Muscle mutability. Part 1. General concepts and adaptations to altered patterns of use.

During the past two decades investigators have shown that muscle fiber is highly mutable. A variety of stimuli ranging from patterns of use to the nutritional state of the organism may lead to alterations in fiber structure and function. The purpose of this review is to provide the information necessary to understand muscle fiber mutability (ie, terms and muscle fiber classification schemes) and to critically review the literature about mutability in response to altered patterns of use. The relevance of these studies to physical therapy is discussed, and suggestions for clinical applications are made.

[1]  S. Rose,et al.  Electromyographic, peak torque, and power relationships during isokinetic movement. , 1983, Physical therapy.

[2]  S. Rose,et al.  Muscle function in rheumatic disease patients treated with corticosteroids , 1983, Muscle & nerve.

[3]  S Salmons,et al.  The adaptive response of skeletal muscle to increased use , 1981, Muscle & nerve.

[4]  G. Vrbóva,et al.  Comparison of enzyme activities among single muscle fibres within defined motor units. , 1981, The Journal of physiology.

[5]  T. Häggmark,et al.  Fiber Type Area and Metabolic Potential of the Thigh Muscle in Man After Knee Surgery and Immobilization* , 1981, International journal of sports medicine.

[6]  T. Lømo,et al.  DIFFERENT STIMULATION PATTERNS AFFECT CONTRACTILE PROPERTIES OF DENERVATED RAT SOLEUS MUSCLES , 1980 .

[7]  S. Salmons THE RESPONSE OF SKELETAL MUSCLE TO DIFFERENT PATTERNS OF USE - SOME NEW DEVELOPMENTS AND CONCEPTS , 1980 .

[8]  A. Sĭrca,et al.  Selective type II fibre muscular atrophy in patients with osteoarthritis of the hip , 1980, Journal of the Neurological Sciences.

[9]  G. Goldspink,et al.  Changes in rodent muscle fibre types during post‐natal growth, undernutrition and exercise. , 1979, The Journal of physiology.

[10]  F. Booth,et al.  Early change in skeletal muscle protein synthesis after limb immobilization of rats. , 1979, Journal of applied physiology: respiratory, environmental and exercise physiology.

[11]  F. Ingjer Effects of endurance training on muscle fibre ATP‐ase activity, capillary supply and mitochondrial content in man. , 1979, The Journal of physiology.

[12]  V. Edgerton,et al.  Contractile responses of rat fast‐twitch and slow‐twitch muscles to glucocorticoid treatment , 1979, Muscle & nerve.

[13]  M. Houston,et al.  Fiber composition, fiber size and enzyme activities in vastus lateralis of elite athletes involved in high intensity exercise , 1979, European Journal of Applied Physiology and Occupational Physiology.

[14]  K. Kobayashi,et al.  Effects of an anabolic steroid and vitamin B complex upon myopathy induced by corticosteroids. , 1978, European journal of pharmacology.

[15]  P. Tesch,et al.  Changes in muscle fibre type distribution in man after physical training. A sign of fibre type transformation? , 1978, Acta physiologica Scandinavica.

[16]  J. Rantamäki,et al.  Oxidative and lysosomal capacity in skeletal muscle of mice after endurance training of different intensities. , 1978, Acta physiologica Scandinavica.

[17]  W. Gonyea,et al.  Alterations in muscle contractile properties and fiber composition ofter weight-lifting exercise in cats , 1978, Experimental Neurology.

[18]  E Jansson,et al.  FIBER TYPES AND METABOLIC POTENTIALS OF SKELETAL MUSCLES IN SEDENTARY MAN AND ENDURANCE RUNNERS * , 1977, Annals of the New York Academy of Sciences.

[19]  D. Sale,et al.  Biochemical adaptation of human skeletal muscle to heavy resistance training and immobilization. , 1977, Journal of applied physiology: respiratory, environmental and exercise physiology.

[20]  A. Thorstensson,et al.  Skeletal muscle fibres and muscle enzyme activities in monozygous and dizygous twins of both sexes. , 1977, Acta physiologica Scandinavica.

[21]  A. Sargeant,et al.  Functional and structural changes after disuse of human muscle. , 1977, Clinical science and molecular medicine.

[22]  V. Edgerton,et al.  Properties of immobilized guinea pig hindlimb muscles. , 1976, The American journal of physiology.

[23]  T L Munsat,et al.  Effects of nerve stimulation on human muscle. , 1976, Archives of neurology.

[24]  A. Goldberg,et al.  Effects of food deprivation on protein synthesis and degradation in rat skeletal muscles. , 1976, The American journal of physiology.

[25]  J. Henriksson,et al.  Quantitative measures of enzyme activities in type I and type II muscle fibres of man after training. , 1976, Acta physiologica Scandinavica.

[26]  D. Costill,et al.  Muscle fiber composition and enzyme activities of elite distance runners. , 1976, Medicine and science in sports.

[27]  W. Gonyea,et al.  An experimental model for the study of exercise-induced skeletal muscle hypertrophy. , 1976, Journal of applied physiology.

[28]  A. Thorstensson,et al.  Effect of strength training on enzyme activities and fibre characteristics in human skeletal muscle. , 1976, Acta physiologica Scandinavica.

[29]  J Daniels,et al.  Skeletal muscle enzymes and fiber composition in male and female track athletes. , 1976, Journal of applied physiology.

