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http://dx.doi.org/10.12674/ptk.2022.29.4.269

Neuromuscular Electrical Stimulation of Abdominal Muscles to Improve Standing Balance  

Je, Jeongwoo (Injury Prevention and Biomechanics Laboratory, Department of Physical Therapy, Yonsei University)
Choi, Woochol Joseph (Injury Prevention and Biomechanics Laboratory, Department of Physical Therapy, Yonsei University)
Publication Information
Physical Therapy Korea / v.29, no.4, 2022 , pp. 269-273 More about this Journal
Abstract
Background: Neuromuscular electrical stimulation (NMES) is used for muscle strengthening. While voluntary muscle contraction follows Henneman et al.'s size principle, the NMES-induced muscle training disrespects the neurophysiology, which may lead to unwanted changes (i.e., declined balance ability). Objects: We examined how the balance was affected by abdominal muscle training with the NMES. Methods: Fifteen young adults (10 males and 5 females) aged between 21 and 30 received abdominal muscle strengthening with NMES for 23 minutes. Before and after the training, participants' balance was measured through one leg standing on a force plate with eyes open or closed. Outcome variables included mean distance (MDIST), root mean square distance (RDIST), total excursion (TOTEX), mean velocity (MVELO), and 95% confidence circle area (AREA) of center of pressure data. Two-way repeated measures analysis of variance was used to test if these outcome variables were associated with time (pre and post) and vision. Results: All outcome variables were not associated with time (p > 0.05). However, all outcome variables were associated with vision (p = 0.0001), and MVELO and TOTEX were 52.4% (45.5 mm/s versus 95.6 mm/s) and 52.4% (364.1 mm versus 764.5 mm) smaller, respectively, in eyes open than eyes closed (F = 55.8, p = 0.0005; F = 55.8, p = 0.0005). Furthermore, there was no interaction between time and vision (F = 0.024, p = 0.877). Conclusion: Despite the different neurophysiology of muscle contraction, abdominal muscle strengthening with NMES did not affect balance.
Keywords
Abdominal muscles; Balance; Neuromuscular electrical stimulation; One-leg standing;
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1 Zattara M, Bouisset S. Posturo-kinetic organisation during the early phase of voluntary upper limb movement. 1. Normal subjects. J Neurol Neurosurg Psychiatry 1988;51(7):956-65.   DOI
2 Haggmark T, Thorstensson A. Fibre types in human abdominal muscles. Acta Physiol Scand 1979;107(4):319-25.   DOI
3 Gondin J, Brocca L, Bellinzona E, D'Antona G, Maffiuletti NA, Miotti D, et al. Neuromuscular electrical stimulation training induces atypical adaptations of the human skeletal muscle phenotype: a functional and proteomic analysis. J Appl Physiol (1985) 2011;110(2):433-50.   DOI
4 Faul F, Erdfelder E, Buchner A, Lang AG. Statistical power analyses using G*Power 3.1: tests for correlation and regression analyses. Behav Res Methods 2009;41(4):1149-60.   DOI
5 Prieto TE, Myklebust JB, Hoffmann RG, Lovett EG, Myklebust BM. Measures of postural steadiness: differences between healthy young and elderly adults. IEEE Trans Biomed Eng 1996;43(9):956-66.   DOI
6 Kim S, Lim K, Choi WJ. Effect on the center of pressure of vision, floor condition, and the height of center of mass during quiet standing. Phys Ther Korea 2021;28(2):154-60.   DOI
7 Amiridis I, Arabatzi F, Violaris P, Stavropoulos E, Hatzitaki V. Static balance improvement in elderly after dorsiflexors electrostimulation training. Eur J Appl Physiol 2005;94(4):424-33.   DOI
8 Bondi D, Jandova T, Verratti V, D'Amico M, Kinel E, D'Attilio M, et al. Static balance adaptations after neuromuscular electrical stimulation on quadriceps and lumbar paraspinal muscles in healthy elderly. Sport Sci Health 2022;18(1):85-96.   DOI
9 Wakahara T, Shiraogawa A. Effects of neuromuscular electrical stimulation training on muscle size in collegiate track and field athletes. PLoS One 2019;14(11):e0224881.   DOI
10 Fitzgerald GK, Piva SR, Irrgang JJ. A modified neuromuscular electrical stimulation protocol for quadriceps strength training following anterior cruciate ligament reconstruction. J Orthop Sports Phys Ther 2003;33(9):492-501.   DOI
11 Stevens JE, Mizner RL, Snyder-Mackler L. Neuromuscular electrical stimulation for quadriceps muscle strengthening after bilateral total knee arthroplasty: a case series. J Orthop Sports Phys Ther 2004;34(1):21-9.   DOI
12 Blazevich AJ, Collins DF, Millet GY, Vaz MA, Maffiuletti NA. Enhancing adaptations to neuromuscular electrical stimulation training interventions. Exerc Sport Sci Rev 2021;49(4):244-52.   DOI
13 Binder-Macleod SA, Halden EE, Jungles KA. Effects of stimulation intensity on the physiological responses of human motor units. Med Sci Sports Exerc 1995;27(4):556-65.
