17 research outputs found
PREVENTIVE ZINC SUPPLEMENTATION EFFECT ON REDOX STATUS IN RAT MODEL OF MAFLD
Background. Oxidative stress plays an important role in the pathogenesis of metabolic-associated fatty liver disease (MAFLD). Antioxidant trace elements as cofactors of antioxidant enzymes and metalloproteins are involved in this process. Zinc being an important antioxidant may have a positive effect on the treatment of liver pathology. The study aimed to assess the effect of preventive zinc supplementation on MAFLD in rats.
Materials and Methods. A total of 26 three-month-old female Wistar rats were used in the present study. The activity of the antioxidant enzymes superoxide dismutase and catalase, some redox status markers, such as ceruloplasmin, oxidized tryptophan, dithyrosines, total thiols, carbonyls, TBARS, and uric acid were evaluated. Oxidative stress biomarkers were studied spectrophotometrically.
Results. MAFLD was accompanied by hyperuricemia and a decrease in serum dityrosines. The addition of Zn to the diet prevented the development of steatosis, decreased the level of oxidized tryptophan in the liver, and paradoxically caused hyperuricemia in the MAFLD model used. Zn supplementation had a positive effect on the prevention of MAFLD, had a little effect on redox status of animals but caused paradoxical hyperuricemia. Future studies are needed to establish the mechanisms of the Zn effect at the cellular level
Influence of iron and copper consumption on weight gain and oxidative stress in adipose tissue of Wistar rats
Plasma Zinc Levels in Males with Androgenetic Alopecia as Possible Predictors of the Subsequent Conservative Therapy’s Effectiveness
Androgenic alopecia (AGA) is the most common type of progressive hair loss in man. The search for reliable predictors of the conservative treatment’s effectiveness is an urgent problem today. Forty-eight patients with AGA, stages I–IV by the Norwood–Hamilton scale, were treated for 4 months with 5% topical minoxidil joints with corrections for trace element and vitamin imbalances. In most cases, the positive therapy’s effect was shown in the parietal but not in the occipital area, whereas that effect was observed in others. The attempts to associate the therapy’s effectiveness with initially defined genetic, hormonal, and metabolic parameters showed the absence of differences between groups with positive and negative outcomes. Among the studied nutrient parameters (Zn, Cu, Mg, Ca, Fe, and Se, as well as vitamins B12, E, D, and folic acid), differences between these groups was shown in zinc content only. The starting point from a zinc plasma level above 10 µmol/L likely provides the success of the subsequent conservative therapy and correlates with an increase in the hair density and diameter in the parietal area. The integral predictive value of the Zn plasma level was assessed as 72.3% (positive predictive value: −88%; and negative predictive value: −55%)
Blood Essential Trace Elements and Vitamins in Students with Different Physical Activity
Ultratrace element contents in rat tissues: Comparative analysis of serum and hair as indicative matrices of the total body burden
The aim of this study was to investigate the distribution of ultratrace
elements in rat tissues and to perform a comparative analysis of hair and
serum as potential bioindicators of the total ultratrace element content.
Thirty-six male Wistar rats were fed a standard chow containing 0.006±0.000,
0.001±0.000, 0.017±0.002, 0.382±0.031, 0.168±0.014, 3.211±0.134, 0.095±0.006,
0.000±0.000, 6.675±0.336, 15.327±0.564, 0.002±0.000, and 1.185±0.202 μg/g of
silver (Ag), gold (Au), cesium (Cs), gallium (Ga), germanium (Ge), lanthanum
(La), niobium (Nb), platinum (Pt), rubidium (Rb), titanium (Ti), thallium
(Tl)and zirconium (Zr), respectively, from weaning to 3 months old. The
ultratrace element content in the liver, kidney, muscle, heart, serum and
hair was assessed using inductively coupled plasma mass spectrometry. The
obtained data indicate that the highest concentrations of most of the studied
elements (Ti, Zr, Ge, Nb, tungsten (W), La, uranium (U), Ag, Au, Pt) are in
hair, whereas the lowest were observed in the serum. Statistical analysis
revealed a significant association between concentrations in the hair and
other tissues for Cs, Ti, Nb, Tl, La, U and Au. At the same time, serum Cs,
Rb, Ti, Ge, Nb, W, Ga, Tl and La concentrations significantly correlated with
the tissue content of the respective ultratrace elements. It can be concluded
that hair may be used as a potential bioindicator for certain ultratrace
element content in the mammalian organism