Alpha-lipoic acid and its protective role in fructose induced endocrine-metabolic disturbances.
Study Goal
The researchers aimed to investigate the role of fructose in dietary-induced insulin resistance, glucose metabolism alterations, and the potential preventive effects of alpha-lipoic acid.
Results Summary
The study found that high fructose diets contribute to insulin resistance, impaired glucose tolerance, and dyslipidemia, but co-administration of alpha-lipoic acid normalized these changes, suggesting its therapeutic potential.
Population
Murine models (mice)
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
high fructose diet | increase | obesity and type 2 diabetes | human populations | - | leads to | #1 |
high fructose diet | increase | insulin resistance | murine models | - | generated | #2 |
high fructose diet | increase | impaired glucose tolerance | murine models | - | generated | #3 |
high fructose diet | increase | dyslipidemia | murine models | - | generated | #4 |
high fructose diet | increase | alterations in glucose metabolism | murine models | - | generated | #5 |
oxidative stress | increase | the alterations described above | - | - | play a key pathogenic role in | #6 |
alpha-lipoic acid | decrease | the changes generated by fructose rich diets | - | - | normalized | #7 |
alpha-lipoic acid | decrease | endocrine-metabolic disturbances triggered by high fructose associated with obesity and type 2 diabetes | prediabetes stage individuals | - | prevent | #8 |
In recent decades a worldwide increase has been reported in the consumption of unhealthy high calorie diets associated with marked changes in meal nutrient composition, such as a higher intake of refined carbohydrates, which leads to the speculatation that changes in food habits have contributed to the current epidemic of obesity and type 2 diabetes. Among these refined carbohydrates, fructose has been deeply investigated and murine models of high fructose diet have emerged as useful tools to study dietary-induced insulin resistance, impaired glucose tolerance, dyslipidemia and alterations in glucose metabolism. Since oxidative stress has been demonstrated to play a key pathogenic role in the alterations described above, several lines of research have focused on the possible preventive effects of antioxidant/redox state regulation therapy, among which alpha-lipoic acid has been extensively investigated. The following references discussed support the fact that co-administration of alpha-lipoic acid normalized the changes generated by fructose rich diets, thereby making this compound a good therapeutic tool, also administered as a food supplement, to prevent endocrine-metabolic disturbances triggered by high fructose associated with obesity and type 2 diabetes at an early stage of development (prediabetes).