14 Gregory CM, Bickel CS. Recruitment patterns in human skeletal muscle during electrical stimulation. Phys Ther 2005; 85(4):358-64.   DOI
15 Carpentier A, Duchateau J, Hainaut K. Motor unit behaviour and contractile changes during fatigue in the human first dorsal interosseus. J Physiol 2001;534(Pt 3):903-12.   DOI
16 Akuthota V, Nadler SF. Core strengthening. Arch Phys Med Rehabil 2004;85(3 Suppl 1):S86-92.
17 Lake DA. Neuromuscular electrical stimulation. An overview and its application in the treatment of sports injuries. Sports Med 1992;13(5):320-36.   DOI
18 Cresswell AG, Oddsson L, Thorstensson A. The influence of sudden perturbations on trunk muscle activity and intra-abdominal pressure while standing. Exp Brain Res 1994;98(2):336-41.
19 Hodges PW, Richardson CA. Feedforward contraction of transversus abdominis is not influenced by the direction of arm movement. Exp Brain Res 1997;114(2):362-70.   DOI
20 American College of Sports Medicine. American College of Sports Medicine position stand. Progression models in resistance training for healthy adults. Med Sci Sports Exerc 2009;41(3):687-708.   DOI
21 Stevens-Lapsley JE, Balter JE, Wolfe P, Eckhoff DG, Kohrt WM. Early neuromuscular electrical stimulation to improve quadriceps muscle strength after total knee arthroplasty: a randomized controlled trial. Phys Ther 2012;92(2):210-26.   DOI
22 Bellemare F, Woods JJ, Johansson R, Bigland-Ritchie B. Motorunit discharge rates in maximal voluntary contractions of three human muscles. J Neurophysiol 1983;50(6):1380-92.   DOI
23 Bergquist AJ, Clair JM, Lagerquist O, Mang CS, Okuma Y, Collins DF. Neuromuscular electrical stimulation: implications of the electrically evoked sensory volley. Eur J Appl Physiol 2011;111(10):2409-26.   DOI
24 Milner-Brown HS, Stein RB, Lee RG. Synchronization of human motor units: possible roles of exercise and supraspinal reflexes. Electroencephalogr Clin Neurophysiol 1975;38(3):245-54.   DOI
25 McGill SM, Norman RW. Reassessment of the role of intraabdominal pressure in spinal compression. Ergonomics 1987;30(11):1565-88.   DOI
26 Electrophysical agents - contraindications and precautions: an evidence-based approach to clinical decision making in physical therapy. Physiother Can 2010;62(5):1-80.
27 Henneman E, Somjen G, Carpenter DO. Functional significance of cell size in spinal motoneurons. J Neurophysiol 1965;28:560-80.   DOI
28 Je J, Choi WJ. Immediate effect of neuromuscular electrical stimulation on balance and proprioception during one-leg standing. Phys Ther Korea 2022;29(3):187-93.   DOI
29 Acheche A, Mekki M, Paillard T, Tabka Z, Trabelsi Y. The effect of adding neuromuscular electrical stimulation with endurance and resistance training on exercise capacity and balance in patients with chronic obstructive pulmonary disease: a randomized controlled trial. Can Respir J 2020;2020:9826084.