The study investigates the impact of high-voltage low-frequency electrotherapy on glucose levels and hematological parameters in an in vivo model of type 2 diabetes. The results demonstrate a significant reduction in ...The study investigates the impact of high-voltage low-frequency electrotherapy on glucose levels and hematological parameters in an in vivo model of type 2 diabetes. The results demonstrate a significant reduction in glucose increases during glucose tolerance tests (GTT) and suggest potential mechanisms, including improved insulin sensitivity and reduced inflammation. Hematological analysis indicates no adverse effects of electrotherapy on healthy or diabetic mice. This study supports the potential of high-voltage low-frequency electrotherapy as an adjunctive treatment for type 2 diabetes, warranting further research into its mechanisms and long-term effects.展开更多
文摘The study investigates the impact of high-voltage low-frequency electrotherapy on glucose levels and hematological parameters in an in vivo model of type 2 diabetes. The results demonstrate a significant reduction in glucose increases during glucose tolerance tests (GTT) and suggest potential mechanisms, including improved insulin sensitivity and reduced inflammation. Hematological analysis indicates no adverse effects of electrotherapy on healthy or diabetic mice. This study supports the potential of high-voltage low-frequency electrotherapy as an adjunctive treatment for type 2 diabetes, warranting further research into its mechanisms and long-term effects.
