Bovine Reproduction. Группа авторов. Читать онлайн. Newlib. NEWLIB.NET

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Издательство: John Wiley & Sons Limited
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Жанр произведения: Биология
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developed symptoms of myxomatosis 7–10 days after infection and had high viral titers in testes. After 20–30 days, testes were 50% of normal size and affected animals had interstitial orchitis and epididymitis [42]. Protein and genomic studies of a porcine paramyxovirus had a close relationship to human mumps virus [43, 44], known to multiply in human testis, causing orchitis in postpubertal men [45]. Furthermore, when 9‐month‐old boars were experimentally infected with porcine paramyxovirus, histopathological epididymal alterations and testicular atrophy associated with degeneration of seminiferous tubules occurred [38]. In another study, colostrum‐deprived pigs were inoculated with porcine circovirus type 2 alone, porcine parvovirus alone, or with both viruses. All pigs that received both viruses became ill; at necropsy (21–26 days after infection), many had hepatomegaly and enlarged kidneys, with granulomatous lesions apparent in many tissues, including testis [46].

      Obesity is associated with testicular degeneration and scrotal insulation has been used to produce testicular degeneration; however, scrotal insulation did not induce fibrotic lesions [4]. In one study, deficient, normal, and excessive dietary intakes did not affect prevalence of fibrotic lesions. However, with prolonged abnormal thermoregulation, especially when semen quantity and quality are very severely reduced, with loss of testis tone and size and with severe seminiferous tubular degeneration, scar tissue infiltration and testis fibrosis are plausible.

      Interestingly, fibrotic lesions in the testes were not associated with poor semen quality. Even bulls with very severe fibrosis produced semen with up to 94% morphologically normal sperm. Therefore presence of relatively large amounts of scar tissue within testis parenchyma did not prevent remaining unaffected parenchyma from producing normal sperm. Although large amounts of scar tissue would be expected to reduce sperm production, this has apparently not been reported.

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      2 2 Setchell, B. (1978). The scrotum and thermoregulation. In: The Mammalian Testis, 50–69. Ithaca, NY: Cornell University Press 90–103.

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      9 9 Gomes, W. (1977). Chemical agents affecting testicular function and male fertility. In: The Testis, vol. III (eds. A.D. Johnson, W.R. Gomes and N.L. VanDemark), 241–279. New York: Academic Press.

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      22 22 Michaux, C., Van Sichem‐Reynaert, R., Beckers, J. et al. (1982). Endocrinological studies on double muscled cattle: LH, GH, testosterone and insulin plasma levels in the first year of life. In: Muscle Hypertrophy of Genetic Origin and its Use to Improve Beef Production (eds. J.W.B. King and F. Ménissier), 350–359. London: Martinus Nijhoff.

      23 23 Welles, E., Tyler, J., Wolfe, D., and Moore, A. (1995). Eperythrozoon infection in young bulls with scrotal and hindlimb edema, a herd outbreak. Theriogenology 43: 557–567.

      24 24 Swift, B., Reeves, J., and Thomas, G. (1979). Testicular degeneration and libido loss in beef bulls experimentally inoculated with Anaplasma marginale. Theriogenology 11: 277–290.

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      29 29 Brito, L., Silva, A., Barbosa, R. et al. (2003). Effects of scrotal insulation on sperm production, semen quality, and testicular echotexture in Bos indicus and Bos indicus × Bos taurus bulls. Anim. Reprod. Sci. 79: 1–15.

      30 30 Sidibe, M., Franco, L., Fredriksson, G. et al. (1992). Effects on testosterone, LH and cortisol concentrations, and on testicular ultrasonographic appearance of induced testicular degeneration in bulls. Acta Vet. Scand. 33: 191–196.

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