Zinc sulphate administered by transdermal iontophoresis improves breaking strength of surgical wounds in skin of alloxan-induced diabetic rats

PURPOSE:To investigate the effect of zinc sulphate administered by transdermal iontophoresis (TDI) on mechanical resistance of surgical wounds performed in the skin of diabetic rats. METHODS:One hundred and sixty male Wistar rats weighing approximately 250g were submitted to an incision surgery at the anterior region of abdomen and randomly distributed into four experimental groups with 40 non-diabetic control animals (G1) and 40 untreated diabetic animals (G2), both without any treatment of incisions; 40 non-diabetic animals (G3) and 40 untreated diabetic animals (G4), both with incisions treated with zinc sulphate, administered for a period of four consecutive days after surgery, in sessions of ten minutes duration, using a continuous-current electrostimulator (Zn + TDI). Each experimental group was further divided into four subgroups with ten rats each to be evaluated on the 4th, 7th, 14th, and 21st day after surgery. In each period were analyzed clinical and laboratory from the animals, and measured the breaking strength and hydroxyproline content (OH-P) of the skin scars. RESULTS: Breaking strength (BS) was significantly reduced (p<0.05) in skin scars of untreated diabetic rats (G2) on the 7th, 14th, and 21st postoperative days when compared to non-diabetic control rats (G1). In contrast, BS in skin scars of non-diabetic and untreated diabetic rats (G3, G4) treated with Zn + TDI showed significant increase (p<0.05) in those periods when compared with their respective controls with untreated incisions. The OH-P content of the scars did not show statistically significant variation in all studied groups at four different times evaluated after surgery. CONCLUSIONS: Zinc sulphate administered by transdermal iontophoresis had beneficial effect on the mechanical resistance of scars produced in the skin of diabetic rats. This therapeutic may have potential to reduce the complications observed in surgical wounds of the skin in diabetic subjects, mainly in most vulnerable stages of incisions to dehiscences, leakages and infections.

The effects of ingested aluminium on brain cytochrome oxidase activity / Efectos de la ingestión de aluminio sobre la actividad de la oxidasa citocrómica del cerebro

Aluminium has a unique combination of physical and chemical properties which has enabled man to put this metal to very wide and varied use. However, prolonged exposure to aluminium ions may lead to adverse health effects. In this study, we evaluated the effects of dietary aluminium on the protein composition and the intrinsic activity of cytochrome oxidase (COX) for brain mitochondria. New Zealand white rabbits were maintained on a diet of commercial rabbit pellets and distilled water for a period of 12 weeks. For the experimental group, AlCl3, 330mg/kg/L was added to the drinking water. When compared to the control, mitochondria isolated from the brains of the AlCl3 fed rabbits showed no change in Km but an approximate 35% decrease in both the low and high affinity Vmax values. Also, whereas the protein composition of the mitochondria from both sources appeared to be normal, isolation of highly purified COX proved to be difficult and for the AICI3 fed rabbits, a number of the enzyme's low molecular weight subunits were absent. These results appear to confirm a relationship between long term aluminium consumption and low brain COX activity; they further suggest that an altered COX structure may be the cause of the low enzymic activity.

El aluminio posee una combinación única de las propiedades físicas y químicas que ha permitido al ser humano hacer un uso amplio y variado de este metal. Sin embargo, un número de estudios recientes, sugiere que la exposición prolongada a los iones de aluminio puede tener efectos nocivos sobre la salud. En el presente estudio, evaluamos los efectos del aluminio dietético sobre la composición proteínica y la actividad intrínseca de la oxidasa citocrómica (COX) para la mitocondria cerebral. Conejos blancos de Nueva Zelanda, fueron mantenidos con una dieta de alimento para conejos y agua destilada por un período de 12 semanas. Para el grupo experimental AlCl3, 330mg/kg/L fueron añadidos al agua potable. En comparación con el grupo de control, las mitocondrias aisladas de los cerebros de los conejos alimentados con AlCl3 no mostraron cambios en Km pero hubo una disminución de aproximadamente 35% tanto en los valores Vmax de baja y alta afinidad. Por otro lado, mientras que la composición proteica de las mitocondrias de ambas fuentes parecía ser normal, resultó difícil aislar el COX altamente purificado y un número de enzimas de subunidades de bajo peso molecular MMMM estuvieron ausentes. Estos resultados parecen confirmar una relación entre el consumo de aluminio a largo plazo y la baja actividad del COX del cerebro. Asimismo, sugieren que una alteración de la estructura del COX puede ser la causa de una baja actividad enzimática.

Diabetic neuropathy and zinc therapy.

This was a double blind study conducted on 60 subjects; 20 age and sex matched healthy controls (Group-I), 20 patients of diabetes mellitus with neuropathy who received placebo for 6 weeks (Group-IIA); and 20 patients of diabetes mellitus with neuropathy who were given oral 660 mg zinc sulphate for 6 weeks (Group-IIB). Serum zinc level, fasting blood sugar (FBS), blood sugar 2 hour after breakfast (2HABF) and motor nerve conduction velocity (MNCV) were estimated on day 0 and after 6 weeks in all subjects. Serum zinc levels were significantly low (p<0.001) in group II-A and II-B as compared to healthy controls (group-I) at base line. After 6 weeks the changes in pre and post therapy values of FBS, 2HABF and MNCV (median and common peroneal nerve) were highly significant (p<0.001) for group II-B alone with insignificant change (p>0.05) in group II-A. Therefore, zinc therapy helps in achieving better glycemic control and improvement in peripheral neuropathy as assessed by MNCV.