GH deprivation after passive immunization against rat GRF (rGRF) markedly affects somatic growth in male rats. Since it has been postulated that GH and probably insulin-like growth factor-I (IGF-I) might have a permissive role on sexual maturation, the effects of GH deprivation on the course of sexual maturation were tested. Male rats were treated with a potent anti-rGRF serum between 15 and 39 days of life (0.25 ml administered sc every second day). Body weight of treated rats averaged 62% of that of control (normal rabbit serum-treated) rats at 40 days of life (d), and 64% at 50 d after which age, treated rats started to grow normally. At 40 and 50 d, pituitary GH content was very much depressed (representing approximately 20% of control values at both ages), plasma GH was undetectable, and plasma IGF-I levels averaged 30% of those of control rats. At 70 d, 30 days after cessation of treatment, pituitary GH content, and IGF-I secretion were almost normal. At 40 d, testes and seminal vesicles of treated rats were small-for-age in agreement with significantly decreased plasma levels of FSH and delayed spermatogenesis characterized by the presence of only few or no spermatozoa. At 50 d, 10 days after cessation of anti-rGRF injections, progress of sexual maturation was found to be consistent with age and coincided with normalization of growth rate. At 40 and 50 d, pituitary contents of FSH and LH were severely decreased but became normal at 70 d. In conclusion, GH deprivation which markedly affected somatic growth induced a transient delay of sexual maturation. GH deficiency seems to have affected mostly the synthesis and secretion of FSH, thus producing a delay in testes growth and in the differentiation of the germinal cells. The low levels of IGF-I might also have been the cause for the delay of maturation at the pituitary and/or the gonadal levels.
Objective. To study the antiinflammatory effect of different doses of intraarticular somatostatin in experimental arthritis in rabbits. Methods. Chronic arthritis was induced by a single injection of fibrin into the knee joint of rabbits previously sensitized to this antigen. The effects of sequential intraarticular injections of somatostatin into the rabbit knee, at doses of 500, 750, and 1,000 μg, were monitored by measuringknee joint circumferences and hematologic parameters. The measurements were compared with those obtained following use of triamcinolone acetonide and placebo. At the end of the experiments, the knee joints were examined histologically. Results. Somatostatin treatment induced a statistically significant and dose‐related reduction of knee joint swelling. This effect was shorter than that produced by triamcinolone acetonide; however, the antiinflammatory activity elicited by successive doses of triamcinolone acetonide declined both in extent and duration, while the effects of somatostatin remained unchanged at each successive treatment. Histopatho‐logic observations showed that both somatostatin and triamcinolone acetonide reduced the inflammatory signs in the joint structures, although triamcinolone acetonide appeared to be more effective. Conclusion. These findings suggest that somatostatin exerts an antiinflammatory effect in this model of experimental arthritis and may represent a valid and safer alternative to corticosteroids for intraarticular therapy of arthritis.
Although genetically engineered human growth hormone (hGH) is now commercially available, native pituitary-derived hGH is still used by physicians in many countries for the treatment of hormone deficiency states. We describe a method using ultrafiltration and 6 M urea that reduced infectivity in human pituitary tissue that had been deliberately contaminated with scrapie virus (an animal analogue of human Creutzfeldt-Jakob disease virus) from an initial level of 109.7 infectious units to just 5 infectious units. Based on estimates of the frequency of contamination and infectivity levels in batches of human pituitaries, the use of this protocol to prepare GH from cadaveric human glands yields a calculated probability of exposure to a contaminated vial of not greater than 1 in 3.2 million recipients; therefore, native hormone prepared by this method may be considered to be essentially risk-free. The same methodology may be useful in the preparation of other hormones, such as prolactin, for which no synthetic substitutes are currently available, as well as biological products derived from sheep or cattle, that may be infected with scrapie or bovine spongiform encephalopathy.
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