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Blood Plasma's Protective Ability against the Degradation of S-Nitrosoglutathione under the Influence of Air-Pollution-Derived Metal Ions in Patients with Exacerbation of Heart Failure and Coronary Artery Disease.
Wądołek, A, Drwiła, D, Oszajca, M, Stochel, G, Konduracka, E, Brindell, M
International journal of molecular sciences. 2021;(19)
Abstract
One of the consequences of long-term exposure to air pollutants is increased mortality and deterioration of life parameters, especially among people diagnosed with cardiovascular diseases (CVD) or impaired respiratory system. Aqueous soluble inorganic components of airborne particulate matter containing redox-active transition metal ions affect the stability of S-nitrosothiols and disrupt the balance in the homeostasis of nitric oxide. Blood plasma's protective ability against the decomposition of S-nitrosoglutathione (GSNO) under the influence of aqueous PM extract among patients with exacerbation of heart failure and coronary artery disease was studied and compared with a group of healthy volunteers. In the environment of CVD patients' plasma, NO release from GSNO was facilitated compared to the plasma of healthy controls, and the addition of ascorbic acid boosted this process. Model studies with albumin revealed that the amount of free thiol groups is one of the crucial factors in GSNO decomposition. The correlation between the concentration of NO released and -SH level in blood plasma supports this conclusion. Complementary studies on gamma-glutamyltranspeptidase activity and ICP-MS multielement analysis of CVD patients' plasma samples in comparison to a healthy control group provide broader insights into the mechanism of cardiovascular risk development induced by air pollution.
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Particulate metal exposures induce plasma metabolome changes in a commuter panel study.
Ladva, CN, Golan, R, Liang, D, Greenwald, R, Walker, DI, Uppal, K, Raysoni, AU, Tran, V, Yu, T, Flanders, WD, et al
PloS one. 2018;(9):e0203468
Abstract
INTRODUCTION Advances in liquid chromatography-mass spectrometry (LC-MS) have enabled high-resolution metabolomics (HRM) to emerge as a sensitive tool for measuring environmental exposures and corresponding biological response. Using measurements collected as part of a large, panel-based study of car commuters, the current analysis examines in-vehicle air pollution concentrations, targeted inflammatory biomarker levels, and metabolomic profiles to trace potential metabolic perturbations associated with on-road traffic exposures. METHODS A 60-person panel of adults participated in a crossover study, where each participant conducted a highway commute and randomized to either a side-street commute or clinic exposure session. In addition to in-vehicle exposure characterizations, participants contributed pre- and post-exposure dried blood spots for 2-hr changes in targeted proinflammatory and vascular injury biomarkers and 10-hr changes in the plasma metabolome. Samples were analyzed on a Thermo QExactive MS system in positive and negative electrospray ionization (ESI) mode. Data were processed and analyzed in R using apLCMS, xMSanalyzer, and limma. Features associated with environmental exposures or biological endpoints were identified with a linear mixed effects model and annotated through human metabolic pathway analysis in mummichog. RESULTS HRM detected 10-hr perturbations in 110 features associated with in-vehicle, particulate metal exposures (Al, Pb, and Fe) which reflect changes in arachidonic acid, leukotriene, and tryptophan metabolism. Two-hour changes in proinflammatory biomarkers hs-CRP, IL-6, IL-8, and IL-1β were also associated with 10-hr changes in the plasma metabolome, suggesting diverse amino acid, leukotriene, and antioxidant metabolism effects. A putatively identified metabolite, 20-OH-LTB4, decreased after in-vehicle exposure to particulate metals, suggesting a subclinical immune response. CONCLUSIONS Acute exposures to traffic-related air pollutants are associated with broad inflammatory response, including several traditional markers of inflammation.
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An Assessment of the Consumption of Energy and Selected Minerals and Their Content in the Hair of Children Aged 1-4 Years.
