burr, J., Scott, B. R., Owens, J., Abe, T., Nielsen, J. L., Libardi, C. A., Laurentino, G., Neto, G. R., Brandner, C., Martin‐Hernandez, J., & Loenneke, J. (2019). Blood flow restriction exercise: Considerations of methodology, application, and safety. Frontiers in Physiology, 10, 533.
Pearson, S. J., & Hussain, S. R. (2015). A review on the mechanisms of blood‐flow restriction resistance training‐induced muscle hypertrophy. Sports Medicine (Auckland, N.Z.), 45(2), 187–200.
Perciavalle, V., Alagona, G., De Maria, G., Rapisarda, G., Costanzo, E., Perciavalle, V., & Coco, M. (2015). Somatosensory evoked potentials and blood lactate levels. Neurological Sciences, 36(9), 1597–1601.
Pollak, K. A., Swenson, J. D., Vanhaitsma, T. A., Hughen, R. W., Jo, D., White, A. T., Light, K. C., Schweinhardt, P., Amann, M., & Light, A. R. (2014). Exogenously applied muscle metabolites synergistically evoke sensations of muscle fatigue and pain in human subjects. Experimental Physiology, 99(2), 368–380.
Rodrigo‐Mallorca, D., Loaiza‐Betancur, A. F., Monteagudo, P., Blasco‐Lafarga, C., & Chulvi‐Medrano, I. (2021). Resistance training with blood flow restriction compared to traditional resistance training on strength and muscle mass in non‐active older adults: A systematic review and meta‐analysis. International Journal of Environmental Research and Public Health, 18(21), 11441.
Spitz, R. W., Wong, V., Bell, Z. W., Viana, R. B., Chatakondi, R. N., Abe, T., & Loenneke, J. P. (2022). Blood flow restricted exercise and discomfort: A review. Journal of Strength and Conditioning Research, 36(3), 871–879.
Thatte, M. R., & Mansukhani, K. A. (2011). Compressive neuropathy in the upper limb. Indian Journal of Plastic Surgery, 44(2), 283–297.
Vanwye, W. R., Weatherholt, A. M., & Mikesky, A. E. (2017). Blood flow restriction training: Implementation into clinical practice. International Journal of Exercise Science, 10(5), 649–654.
Walsh, P., Kane, N., & Butler, S. (2005). The clinical role of evoked potentials. Journal of Neurology, Neurosurgery & Psychiatry, 76(Suppl 2), ii16–ii22.
Yamada, T. (1988). The anatomie and physiologie bases of median nerve somatosensory evoked potentials. Neurologic Clinics, 6(4), 705–733.
Yamada, T., Muroga, T., & Kimura, J. (1981). Tourniquet‐induced ischemia and somatosensory evoked potentials. Neurology, 31(12), 1524–1529.
Yang, L. C., Jawan, B., Chang, K. A., & Lee, J. H. (1995). Effects of temperature on somatosensory evoked potentials during open heart surgery. Acta Anaesthesiologica Scandinavica, 39(7), 956–959.