Hostname: page-component-586b7cd67f-vdxz6 Total loading time: 0 Render date: 2024-11-20T06:36:53.817Z Has data issue: false hasContentIssue false

Morphological changes in skeletal muscles in vitamin E-deficient and refed rabbits*

Published online by Cambridge University Press:  09 March 2007

A. C. Chan
Affiliation:
Department of Food Science and Nutrition, University of Minnesota, St Paul, Minnesota 55108, USA
P. V. J. Hegarty
Affiliation:
Department of Food Science and Nutrition, University of Minnesota, St Paul, Minnesota 55108, USA
Rights & Permissions [Opens in a new window]

Abstract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

1. Nutritional muscular dystrophy was induced in young rabbits by giving them a vitamin E-deficient diet. Dystrophic animals were rehabilitated by the addition of vitamin E to the diet. Controls were fed on a supplemented diet containing 50 mg DL-α-tocopheryl acetate/kg.

2. Muscle weight and fibre diameter were determined in seven skeletal muscles, from the fore-limb (biceps brachii), the trunk (pectoralis descendens), the hind-limb (gastrocnemius, semitendinosus, soleus, plantaris and tibialis cranialis). Muscle weights, except for those of the soleus and semitendinosus, were significantly reduced in vitamin E-deficient animals when compared with the control animals. A monophasic fibre diameter distribution was obtained for all muscles from all the groups studied. Distribution curves for vitamin E-deficient muscles showed a consistent decrease in fibre diameter. The extent of change in distribution varied among different muscles. On refeeding, the redistribution curve returned to the normal pattern in the biceps brachii, semitendinosus, gastrocnemius, plantaris, tibialis cranialis and pectoralis descendens but not in the soleus.

3. No significant changes in bone length or weight were detected in the humerus, femur and tibia in vitamin E-deficient rabbits compared to the control animals.

4. Transverse and longitudinal sections of the seven muscles were studied by light microscopy. In the vitamin E-deficient animals, typical hyaline degeneration was observed with much infiltration of collagen and lymphocytes. The extent of degeneration varied among muscles, the gastrocnemius being most affected and the semitendinosus least affected. Muscles in the rabbits refed vitamin E showed that the infiltration with collagen and lymphocytes had almost disappeared.

Type
Research Article
Copyright
Copyright © The Nutrition Society 1977

References

REFERENCES

Ashmore, C. R. & Doerr, L. (1971). Expl Neurol. 30, 431.CrossRefGoogle Scholar
Barone, R. (1973). Atlas d'anatomie du lapin: Atlas of rabbit anatomy. Paris: Masson.Google Scholar
Butterfield, R. M. & Berg, R. T. (1966). Res. vet. Sei. 7, 326.CrossRefGoogle Scholar
Chor, H. & Dolkart, R. E. (1939). Archs. Path. 27, 497.Google Scholar
Chow, C. K., Draper, H. H. & Csallany, A. S. (1969). Analyt. Biochem. 32, 81.CrossRefGoogle Scholar
Close, R. I. (1972). Physiol. Rev. 52, 129.Google Scholar
Draper, H. H., Bergan, J. G., Chiu, M., Csallany, A. S. & Boaro, A. V. (1964). J. Nutr. 84, 395.Google Scholar
Draper, H. H. & Csallany, A. S. (1969). J. Nutr. 98, 390.Google Scholar
Goldspink, G. (1972). In The Structure and Function of Muscle, Vol. 1, p. 181 [Bourne, G. H., editor]. New York and London: Academic Press.Google Scholar
Green, J., Diplock, A. T., Bunyan, J. & Edwin, E. E. (1961). Biochem. J. 79, 108.CrossRefGoogle Scholar
Hammond, J. (1932). Growth and Development of Mutton Qualities in Sheep. Edinburgh: Oliver & Boyd.Google Scholar
Hegarty, P. V. J. & Naudé, R. T. (1970). Lab. Prac. 19, 61.Google Scholar
Howes, E. L., Price, H. M. & Blumberg, J. M. (1964). Am. J. Path. 45, 599.Google Scholar
Koszalka, T. R., Mason, K. E. & Krol, G. (1961). J. Nutr. 73, 78.CrossRefGoogle Scholar
Landing, B. H., Dixon, L. G. & Wells, T. R. (1974). Human Path. 5, 441.CrossRefGoogle Scholar
Lee, G. L. (1968). Manual of Histologic Staining Methods – AEIP, 3rd ed., p. 94. New York: McGraw-Hill.Google Scholar
MacKenzie, C. G. & McCollum, E. V. (1940). J. Nutr. 19, 345.CrossRefGoogle Scholar
Mason, K. (1973). In The Structure and Function of Muscle, Vol. 4, p. 155. [Bourne, G. H. editor]. New York and London: Academic Press.Google Scholar
Mason, K. E. & Mauer, S. I. (1975). J. Nutr. 105, 484.CrossRefGoogle Scholar
National Academy of Sciences – National Research Council (1966). Nutrient Requirements of Rabbits. Publication no. 1194. Washington DC: National Academy of Sciences.Google Scholar
Nichoalds, G. E., Diehl, J. F. & Fitch, C. D. (1967). Am. J. Physiol. 213, 759.Google Scholar
Noguchi, T., Takano, Y. & Kandatsu, M. (1972). Agric. biol. Chem. 36, 1667.Google Scholar
Olson, R. E. (1974). Am. J. clin. Nutr. 27, 1117.CrossRefGoogle Scholar
Roger, W. M., Pappenheimer, A. M. & Goettsch, M. (1931). J. exp. Med. 54, 167.Google Scholar
Rowe, R. W. D. (1968). J. exp. Zool. 167, 353.CrossRefGoogle Scholar
Rowe, R. W. D. & Goldspink, G. (1969). J. Anat. 104, 531.Google Scholar
Schapira, G. & Dreyfus, J. C. (1963). In Muscular Dystrophy in Man and Animals, p. 48. [Bourne, G. H. and Golarz, M. N., editors]. New York: Hafner Publishing Co.Google Scholar
Shafiq, S. A., Gorycki, M. A. & Milhorat, A. T. (1969). J. Anat. 104, 281.Google Scholar
Simard, P. & Srivastava, U. (1974). J. Nutr. 104, 521.Google Scholar
Sweeny, P. R., Buchanan-Smith, J. G., de Mille, F., Pettit, J. R. & Moran, E. T. (1972). Am. J. Path. 68, 493.Google Scholar
Telford, I. R. (1971). Experimental Muscular Dystrophies in Animals – A Comparative Study. Springfield, Ill.: Charles C. Thomas.Google Scholar
Van Vleet, J. F., Hall, B. V. & Simon, J. (1967). Am. J. Path. 51, 815.Google Scholar
Van Vleet, J. F., Hall, B. V. & Simon, J. (1968). Am. J. Path. 52, 1967.Google Scholar
Weinstock, I. M. (1966). Ann. N. Y. Acad. Sci. 138, 199.CrossRefGoogle Scholar
West, W. T. & Mason, K. E. (1955). Am. J. phys. Med. 34, 223.Google Scholar
West, W. T. & Mason, K. E. (1958). Am. J. Anat. 102, 323.CrossRefGoogle Scholar