Summary
A brief survey of the literature on manifestations of myo-electric fatigue has disclosed a surprisingly sharp conflict between early studies, focusing on neuromotor regulatory mechanisms, and more recent studies which stress the determinant influence of local metabolism and skewed homeostasis. Favoured explanations concerning changes in the electromyographic (EMG) spectrum were synchronization/grouping of motor unit (MU) firing and conduction velocity (CV) decreases of the action potential propagation. The notion of mutual exclusivity interwoven with these theories prompted us to reinvestigate the EMG of moderate level, static endurance contraction. Ten men in their twenties performed isometric elbow flexion (elbow angle 135°) at 30%6 maximal voluntary contraction (MVC), and the surface EMG of the brachioradialis (BR) and biceps brachii (BB) muscles was recorded. Initially the CV — determined by cross-correlation — was 4.3 m · s−1 (BR) and 4.6 m · s−1 (BB). At exhaustion the CV of the BR muscle had declined by 33%, roughly twice the decrease of the BB CV. Substantially larger relative median frequency (f m) reductions of 50% (BR) and 43% (BB) were found. Simultaneously, the root-mean-square amplitudes grew by 150% (BR) and 120% (BB). All changes during contraction reached the same level of significance (P<0.001, both muscles). From the largely uniform relative increases inf m and CV during the last 4 min of a 5-min recovery period, variations in CV were suggested to produce equivalent shifts inf m. The gradually increasing discrepancies between relative decreases inf m and CV during contraction presumably reflected centrally mediated regulation of MU firing patterns (notably synchronization). After the 5-min recovery another 11 endurance contractions at 30% MVC were executed, separated by 5-min intervals. The series of contractions reduced the endurance time to one-third of the 153 s initially sustained, while the terminal CV recordings increased by 1.0 (BR) and 0.6 (BB) m · s−1, and the terminalf m increased by 24 (BR) and 14 (BB) Hz. The relative CV decreased in direct proportion to the endurance time and thef m decreases varied with the CV; the findings did not support a causal link between CV decrease (signifying impaired fibre excitability) and the force failure of exhaustion.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Bendat JS, Piersol AG (1971) Random data: analysis and measurement procedures. Wiley, New York, pp 1–36
Bigland-Ritchie B, Jones DA, Woods JJ (1979) Excitation frequency and muscle fatigue: electrical responses during human voluntary and stimulated contractions. Exp Neurol 64:414–427
Bigland-Ritchie B, Johansson R, Lippold OCJ, Smith S, Woods JJ (1983) Changes in motoneurone firing rates during sustained maximal voluntary contractions. J Physiol 340:335–346
Borg G (1982) A category scale with ratio properties for intermodal and interindividual comparisons. In: Geissler H-G, Petzold P (eds) Psychophysical judgement and the process of perception. North-Holland Publishing Company, Amsterdam, pp 25–34
Boska MD, Moussavi RS, Carson PJ, Weiner MW, Miller RG (1990) The metabolic basis of recovery after fatiguing exercise of human muscle. Neurology 40:240–244
Brigham EO (1974) The fast Fourier transform. Prentice-Hall, Englewood Cliffs, N. J., pp 1–230
Broman H, Bilotto G, De Luca CJ (1985) Myoelectric signal conduction velocity and spectral parameters: influence of force and time. J Appl Physiol 58:1428–1437
Buchtal F, Madsen A (1950) Synchronous activity in normal and atrophic muscle. Electroencephalogr Clin Neurophysiol 2:425–444
Cenkovich FS, Gersten JW (1963) Fourier analysis of the normal human electromyogram. Am J Phys Med 42:192–204
Clarke RSJ, Hellon RF, Lind AR (1958) The duration of sustained contractions of the human forearm at different muscle temperatures. J Physiol 143:454–473
Cobb S, Forbes A (1923) Electromyographic studies of muscular fatigue in man. Am J Physiol 65:234–251
Conover WJ (1980) Practical nonparametric statistics (2nd edn.) Wiley, New York
Cooley JW, Tukey JW (1965) An algorithm for the machine calculation of complex Fourier series. Math Comput 19:297–301
De Luca CJ, Forrest WJ (1973) Some properties of motor unit action potential trains recorded during constant force isometric contractions in man. Kybernetik 12:160–168
