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SHR Neuro Cancer Cardio Lipid Metab Microb
Stossier, H; Porta, S; Gell, H; Porta, J; Kisters, K; .
The effects of antioxidative treatment upon electrolyte and metabolic reactions of a chronically stressed group.
TRACE ELEM ELECTROLYTES. 2013; 30(1): 1-6.
Doi: 10.5414/TEX01254
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- Porta Sepp
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- Abstract:
- The staff of a rehabilitation clinic was treated with an antioxidative nutraceutical during a demanding time of 8 weeks in a double blind, placebo controlled manner. Metabolic changes in metabolism and electrolyte state due to chronic workload, acute, standardized ergometry and, eventually to antioxidant treatment were recorded by capillary blood determination of pH, pCO(2), BE, blood glucose, lactate, K, Ca, Mg by Clinical Stress Assessment software. It turned out that those parameters changed significantly after 8 weeks of increased workload and also after standard ergometry. However, the antioxidant treated group showed significantly less chronic signs of metabolic distress due to the demanding working situation as well as a significantly calmer reaction to acute ergometric load, concerning lactate, base excess and pCO(2) changes. Electrolyte changes figure prominently among the workload effects both in group averages and in treatment dependent correlations with metabolic data. Mg changes are particularly sensible to a rise in metabolic dynamics, and therefore Mg is liable to be substituted to grant undisturbed energy turnover in a difficult situation.
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