[30]  D N Levine,et al.  Motor units in cat soleus muscle: physiological, histochemical and morphological characteristics , 1974, The Journal of physiology.

[31]  P. Tsairis,et al.  THE CORRELATION OF PHYSIOLOGICAL PROPERTIES WITH HISTOCHEMICAL CHARACTERISTICS IN SINGLE MUSCLE UNITS , 1974, Annals of the New York Academy of Sciences.

[32]  D. Levine,et al.  Physiological types and histochemical profiles in motor units of the cat gastrocnemius , 1973, The Journal of physiology.

[33]  M Ringqvist,et al.  Fibre sizes of human masseter muscle in relation to bite force. , 1973, Journal of the neurological sciences.

[34]  M. Brooke,et al.  Muscle pathology in rheumatoid arthritis, polymyalgia rheumatica, and polymyositis: a histochemical study. , 1972, Archives of pathology.

[35]  V. Edgerton,et al.  Metabolic profiles of three fiber types of skeletal muscle in guinea pigs and rabbits. , 1972, Biochemistry.

[36]  I. Ringqvist MUSCLE STRENGTH IN MYASTHENIA GRAVIS: Effects of Exhaustion and Anticholinesterase Related to Muscle Fibre Size , 1971, Acta neurologica Scandinavica.

[37]  R. E. Burke,et al.  Mammalian Motor Units: Physiological-Histochemical Correlation in Three Types in Cat Gastrocnemius , 1971, Science.

[38]  L. Edström Selective atrophy of red muscle fibres in the quadriceps in long-standing knee-joint dysfunction. Injuries to the anterior cruciate ligament. , 1970, Journal of the neurological sciences.

[39]  M. Brooke,et al.  Muscle fiber types: how many and what kind? , 1970, Archives of neurology.

[40]  W. Engel Selective and nonselective susceptibility of muscle fiber types. A new approach to human neuromuscular diseases. , 1970, Archives of neurology.

[41]  G. Fischbach,et al.  Changes in contractile properties of disused soleus muscles , 1969, The Journal of physiology.

[42]  A. Goldberg,et al.  Relationship between cortisone and muscle work in determining muscle size , 1969, The Journal of physiology.

[43]  L. Edström,et al.  Differential histochemical effects of muscle contractions on phosphorylase and glycogen in various types of fibres: relation to fatigue. , 1968, Journal of neurology, neurosurgery, and psychiatry.

[44]  S. Semans The Bobath concept in treatment of neurological disorders; a neuro-developmental treatment. , 1967, American journal of physical medicine.

[45]  A. Hill Production and absorption of work by muscle. , 1960, Science.

[46]  C. Sherrington Ferrier lecture.—Some functional problems attaching to convergence , 1929 .

[47]  J. Desmedt,et al.  Motor unit types, recruitment and plasticity in health and disease , 1981 .

[48]  G. Maréchal,et al.  Mechanism of muscle adaptation to functional requirements , 1981 .

[49]  F Buchthal,et al.  Motor unit of mammalian muscle. , 1980, Physiological reviews.

[50]  P. Renström,et al.  Quadriceps function and training after knee ligament surgery. , 1980, Medicine and science in sports and exercise.

[51]  F. Booth,et al.  Effects of disuse by limb immobilization on different muscle fiber types , 1980 .

[52]  B. Saltin,et al.  The Muscle Biopsy: Still a Research Tool. , 1980, The Physician and sportsmedicine.

[53]  E. Coyle,et al.  Adaptations in skeletal muscle following strength training. , 1979, Journal of applied physiology: respiratory, environmental and exercise physiology.

[54]  D. Sale,et al.  Mitochondrial volume density in human skeletal muscle following heavy resistance training. , 1979, Medicine and science in sports.

[55]  L. Laesson Morphological and functional charactereistic of the aging skeletal muscle in man , 1978 .

[56]  L. Józsa,et al.  Histochemical and ultrastructural study of human muscles after spontaneous rupture of the tendon. , 1978, Acta histochemica.

[57]  A Thorstensson,et al.  Maximal oxygen uptake and muscle fiber types in trained and untrained humans. , 1978, Medicine and science in sports.

[58]  L. Larsson,et al.  The significance of muscle fibre composition to human performance capacity. , 1978, Scandinavian journal of rehabilitation medicine. Supplement.

[59]  V. Janda Muscles, Central Nervous Motor Regulation and Back Problems , 1978 .

[60]  A. Thorstensson,et al.  Muscle strength and fiber composition in athletes and sedentary men. , 1977, Medicine and science in sports.

[61]  P. Andersen,et al.  Training induced changes in the subgroups of human type II skeletal muscle fibres. , 1977, Acta physiologica Scandinavica.

[62]  R Nordemar,et al.  Changes in muscle fibre size and physical performance in patients with rheumatoid arthritis after short-term physical training. , 1976, Scandinavian journal of rheumatology.

[63]  Thorstensson Muscle strength, fibre types and enzyme activities in man. , 1976, Acta physiologica Scandinavica. Supplementum.

[64]  A. Goldberg,et al.  Mechanism of work-induced hypertrophy of skeletal muscle. , 1975, Medicine and science in sports.

[65]  M. Johnson,et al.  Data on the distribution of fibre types in thirty-six human muscles. An autopsy study. , 1973, Journal of the neurological sciences.

[66]  R. Armstrong,et al.  Effect of training on enzyme activity and fiber composition of human skeletal muscle. , 1973, Journal of applied physiology.