Abstract
The purpose of this study was to calculate electromyographic (EMG) power spectra of the sternocleidomastoid (SCM), the splenius capitis (SPL) and the trapezius (TRP) muscles from both sides of the body in bilateral lateral flexion and compare them with the EMG spectral characteristics of the same muscles in the sagittal and oblique planes recorded from the same subjects in the same experimental session but reported elsewhere in the literature. Forty normal and healthy young adults (21 males, 19 females) volunteered for the study. The subjects were prepared and positioned appropriately to exert linearly ramping isometric exertion aided by visual feedback against a rigid and load cell instrumental device. Exertions were carried out in a random order. The maximal voluntary contraction was reached within a 5-s test period. The torque and EMG from the SCM, SPL and TRP muscles were sampled bilaterally at a rate of 1 kHz. The EMG data were subjected to fast Fourier transform analysis. During lateral flexion, the torque generated by females was significantly lower than males (P<0.01) and represented at 75% of male torque. Contrary to flexion/extension and oblique plane activities, the ipsilateral SCM was most active with highest power and up to four dominant frequencies demonstrating four distinct peaks. The bandwidth of this muscle progressively increased with the grade of contraction up to 400 Hz, similar to flexion/extension with median frequency (MF) spread between 21 and 109 Hz for males and 78 and 99 Hz for females. The ipsilateral SPL was the second most active muscle, which maintained a narrow bandwidth (200 Hz) and one dominant frequency, rising in power with increasing grade of contraction. Flexion and extension caused symmetrical activity bilaterally. The results of MANOVA revealed a significant main effect of gender, activity direction, grade of contraction and individual muscles (P<0.001). There was a significant interaction between muscle and activity direction (P<0.001) implying significantly different MF and mean power frequency if the direction of exertion was changed. Male and female subjects responded to direction differently (P<0.001).
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References
Agarwal GC, Gottlieb GL (1982) Mathematical modeling and simulation of the postural control loop. 1. Crit Rev Biomed Eng 8:93–134
Bazzy AR, Korten JB, Haddad GG (1986) Increase in electromyogram low-frequency power in non-fatigued contracting skeletal muscle. J Appl Physiol 61:1012–1017
De Luca CJ (1984) Myoelectric manifestations of localized muscular fatigue in humans. Crit Rev Biomed Eng 11:251–279
Ferrari R (1999) The whiplash encyclopedia. Aspen, Gaithersurg, Md.
Freund HJ (1983) Motor unit and muscle activity in voluntary motor control. Physiol Rev 63:387–436
Gogia PP, Sabbahi MA (1994) Electromyographic analysis of neck muscle fatigue in patients with osteoarthritis of the cervical spine. Spine 19:502–506
Hagberg M, Hagberg C (1989) Surface EMG amplitude and frequency dependence on exerted force for the upper trapezius muscle: a comparison between right and left sides. Eur J Appl Physiol 58:641–645
Hagg G (1991) Comparison of difference estimators of electromyographic spectral shifts during work when applied on short test contractions. Med Biol Comput Eng 29:511–516
Houk JC, Rymer WZ (1981) Neural control of muscle length and tension. In: Brooks VB (ed) Handbook of physiology, vol 2, part 1. Waverly, Baltimore, pp 257–323
Jordan A, Mehlsen J, Bulow PM, Ostergaard K, Danneskiold-Samsoe B (1999) Maximal isometric strength of the cervical musculature in 100 healthy volunteers. Spine 24:1343–1348
Kleine BU, Schumann NP, Bradl I, Greishaber R, Scholle HC (1999) Surface EMG of shoulder and back muscles and posture analysis in secretaries typing at visual display units. Int Arch Occup Environ Health 72:387–394
Kumar S (1991) Arm lift strength. Appl Ergon 22:317–328
Kumar S (1995) Lifting strength profile and its potential impact. Konz/Purswell Symposium, Lubbock, Tex., pp 133–143.
Kumar S (1996) Isolated planar trunk strength measurement in normals: Part III—Results and database. Int J Ind Ergon 17:103–111
Kumar S, Garand D (1992) Static and dynamic strength at different reach distances in symmetrical and asymmetrical planes. Ergonomics 35:861–880
Kumar S, Narayan Y, Amell T (2001a) Cervical strength of young adults in sagittal, coronal, and intermediate planes. Clin Biomech (Bristol, Avon) 16:380–388
Kumar S, Narayan Y, Amell T (2001b) Spectral profile of superficial cervical muscles. J Electromyogr Kinesiol 11:269–280
Kumar S, Narayan Y, Amell T, Ferrari R (2002) Electromyography of cervical muscles. Eur Spine J 11:27–37
Kwanty E, Thomas DH, Kwanty HG (1970) An application of signal processing techniques to the study of myoelectric signals. IEEE Trans Biomed Eng 17:303–313
Mannion A, Dolan P (1996) The effects of muscle length and force output on the EMG power spectrum of the erector spinae. J Electromyogr Kinesiol 6:159–168
Mayer T, Gatchel RJ, Keeley J, Mayer H, Richling D (1994) A male incumbent worker industrial database. Part II. Cervical spinal physical capacity. Spine 19:762–764
Morimoto S (1986) Effects of length change in muscle fibres on conduction velocity in human motor units. Jpn J Physiol 36:773–782
Newton M, Waddel G (1993) Trunk strength testing with isomachines. Part I: Review of a decade of scientific evidence. Spine 18:801–811
Rosenburg R, Sidel H (1989) Electromyography of lumbar erector spinae muscles influence of posture, interelectrode distance, strength and fatigue. Eur J Appl Physiol 59:104–114
Roy S, De Luca C, Casavant D (1989) Lumbar muscle fatigue and chronic low back pain. Spine 14:992–1001
Sadoyama T, Masuda T (1987) Changes of the average muscle fibre conduction velocity during a varying force contraction. Electroencephalogr Clin Neurophysiol 67:495–497
Schuldt K (1988) On neck muscle activity and load reduction in sitting postures. An electromyographic and biomechanical study with applications in ergonomics and rehabilitation. Scand J Rehabil Med Suppl 19:1–49
Schuldt K, Harms-Ringdahl K (1988) Activity levels during isometric test contractions of neck and shoulder muscles. Scand J Rehabil Med Suppl 20:117–127
Smith S, Mayer T, Gatchel R, Becker T (1985) Quantification of lumbar function. Spine 10:757–764
Yamasawa H (1998) Electromyographic power spectral analysis of sternocleidomastoid muscle during sustained voluntary clenching. Kokubyo Gakkai Zasshi 65:84–92
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Kumar, S., Narayan, Y. & Amell, T. EMG power spectra of cervical muscles in lateral flexion and comparison with sagittal and oblique plane activities. Eur J Appl Physiol 89, 367–376 (2003). https://doi.org/10.1007/s00421-003-0797-3
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DOI: https://doi.org/10.1007/s00421-003-0797-3