Improvement of diabetic states in streptozotocin-induced type 1 diabetic rats by vanadyl sulfate in enteric-coated capsules.

Chronic oral administration of vanadyl sulfate has recently been shown to improve the state of type 2 diabetic subjects. Mild gastrointestinal symptoms and side effects, however, have been observed in some subjects. To find safer and more effective dosages, we have developed an enteric-coated capsule containing solid vanadyl sulfate (ECC/VS), which enhances the bioavailability of vanadyl sulfate to almost double that of vanadyl sulfate solution. ECC/VS was chronically administered to treat streptozotocin-induced diabetic rats (STZ-rats), an animal model of type 1 diabetes mellitus, and an equivalent blood-glucose-lowering effect was observed at half the doses of vanadyl sulfate alone. In addition, we observed almost the same total vanadium levels in the serum after chronic administration of ECC/VS as those of vanadyl sulfate alone, suggesting that plasma vanadium levels correlate with the hypoglycaemic activity of vanadyl sulfate. These results indicate that oral ECC/VS improves the diabetic state by enhancing the uptake of vanadium in STZ-rats. These findings will be useful in designing clinical trials of vanadyl sulfate for diabetic subjects.

Pharmacokinetic study and trial for preparation of enteric-coated capsule containing insulinomimetic vanadyl compounds: implications for clinical use.

To treat patients suffering from diabetes mellitus, we developed several types of orally active vanadyl complexes to replace painful insulin injections, and prepared them in the form of enteric-coated capsules containing vanadium compounds. Pharmacokinetic analysis demonstrated that these capsules enhance the bioavailability of pharmacologically active vanadyl species.

Enteric-coating capsulation of insulinomimetic vanadyl sulfate enhances bioavailability of vanadyl species in rats.

In recent years, there have been improvements in the treatment of type 2 diabetes by oral administration of vanadyl sulfate (VOSO4, VS). The maintenance of vanadyl levels in the blood of subjects with type 2 diabetes was found to be important for the insulinomimetic activity of VS. However, owing to low bioavailability of VS and the development of mild gastrointestinal symptoms and side-effects in some subjects, it is necessary to design more effective and safer dosages of VS. After discovering that VS is absorbed more thoroughly at the ileum than at other gastrointestinal sites, we investigated the absorption processes following oral administration of VS by preparing enteric-coated capsules (ECC). Although Cmax values were unchanged by the dosage forms, Tmax and MRT values associated with the enteric-coating capsulation were prolonged when compared with those observed with use of gelatin capsules (GC). An important finding was that the bioavailability of VS from ECC (9.8%) was almost double that of VS from either GC (4.0%) or the solution (4.8%). Administration of VS-containing ECC to diabetic patients is proposed to improve vanadyl absorption over that achieved by the administration of either GC or the solution.

Metallokinetic study of zinc in the blood of normal rats given insulinomimetic zinc(II) complexes and improvement of diabetes mellitus in type 2 diabetic GK rats by their oral administration.

In order to understand the insulinomimetic activity of zinc(II) complexes, we studied the metallokinetic features of zinc in the blood of normal rats given the zinc complexes, bis(maltolato)zinc(II) (Zn(mal)(2)) and bis(6-methylpicolinato)zinc(II) (Zn(6mpa)(2)) by comparing each of them with an ionic form of zinc chloride (ZnCl(2)). The bioavailability of the zinc(II) complexes following oral administration was enhanced to 1.4-1.5-fold that of ZnCl(2) with respect to zinc level. Based on the results of a metallokinetic analysis and administration method in normal rats, we examined the antidiabetic ability of the zinc(II) complexes in GK rats, a model animal of type 2 diabetes mellitus. High blood glucose levels of GK rats were normalized following intraperitoneal injections and oral administration of the zinc(II) complexes, in which the Zn(6mpa)(2) complex was found to be more effective than Zn(mal)(2). The present results are noteworthy, not only due to their potential relevance for clinical application, but also for the development of new zinc(II) complexes.