Eberstein A, Sandow A (1963) Fatigue mechanisms in muscle fibres. In: Gutmann E, Hník P (eds) The effect of use and disuse on neuromuscular functions. Elsevier, Amsterdam, pp 515–526
Edwards RG, Lippold OCJ (1956) The relation between force and integrated electrical activity in fatigued muscle. J Physiol 132:677–681
Edwards RHT, Hill DK, Jones DA (1975) Heat production and chemical changes during isometric contractions of the human quadriceps muscle. J Physiol 251:303–315
Fuglsang-Frederiksen A, Rønager J (1988) The motor unit firing rate and the power spectrum in humans. Electroencephalogr Clin Neurophysiol 70:68–72
Gantchev N, Kossev A, Gydikov A, Gerasimenko Y (1992) Relation between the motor units recruitment threshold and their potentials propagation velocity at isometric activity. Electromyogr Clin Neurophysiol 32:221–228
Godt RE, Nosek TM (1989) Changes of intracellular milieu with fatigue or hypoxia depress contraction of skinned rabbit skeletal and cardiac muscle. J Physiol 412:155–180
Gydikov A, Kosarov D, Dimitrov GV (1979) Length of the summated depolarized area and duration of the depolarizing and repolarizing processes in the motor unit under different conditions. Electromyogr Clin Neurophysiol 19:229–248
Hägg GM (1991) Comparison of different estimators of electromyographic spectral shifts during work when applied on short test contractions. Med Biol Eng Comput 29:511–516
Hägg GM (1992) Interpretation of EMG spectral alterations and alteration indexes at sustained contraction. J Appl Physiol 73:1211–1217
Juel C (1988) The effect ofβ 2-adrenoceptor activation on ionshifts and fatigue in mouse soleus muscles stimulated in vitro. Acta Physiol Scand 134:209–216
Juel C, Bangsbo J, Graham T, Saltin B (1990) Lactate and potassium fluxes from human skeletal muscle during and after intense, dynamic, knee extensor exercise. Acta Physiol Scand 140:147–159
Karlsson J, Funderburk CF, Essen B, Lind AR (1975) Constituents of human muscle in isometric fatigue. J Appl Physiol 38:208–211
Kereshi S, Manzano G, McComas AJ (1983) Impulse conduction velocities in human biceps brachii muscles. Exp Neurol 80:652–662
Kogi K, Hakamada T (1962a) Frequency analysis of the surface electromyogram in muscle fatigue. J Sci Labour 38:519–528
Kogi K, Hakamada T (1962b) Slowing of surface electromyogram and muscle strength in muscle fatigue. Rep Inst Sci Labour (Tokyo) 60:27–41
Krogh-Lund C, Jorgensen K (1991) Changes in conduction velocity, median frequency, and root mean square-amplitude of the electromyogram during 25% maximal voluntary contraction of the triceps brachii muscle, to limit of endurance. Eur J Appl Physiol 63:60–69
Krogh-Lund C, Jørgensen K (1992) Modification of myo-electric power spectrum in fatigue from 15°10 maximal voluntary contraction of human elbow flexor muscles, to limit of endurance: reflection of conduction velocity variation and/or centrally mediated mechanisms? Eur J Appl Physiol 64:359–370
Lännergren J, Westerblad H (1986) Force and membrane potential during and after fatiguing, continuous high-frequency stimulation of single Xenopus muscle fibres. Acta Physiol Scand 128:359–368
Lindström LH, Magnusson RI (1977) Interpretation of myoelectric power spectra: a model and its applications. Proc IEEE 65:653–662
Lindström L, Magnusson R, Petersén I (1970) Muscular fatigue and action potential conduction velocity changes studied with frequency analysis of EMG signals. Electromyography 10:341–356
Lippold OCJ, Redfearn JWT, Vučo J (1960) The electromyography of fatigue. Ergonomics 3:121–131
Lloyd AJ (1971) Surface electromyography during sustained isometric contractions. J Appl Physiol 30:713–719
Lynn PA, Bettles ND, Hughes AD, Johnson SW (1978) Influences of electrode geometry on bipolar recordings of the surface electromyogram. Med Biol Eng Comput 16:651–660
Masuda T, De Luca CJ (1991) Recruitment threshold and muscle fiber conduction velocity of single motor units. J Electromyogr Kinesiol 1:116–123
Masuda T, Miyano H, Sadoyama T (1985) The position of innervation zones in the biceps brachii investigated by surface electromyography. IEEE Trans Biomed Eng 32:36–42
McComas AJ, Kereshi S, Manzano G (1984) Multiple innervation of human muscle fibers. J Neurol Sci 64:55–64
