Abstract
The histochemical and biomechanical relationships of limb muscles are examined in two groups of 15 men aged between 17 and 40 years. Seven muscles are chosen: biceps brachii, triceps brachii (TB), flexor digitorum superficialis, extensor digitorum, biceps femoris, tibialis anterior and gastrocnemius caput mediale (GCM). The aim of the preliminary study is to evaluate an alternative method based on a tensiomyographic (TMG) non-invasive measurement technique. The percentage of type I muscle fibres obtained with the histochemical method is 2.2 times higher for the slowest measured muscle (GCM) than for the fastest (TB). The contraction time of a muscle belly twitch response measured by TMG is 1.9 times higher for GCM than for TB. Statistical analysis of the data obtained by tensiomyographic and histochemical techniques shows a significant correlation between the contraction time of muscle response measured by TMG and the percentage of type I muscle fibres (correlation coefficient equals 0.93). Results of the study suggest using the TMG measuring technique as a basis for the estimation of the percentage of type I muscle fibres.
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References
Buchthal, F., andSchmalbruch, H. (1970): ‘Contraction times and fibre types in intact human muscle’,Acta Physiol. Scand.,79, pp. 435–452
Delagi, E. F., Perotto, A., Iazzetti, J., andMorrison, D. (1975): ‘Anatomic guide for the electromyographer: the limbs’ (Charles C. Thomas, Springfield, Illinois, USA)
Edström, L., andKugelberg, B. (1968): ‘Histochemical composition, distribution of fibres and fatigability of single motor units’,J. Neurol. Neurosurg. Psychiat.,31, pp. 424–433
Edgerton, V. H., Smith, J. L., andSimpson, D. R. (1975): ‘Muscle fibre type populations of human leg muscles’,Histochem. J.,7, pp. 259–266
Guth, L., andSamaha, F. J. (1970): ‘Procedure for the histochemical demonstration of actomyosine ATPase (research note)’,Exp. Neurol.,28, pp. 365–367
Gydikov, A., Dimitrov, G., Kosarov, D., andDimitrova, N. (1976): ‘Functional differentiation of motor units in human opponens pollicis muscle’,Exper. Neurol.,50, pp. 36–47
Knaflitz, M., Merletti, R., andDeLuca, C. J. (1990): ‘Inference of motor unit recruitment order in voluntary and electrically elicited contractions’,J. Appl. Physiol.,68, (4), pp. 1657–1667
Lexell, J., Henriksson-Larsen, K., andSjostrom, M. (1983): ‘Distribution of different fibre types in human muscles’,Acta Physiol. Scand., Part 2,117, pp. 115–122
Padykula, H. A., andHerman, E. (1955): ‘The specificity of the histochemical method for adenosine triphosphatase’,J. Histochem. Cytochem.,3, pp. 170–183
Parker, P. A., Körner, I., andKadefors, R. (1984): ‘Estimation of muscle force from intramuscular total pressure’,Med. Biol. Eng. Comput.,22, pp. 453–457
Pernuš, F., Eržen, I., andBjelogrlič, Z. (1986): ‘A computer-aided method for muscle fibre type quantification’,Acta Stereol,5, pp. 49–54
Polgar, J., Johnson, M. A., Weigthman, D., andAppleton, D. (1973): ‘Data on the distribution of fibre types in thirty-six human muscles’,J. Neurol. Sci.,19, pp. 307–318
Sica, R. E. P., andMcComas, A. J. (1971): ‘Fast and slow twitch units in a human muscle’,J. Neurol. Neurosurg. Psychiat.,34, pp. 113–120
Stein, R. B., French, A. S., Mannard, A., andYemm, R. (1972): ‘New methods for analysing motor function in man and animals’,Brain Res.,40, pp. 187–192
Valenčič, V., andKnez, N. (1997): ‘Measuring of skeletal muscles dynamic properties’,Artific. Org.,21, pp. 240–242
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Dahmane, R., Valenčič, V., Knez, N. et al. Evaluation of the ability to make non-invasive estimation of muscle contractile properties on the basis of the muscle belly response. Med. Biol. Eng. Comput. 39, 51–55 (2001). https://doi.org/10.1007/BF02345266
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DOI: https://doi.org/10.1007/BF02345266