PURPOSE: The aim of this study was to investigate if the metabolic alterations observed after static magnetic field (SMF) exposure participates in the development of a pre-diabetic state. A comparison study using the insulin resistant animal model, the Zucker rat and the SMF-exposed Wistar rat was carried out. MATERIALS AND METHODS: Zucker rats were compared to Wistar rats either exposed to a 128 mT or 0 mT SMF (sham exposed) and analysed. This moderate-intensity SMF exposure of Wistar rats was performed for 1 h/day during 15 consecutive days. RESULTS: Wistar rats exposed to the SMF showed increased levels of carbohydrate and lipid metabolites (i.e., lactate, glycerol, cholesterol and phospholipids) compared to sham-exposed rats. Zucker rats displayed a normoglycemia associated with a high insulin level as opposed to Wistar rats which presented hyperglycemia and hypoinsulinemia after exposure to the SMF. During the glucose tolerance test, unexposed Zucker rats and Wistar rats exposed to the SMF exhibited a significantly higher hyperglycemia compared to sham-exposed Wistar rats suggesting an impairment of glucose clearance. In muscle, glycogen content was lower and phospholipids content was elevated for both unexposed Zucker rats and Wistar rats exposed to the SMF compared to Wistar rats sham control. CONCLUSIONS: This study provides evidence that the metabolic alterations following exposure to a static magnetic field of moderate intensity could trigger the development of a pre-diabetic state.
PURPOSE: The aim of this study was to investigate if the metabolic alterations observed after static magnetic field (SMF) exposure participates in the development of a pre-diabetic state. A comparison study using the insulin resistant animal model, the Zucker rat and the SMF-exposed Wistar rat was carried out. MATERIALS AND METHODS: Zucker rats were compared to Wistar rats either exposed to a 128 mT or 0 mT SMF (sham exposed) and analysed. This moderate-intensity SMF exposure of Wistar rats was performed for 1 h/day during 15 consecutive days. RESULTS:Wistar rats exposed to the SMF showed increased levels of carbohydrate and lipid metabolites (i.e., lactate, glycerol, cholesterol and phospholipids) compared to sham-exposed rats. Zucker rats displayed a normoglycemia associated with a high insulin level as opposed to Wistar rats which presented hyperglycemia and hypoinsulinemia after exposure to the SMF. During the glucose tolerance test, unexposed Zucker rats and Wistar rats exposed to the SMF exhibited a significantly higher hyperglycemia compared to sham-exposed Wistar rats suggesting an impairment of glucose clearance. In muscle, glycogen content was lower and phospholipids content was elevated for both unexposed Zucker rats and Wistar rats exposed to the SMF compared to Wistar rats sham control. CONCLUSIONS: This study provides evidence that the metabolic alterations following exposure to a static magnetic field of moderate intensity could trigger the development of a pre-diabetic state.
Authors: Calvin S Carter; Sunny C Huang; Charles C Searby; Benjamin Cassaidy; Michael J Miller; Wojciech J Grzesik; Ted B Piorczynski; Thomas K Pak; Susan A Walsh; Michael Acevedo; Qihong Zhang; Kranti A Mapuskar; Ginger L Milne; Antentor O Hinton; Deng-Fu Guo; Robert Weiss; Kyle Bradberry; Eric B Taylor; Adam J Rauckhorst; David W Dick; Vamsidhar Akurathi; Kelly C Falls-Hubert; Brett A Wagner; Walter A Carter; Kai Wang; Andrew W Norris; Kamal Rahmouni; Garry R Buettner; Jason M Hansen; Douglas R Spitz; E Dale Abel; Val C Sheffield Journal: Cell Metab Date: 2020-10-06 Impact factor: 27.287
Authors: Youzan Ferdinand Djohan; Fabrice Raynaud; Karen Lambert; Jean-Paul Cristol; Charles Coudray; Christine Feillet-Coudray; Anne Virsolvy; Eric Badia Journal: Biochem Res Int Date: 2022-08-19