Effects of Two Electrical Stimulation Frequencies in Thigh Muscle   After Knee Surgery

H. Rebai; V. Barra; A. Laborde; J.-M. Bonny; G. Poumarat; J. Coudert

doi:10.1055/s-2002-35525

International Journal of Sports Medicine, Table of Contents

Int J Sports Med 2002; 23(8): 604-609
DOI: 10.1055/s-2002-35525

Orthopedics & Biomechanics

Effects of Two Electrical Stimulation Frequencies in Thigh Muscle After Knee Surgery

H. Rebai¹ , V. Barra² , A. Laborde¹ , J.-M. Bonny³ , G. Poumarat⁴ , J. Coudert¹

¹Laboratoire de Physiologie-Biologie du Sport, Faculté de Médecine, Université d’Auvergne, Clermont-Ferrand, France
²Equipe de Recherche en Imagerie Médicale, Faculté de Médecine, Université d’Auvergne, Clermont-Ferrand, France
³Institut National de Recherche Agronomique, Unité Structure Tissulaire et Interactions Moléculaires, Clermont-Ferrand, France
⁴Laboratoire d’Anatomie et d'Organogenèse, Faculté de Médecine, Université d’Auvergne, Clermont-Ferrand, France

Abstract

The purpose of this study was to compare the effects of two protocols of electrical stimulation combined with voluntary contractions on the recovery of thigh muscles after anterior cruciate ligament (ACL) surgery. Ten sportsmen with a mean age of 26 yrs were randomly assigned into two groups: a 80 Hz stimulated group (5 patients) and a 20 Hz stimulated group (5 patients). All patients received electrical stimulation of the quadriceps femoris, five days a week, for 12 weeks, and had a standard program of voluntary contractions. Muscle and fat volumes of the thigh were assessed using MRI before surgery and after 12 weeks of rehabilitation. Quadriceps and hamstring muscle strength were evaluated by isokinetic measurements. Twelve weeks after surgery, the quadriceps peak torque deficit in the operated limb with respect to the non operated limb at 180°/s and 240°/s was significantly (p < 0.05) less in the 20 Hz group than in the 80 Hz group. This difference was not confirmed when comparing the pre-surgery quadriceps peak torque of the operated limb with the post-surgery one. Subcutaneous fat volume was increased for the two groups at the post-surgery test. This increase was significantly (p < 0.05) greater for the 80 Hz group. Thigh muscle volume deficit was not significantly different between the two groups.

Key words

Anterior cruciate ligament - rehabilitation - magnetic resonance imaging - isokinetics

Full Text

References

1 Appell H J. Morphology of immobilized skeletal muscle and the effects of a pre- and post immobilization training program. Int J Sports Med. 1986; 7 6-12
2 Arvidsson I, Arvidsson H, Eriksson E, Jansson E. Prevention of quadriceps wasting after immobilization: An evaluation of the effect of electrical stimulation. Orthopedics. 1986; 9 1519-1528
3 Barra V, Morio B, Colin A, Vermorel M, Boire J Y. Automatic assessment of muscle/fat temporal variations on MR images of the thigh. Amsterdam; Proceedings of IEEE EMBS, 18th conf. 1996: 247-248
4 Cooper R R. Alterations during immobilization and regeneration of skeletal muscle in cats. J Bone Joint Surg. 1972; 54 919-951
5 Dellitto A S, Rose J, Mckowen J M, Lehman R C, Thomas J A, Shively R A. Electrical stimulation versus voluntary exercise in strengthening thigh musculature after anterior cruciate ligament surgery. Phys Ther. 1988; 68 660-663
6 Draper V, Ballard L. Electrical stimulation versus electromyographic biofeedback in the recovery of quadriceps femoris muscle function following anterior cruciate ligament surgery. Phys Ther. 1991; 71 455-464
7 Edström L. Selective atrophy of red muscle fibre in the quadriceps in long-standing knee-joint dysfunction. J Neurol Sci. 1978; 11 551-558
8 Eriksson E, Häggmark T. Comparison of isometric muscle training and electrical stimulation supplementing isometric muscle training in the recovery after major knee ligament surgery. Am J Sports Med. 1979; 7 169-171
9 Häggmark T, Jansson E, Eriksson E. Fibre type area and metabolic potential of the thigh muscle in man after surgery and immobilization. Int J Sports Med. 1981; 2 12-17
10 Häggmark T, Eriksson E, Jansson E. Muscle fiber changes in human skeletal muscle after injuries and immobilization. Orthopedics. 1986; 9 181-185
11 Halkjaer-Kristensen J, Ingemann-Hansen T. Wasting and training of the human quadriceps muscle during the treatment of knee ligament injuries. Scand J Rehabil Med (Suppl). 1985; 13 5-15
12 Lieber R L, Silva P D, Daniel D M. Equal effectiveness of electrical and volitional strength training for quadriceps femoris muscles after anterior cruciate ligament surgery. J Orthop Res. 1996; 14 131-138
13 Morrisey M C, Brewster C E, Shildelds C L, Brown M. The effect of electrical stimulation on the quadriceps during postoperative immobilization. Am J Sports Med. 1985; 13 40-45
14 Nakamura T, Kurosawa H, Watarai K, Miyashita H. Muscle fiber atrophy in the quadriceps in knee-joint disorders. Arch Orthop Trauma Surg. 1986; 105 163-169
15 Parker M G. Biomechanical and histological concepts in the rehabilitation of patients with anterior cruciate ligament reconstructions. J Orthop Sports Phys. 1994; 20 44-50
16 Sisk T D, Stralka S W, Deering M B, Griffin J W. Effect of electrical stimulation on quadriceps strength after reconstructive surgery of the anterior cruciate ligament. Am J Sports Med. 1987; 15 215-220
17 Snyder-Mackler L, Ladin Z, Schepsis A A, Yong J C. Electrical stimulation of the thigh muscles after the reconstruction of the anterior cruciate ligament: effects of electrically elicited contractions of the quadriceps femoris and hamstring muscles on gait and strength of the thigh muscles. J Bone Joint Surg. 1991; 73 1025-1036
18 Tibone J E, Antich T J, Fanton G S, Moynes D R, Perry J. Functional analysis of anterior cruciate ligament instability. Am J Sports Med. 1986; 14 276-284
19 Tomanek R J, Lund D D. Degeneration of different types of skeletal muscles fibers. II Immobilization. J Anat. 1974; 118 531-541
20 Vegso J J, Genuario S E, Torg J S. Maintenance of hamstring strength following knee surgery. Med Sci Sports Exerc. 1985; 17 376-339
21 Wigerstrad-Lossing I, Grimby G, Jonsson T, Morelli B, Peterson L, Renström P. Effects of electrical muscle stimulation combined with voluntary contractions after knee ligament surgery. Med Sci Sports Exerc. 1988; 20 93-98

J. Coudert

Laboratoire de Physiologie-Biologie du Sport · Faculté de Médecine · Université d'Auvergne

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