Jean-Jacques Serrano scite author profile

This study explored some toxicological aspects of vanadyl sulphate (VOSO4) treatment of rats made diabetic with a single intravenous injection of streptozotocin (60 mg/kg). Administered in drinking water (0.25, 0.5, 0.75 or 1 mg of VOSO4, 5H2O ml) VOSO4 treatment partially or totally corrected some of the alterations associated with the diabetic state (hyperglycaemia, polydipsia, polyphagia, high cholesterol and triglycerides levels) and did not produce any changes in various plasma or blood cell parameters which were not previously altered by diabetes. Measurement of vanadium levels indicated that tissues accumulated vanadium in the following order of concentrations: bone greater than kidney greater than spleen greater than liver greater than lung greater than or equal to muscle greater than blood. Histopathological studies did not reveal any difference in liver, stomach, ileum, spleen, heart and lung from control, non-treated diabetic or VOSO4-treated diabetic animals. Kidney of all non-treated diabetic animals showed an epithelial cellular swelling of distal tubules while only 2 of 6 VOSO4-treated diabetic animals showed this alteration. Cellular degeneration of pancreas B-cells was less marked in VOSO4-treated that in non-treated diabetic animals. The study indicates that VOSO4 may be a potential antidiabetic agent.

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In vivo antidiabetic actions of naglivan, an organic vanadyl compound in streptozotocin-induced diabetes

Cam

Cros

Serrano

et al. 1993

Diabetes Research and Clinical Practice

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Enhanced in vivo sensitivity of vanadyl-treated diabetic rats to insulin

Ramanadham

Cros²,

Mongold³

et al. 1990

Can. J. Physiol. Pharmacol.

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Vanadium has been reported to have insulin-like properties and has recently been demonstrated to be beneficial in the treatment of diabetic animals. In the present study, concentration dependence of the therapeutic effects of vanadium and the nature of interaction under in vivo conditions between vanadium and insulin were examined in streptozotocin-diabetic rats. During a 2-week period, blood glucose levels in all treated animals were decreased. At higher concentrations of vanadyl this decrease was greater and more rapid, and remained consistently lower for the entire treatment period. Daily intake of vanadyl, however, reached a similar steady state in all groups. Acute administration of submaximal doses of insulin, which had minimal effects in untreated diabetic rats, lowered blood glucose concentrations in vanadyl-treated and vanadyl-withdrawn animals to control levels. Chronic treatment of streptozotocin-diabetic rats with submaximal levels of vanadyl and insulin, ineffective alone, also produced significant decreases in blood glucose levels when used in combination. Finally, the insulin dosage required to maintain a nonglycosuric state in spontaneously diabetic (BB) rats was reduced in the presence of vanadyl. These studies indicate that chronic oral vanadyl treatment (a) produces a concentration-related lowering of blood glucose in diabetic rats, (b) potentiates the in vivo glucose lowering effects of acute and chronic administrations of insulin in streptozotocin-diabetic rats, and (c) substitutes for, or potentiates, the effects of chronic insulin therapy in spontaneously diabetic BB rats.

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Effects of vanadyl derivatives on animal models of diabetes

et al. 1992

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Vanadium pharmacokinetics and oral bioavailability upon single‐dose administration of vanadyl sulfate to rats

Azay¹,

Brès²,

Krośniak

et al. 2001

Fundamemntal Clinical Pharma

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Vanadium pharmacokinetic parameters and oral bioavailability were determined after administration of vanadyl sulfate, an antidiabetic agent, to male Wistar rats. An optimal sampling design was used over a 21-day period; vanadium was measured in blood by atomic absorption spectrophotometry (AAS). After i.v. bolus injection (3.025 mg V/kg body weight), a three-compartment model was fitted to the data. Mean (+/- SD) half-lives were 0.90 +/- 0.56 hours, 24.8 +/- 14.5 h and 201 +/- 74 h, respectively, for the three phases observed. Vanadium clearance averaged 37.6 +/- 15.8 mL/h. Initial volume of distribution was 2.43 +/- 1.22 L/kg whereas total volume of distribution was 25.4 +/- 3.9 L/kg; these values largely exceeded body weight (i.e. 300 g), in agreement with a great uptake and retention of vanadium in tissues. After oral gavage administration (15.12 and 7.56 mg V/kg body weight), vanadium disposition was best described by a three-compartment model, with absorption appearing to occur by a zero-order rate. This process lasted 10.3 +/- 1.3 h and 10.9 +/- 1.1 h for the two dosage levels, respectively. Half-lives corresponding to the terminal log-linear part of the curve were 173.5 +/- 1.6 h and 172 +/- 6 h (Bayesian estimates). No dose-dependency was observed for any of the parameters determined. Absolute bioavailabilities, with reference to the i.v. administration, were 12.5% and 16.8% when determined from AUCmod. Bioavailability appeared to be higher than generally stated in the literature.

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