Insulin sheep

Alloxan (1003) has been observed in the mucus associated with dysentery and it was the very first pyrimidine made synthetically when Brugnatelli oxidized uric acid in 1818. Alloxan has an interesting diabetogenic action which appears to be associated with removal of essential zinc from insulin by chelation. Such permanent diabetes may be induced in fish, dogs, cats, sheep, some birds, monkeys and other creatures, but not in man, owls or guinea-pigs certain pyrimidines related to alloxan show some such activity. 

JP Longenecker, AC Moses, JS Flier, RD Silver, MC Carey, EJ Dubovi. (1987). Effects of sodium taurodihydrofusidate on nasal absorption of insulin in sheep. J Pharm Sci 76 351-355. 

Ilium et al. [49] evaluated chitosan solutions as delivery platforms for nasal administration of insulin to rats and sheep. They reported a concentration-dependent absorption-enhancing effect with minimal histological changes of the nasal mucosa in all concentrations applied. 

Human insulin differs slightly from cow, pig, sheep, horse, and other forms of insulin, as shown in the table on page 68. For the vast majority of diabetics, these differences are irrelevant. Bovine (cow), porcine (pig), and some other forms of animal insulin can be pharmaceutically used as substitutes for human insulin. About 5 percent of all diabetics experience reactions to animal insulin, however, and for such individuals, only insulin taken from human sources can be used as a replacement drug in the treatment of their diabetes. 

The synthesis of the A chain of sheep insulin by Katsoyannis et al.,[11] in which the final coupling was between residues 1-9 and 10-21, is illustrated in Scheme 3. 

Chitosan is a cationic polysaccharide produced from the deacetylation of chitin, a component of crab and shrimp shells [7,57,58], Chitin is composed of units of 2-deoxy-2-(acetylamino) glucose joined by glycosidic bonds that form a linear polymer. Ilium et al. [7,57,58] demonstrated the ability of chitosan to increase the bioavailability of insulin and other small peptides and polar macromolecules in different animal models. In both the sheep and rat models, the addition of chitosan at concentrations of 0.2%-0.5% to nasal formulations of insulin resulted in significant increases in plasma insulin and reductions in blood glucose. Reversibility studies indicated that the effect of chitosan on the nasal absorption of insulin... 

Chitosans 0.1%-1% Rat, sheep Calcitonin, insulin, goserelin growth hormone C, F 57-68... 

Chitosan is a linear cationic polysaccharide made up of copolymers of glucosamine and A-acetylglucosaminc. It is commercially obtained by alkaline deacetylation of chitin [53, 68] and has been used for the nasal delivery of a number of drugs. The usefulness of chitosan in the enhancement of nasal absorption was reported first by Ilium [69]. Later, Ilium and his group also published experimental results indicating that solution formulations with 0.5% chitosan promoted the absorption of nasally administered insulin in rat and sheep [70]. 

Since the concentrations of insulin to be administered in the sheep model would have been large, the insulin-loaded chitosan nanoparticles were not investigated in that model. However, the pharmacodynamics and pharmacokinetics of various insulin-chitosan preparations were compared with postloaded insulin-chitosan nanoparticles. It was found that chitosan solution and chitosan powder formulations were far better, with the chitosan powder formulation showing a bioavailability of 17% as against 1.3 and 3.6% for the chitosan nanoparticles and chitosan solution [72], The effects of the concentration and osmolarity of chitosan and the presence of absorption enhancers in the chitosan solution on the permeation of insulin across the rabbit nasal mucosa in vitro and in vivo were investigated, and the same... 

The nasal absorption of insulin after administration in chitosan powder was the most effective formulation for nasal delivery of insulin in sheep compared to chitosan nanoparticles and chitosan solution [11], Similarly, chitosan powder formulations have been shown to enable an efficient nasal absorption of goserelin in a sheep model where bioavailabilities of 20-40% were obtained depending on the nature of the formulation [9],... 

Chitosan microspheres were shown to enhance nasal bioavailability of several peptide drugs such as insulin and goserelin. A simple chitosan-insulin powder formulation provided about 20% of absolute insulin bioavailability in sheep [96], Improved bioavailability (of 44%, in rats) was obtained when insulin was loaded into chitosan microspheres prepared with ascorbyl palmitate as cross-linking agent [91]. Chitosan microspheres have also been shown to improve nasal goserelin absorption providing about 40% bioavailability relative to goserelin intravenous application [9],... 

Richardson, J. L., Farraj, N. F., and Ilium, L. (1992), Enhanced vaginal absorption of insulin in sheep using lysophosphatidylcholine and a bioadhesive microsphere delivery system, Int. J. Pharm., 88, 319-325. 

Lee TC, Gold LI, Reibman J, et al. 1997. Immunohistochemical localization of transforming growth factor-beta and insulin-like growth factor-I in asbestosis in the sheep model. Int Arch Occup Environ Health 69 157-164. 

Indirect Two-Site Immunoradiometric Assay of Human Proinsulin. The method used is that described by Rainbow et al. Plastic tubes coated with purified guinea pig anti-insulin antibodies are prepared as described above 200-jul samples containing human proinsulin are added to these coated tubes and incubated at 4° for 24 hr. After removal of the sample, tubes are washed twice with 400 /tl of NIGP buffer. Rabbit antibody to human C-peptide is diluted to 1/1000 in 50 mM sodium phosphate buffer, pH 7.4, containing 150 mM sodium chloride, 10 g of bovine serum albumin per liter, and 100 mg of guinea pig IgG per liter 200 /til are added to each tube. After a further 24 hr of incubation at 4 the tubes are washed twice as previously and 200 /u,l of I-labeled sheep anti-rabbit IgG (10,000 cpm) are added in the same buffer as that used for diluting the C-peptide antiserum. After a final 24 hr of incubation and two further washes as above, the tubes are counted. 

Engler D, Pham T, Fullerton MJ, Ooi G, Funder JW, Clarke IJ (1989) Studies of the secretion of corticotropin-releasing factor and arginine vasopressin into the hypophysial-portal circulation of the conscious sheep. I. Effect of an audiovisual stimulus and insulin-induced hypoglycemia. Neuroendocrinology 49 367-381. 

To increase the residence time in the nasal mucosa, a bioadhesive formulation may be one of the most reasonable approaches. In fact, microspheres containing bioadhesive polymers such as starch, albumin, and Sephadex with a particle size of 40-60 pm have been found to be cleared from the nasal cavity much more slowly than solutions. Starch microspheres improved the nasal absorption of insulin, with synergistic effects of some absorption enhancers in sheep. In another paper, dry powder containing starch and Carbopol 974P showed significantly higher bioavailability after nasal administration than the formulation without Carbopol. ° Chitosan, already mentioned above, also has a bioadhesive property and is found to be useful as a potent absorption enhancer for nasal peptide delivery. Other bioadhesive polymer systems,... 

If sodium propionate is ingested or applied topically in an acid media, it becomes propionic acid. It oxidizes fatty acids, lowers pH values, and facilitates the citric acid cycle through interaction with coenzyme A. There has been evidence of heightened production of insulin in cows and sheep the insulin later settles to an overall lower level. 

With successful advances in research, several other recombinant proteins of pharmaceutical interest have been developed from the milk of transgenic animals. In this context, some human proteins have already been expressed with success. Products such as insulin and growth hormone have also been obtained from the milk of transgenic cows, sheep, or goats (Margawati, 2003). 

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