Marcinek, K, Wójciak, RW, Krejpcio, Z, Stanisławska-Kubiak, M
Biological trace element research. 2016;(2):255-63
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Abstract
The aim of this study was to assess the consumption of energy and selected minerals (Ca, Mg, Fe, Zn, Cu) and their content in the hair of children aged 1-4 years. Seventy-five children were divided into three age subgroups: 12-24-month-olds, 25-36-month-olds and 37-48-month-olds. The data on energy intake and consumption of nutrients were obtained by means of a nutritional interview. The content of elements in the hair was measured by means of flame atomic absorption spectrometry (AAS) with an AAS-3 spectrophotometer (Zeiss). The daily food rations of children aged 12-36 months were characterised by adequate energy value, but the values of Ca and K were too low, whereas the content of Mg, Zn and Cu was high. On the other hand, the daily food rations of children aged 37-48 months provided sufficient amounts of Mg and Zn, but the value of Cu was too high, whereas energy, Ca, K and Fe were too low. About 42.7% of the children under study were characterised by an abnormal state of nutrition. An inadequately balanced diet needs to be corrected by educating parents or guardians in appropriate nutrition. There are significant correlations (r > 0.9) between the supply of Ca in the diet of children aged 1-4 years and the content of this element in their hair.
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A comparative analysis of metal allergens associated with dental alloy prostheses and the expression of HLA-DR in gingival tissue.
Zhang, X, Wei, LC, Wu, B, Yu, LY, Wang, XP, Liu, Y
Molecular medicine reports. 2016;(1):91-8
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Abstract
The present study aimed to provide guidance for the selection of prosthodontic materials and the management of patients with a suspected metal allergy. This included a comparison of the sensitivity of patients to alloys used in prescribed metal‑containing prostheses, and correlation analysis between metal allergy and accompanying clinical symptoms of sensitized patients using a patch test. The results from the patch test and metal component analyses were processed to reach a final diagnosis. In the present study, four dental alloys were assessed. Subsequent to polishing the surface of a metal restoration, the components were analyzed using an X‑ray fluorescence microscopy and spectrometry. Immunohistochemical analysis, reverse transcription‑polymerase chain reaction and western blotting were used to detect the expression levels of human leukocyte antigen (HLA)‑DR in gingival tissues affected by alloy restoration, and in normal gingival tissue samples. Positive allergens identified in the patch test were consistent with the components of the metal prostheses. The prevalence of nickel (Ni) allergy was highest (22.8%), and women were significantly more allergic to palladium and Ni than men (P<0.05). The protein and gene expression levels of HLA‑DR in the Ni‑chromium (Cr) prosthesis group were significantly higher, compared with those in the other groups (P<0.01); followed by cobalt‑Cr alloy, gold alloy and titanium alloy. In conclusion, dentists require an understanding of the corrosion and allergy rates of prescribed alloys, in order to reduce the risk of allergic reactions. Patch testing for hypersensitive patients is recommended and caution is required when planning to use different alloys in the mouth.
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Sirolimus-eluting stents suppress neointimal formation irrespective of metallic allergy.
Nakazawa, G, Tanabe, K, Aoki, J, Onuma, Y, Higashikuni, Y, Yamamoto, H, Ohtsuki, S, Yachi, S, Yagishita, A, Nakajima, H, et al
Circulation journal : official journal of the Japanese Circulation Society. 2008;(6):893-6
Abstract
BACKGROUND Metallic allergy is associated with restenosis following bare metal stent implantation, but the impact of metallic allergy on the outcome after implantation of drug-eluting stents (DES) has not been investigated. METHODS AND RESULTS The present study group consisted of 88 consecutive patients (109 lesions) who underwent percutaneous coronary intervention with sirolimus-eluting stents (SES). Follow-up angiography was obtained at 8 months in all patients. At that time, the patients underwent epicutaneous patch tests for nickel, chromate, molybdenum, manganese, and titanium, which were evaluated after 48 h of contact. The patch test was positive in 14 patients (16%) (5 for manganese, 3 for nickel, 1 for chromate, 1 for Nickel and manganese, and 4 for manganese and chromate). The binary restenosis rate in the patients with a positive patch test was similar to those with negative patch test (6.3% vs 6.5%, p=0.98). Serial quantitative coronary angiography analyses identified no significant differences in late lumen loss of in-stent segments between patients with positive patch test and those with negative patch test (0.19+/-0.49 mm vs 0.12+/-0.48 mm, p=0.55). CONCLUSION SES prevent restenosis irrespective of metallic allergy. The classic relationship between metallic allergy and in-stent restenosis, seen with bare metal stents, does not appear to arise with DES, possibly because of the immunosuppressive effect of sirolimus.