Merletti R, Knaflitz M, De Luca CJ (1990) Myoelectric manifestations of fatigue in voluntary and electrically elicited contractions. J Appl Physiol 69:1810–1820
Miller RG, Giannini D, Milner-Brown HS, Layzer RB, Koretsky AP, Hooper D, Weiner MW (1987) Effects of fatiguing exercise on high-energy phosphates, force, and EMG: evidence for three phases of recovery. Muscle Nerve 10:810–821
Mills KR, Edwards RHT (1984) Muscle fatigue in myophosphorylase deficiency: power spectral analysis of the electromyogram. Electroencephalogr Clin Neurophysiol 57:330–335
Moritani T, Sherman WM, Shibata M, Matsumoto T, Shinohara M (1992) Oxygen availability and motor unit activity in humans. Eur J Appl Physiol 64:552–556
Mortimer JT, Magnusson R, Petersén I (1970) Conduction velocity in ischemic muscle: effect on EMG frequency spectrum. Am J Physiol 219:1324–1329
Pan ZS, Zhang Y, Parker PA (1989) Motor unit power spectrum and firing rate. Med Biol Eng Comput 27:14–18
Person RS, Kudina LP (1968) Cross-correlation of electromyograms showing interference patterns. Electroencephalogr Clin Neurophysiol 25:58–68
Person RS, Kudina LP (1972) Discharge frequency and discharge pattern of human motor units during voluntary contraction of muscle. Electroencephalogr Clin Neurophysiol 32:471–483
Petrofsky JS (1979) Frequency and amplitude analysis of the EMG during exercise on the bicycle ergometer. Eur J Appl Physiol 41:1–15
Piper H (1909) Über die Ermüdung bei willkürlichen Muskelkontraktionen. Arch Anat Physiol (Rubners Arch) 4, 5, 6:491–499
Piper H (1912) Elektrophysiologie menschlicher Muskeln. Springer, Berlin, pp 1–163
Rohmert W (1962) Untersuchung über Muskelermüdung and Arbeitsgestaltung. Beuth-Vertrieb, Berlin, 1–180
Roy SH, Boer ER, Gilmore LD, Hrovat M (1991) Concurrent measurement of muscle fatigue by EMG and31P-NMR spectroscopy. In: Anderson PA, Hobart DJ, Danoff JV (eds) Electromyographical kinesiology. Excerpta Med Int Congr Ser 949:279–282
Saltin B, Sjøgaard G, Gaffney FA, Rowell LB (1981) Potassium, lactate, and water fluxes in human quadriceps muscle during static contractions. Circ Res 48 [Suppl 1]:118–124
Scherrer J, Bourguignon A (1959) Changes in the electromyogram produced by fatigue in man. Am J Phys Med 38:148–158
Sjøgaard G (1988) Muscle energy metabolism and electrolyte shifts during low-level prolonged static contraction in man. Acta Physiol Scand 134:181–187
Sjøgaard G, Adams RP, Saltin B (1985) Water and ion shifts in skeletal muscle of humans with intense dynamic knee extension. Am J Physiol 248:R190-R196
Solomonow M, Baten C, Smit J, Baratta R, Hermens H, D'Ambrosia R, Shoji H (1990) Electromyogram power spectra frequencies associated with motor unit recruitment strategies. J Appl Physiol 68:1177–1185
Thomas CK, Bigland-Ritchie B, Westling G, Johansson RS (1990) A comparison of human thenar motor-unit properties studied by intraneural motor-axon stimulation and spike-triggered averaging. J Neurophysiol 64:1347–1351
Vestergaard-Poulsen P, Thomsen C, Sinkjær T, Stubgaard M, Rosenfalck A, Henriksen O (1992) Simultaneous electromyography and31P nuclear magnetic resonance spectroscopy — with application to muscle fatigue. Electroencephalogr Clin Neurophysiol 85:402–411
Walton JN (1952) The electromyogram in myopathy: analysis with the audiofrequency spectrometer. J Neurol Neurosurg Psychiat 15:219–226
Weytjens JLF, van Stenberghe D (1984a) Spectral analysis of the surface electromyogram as a tool for studying rate modulation: a comparison between theory, simulation, and experiment. Biol Cybern 50:95–103
Weytjens JLF, van Stenberghe D (1984b) The effects of motor unit synchronization on the power spectrum of the electromyogram. Biol Cybern 51:71–77
Zwarts MJ, van Weerden TW, Haenen HTM (1987) Relationship between average muscle fibre conduction velocity and EMG power spectra during isometric contraction, recovery and applied ischemia. Eur J Appl Physiol 56:212–216
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Krogh-Lund, C., Jørgensen, K. Myo-electric fatigue manifestations revisited: power spectrum, conduction velocity, and amplitude of human elbow flexor muscles during isolated and repetitive endurance contractions at 30% maximal voluntary contraction. Europ. J. Appl. Physiol. 66, 161–173 (1993). https://doi.org/10.1007/BF01427058
Accepted:
Issue Date:
DOI: https://doi.org/10.1007/BF01427058