Dietary Patterns, Gut Microbiota and Sports Performance in Athletes: A Narrative Review.
Study Goal
The researchers aimed to explore how high-protein diets, among other dietary patterns, interact with the gut microbiota to influence sports performance and health outcomes.
Results Summary
The study found that high-protein diets, along with other dietary patterns, can improve vascular function, reduce illness risk, promote recovery, and aid in weight control, potentially enhancing sports performance through gut microbiota interactions.
Population
Athletes and individuals focused on sports performance.
Effective Dosage
Not specified
Duration
Not specified
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
ketogenic diet | increase | vascular function | athletes | - | can improve | #1 |
ketogenic diet | decrease | risk of illness | athletes | - | reduce | #2 |
plant-based diet | increase | vascular function | athletes | - | can improve | #3 |
plant-based diet | decrease | risk of illness | athletes | - | reduce | #4 |
high-protein diet | increase | vascular function | athletes | - | can improve | #5 |
high-protein diet | decrease | risk of illness | athletes | - | reduce | #6 |
Mediterranean diet | increase | vascular function | athletes | - | can improve | #7 |
Mediterranean diet | decrease | risk of illness | athletes | - | reduce | #8 |
high intake of carbohydrate | increase | vascular function | athletes | - | can improve | #9 |
high intake of carbohydrate | decrease | risk of illness | athletes | - | reduce | #10 |
ketogenic diet | increase | recovery | athletes | - | promoting | #11 |
ketogenic diet | decrease | weight | athletes | - | controlling | #12 |
plant-based diet | increase | recovery | athletes | - | promoting | #13 |
plant-based diet | decrease | weight | athletes | - | controlling | #14 |
high-protein diet | increase | recovery | athletes | - | promoting | #15 |
high-protein diet | decrease | weight | athletes | - | controlling | #16 |
Mediterranean diet | increase | recovery | athletes | - | promoting | #17 |
Mediterranean diet | decrease | weight | athletes | - | controlling | #18 |
high intake of carbohydrate | increase | recovery | athletes | - | promoting | #19 |
high intake of carbohydrate | decrease | weight | athletes | - | controlling | #20 |
The intestinal tract of humans harbors a dynamic and complex bacterial community known as the gut microbiota, which plays a crucial role in regulating functions such as metabolism and immunity in the human body. Numerous studies conducted in recent decades have also highlighted the significant potential of the gut microbiota in promoting human health. It is widely recognized that training and nutrition strategies are pivotal factors that allow athletes to achieve optimal performance. Consequently, there has been an increasing focus on whether training and dietary patterns influence sports performance through their impact on the gut microbiota. In this review, we aim to present the concept and primary functions of the gut microbiota, explore the relationship between exercise and the gut microbiota, and specifically examine the popular dietary patterns associated with athletes' sports performance while considering their interaction with the gut microbiota. Finally, we discuss the potential mechanisms by which dietary patterns affect sports performance from a nutritional perspective, aiming to elucidate the intricate interplay among dietary patterns, the gut microbiota, and sports performance. We have found that the precise application of specific dietary patterns (ketogenic diet, plant-based diet, high-protein diet, Mediterranean diet, and high intake of carbohydrate) can improve vascular function and reduce the risk of illness in health promotion, etc., as well as promoting recovery and controlling weight with regard to improving sports performance, etc. In conclusion, although it can be inferred that certain aspects of an athlete's ability may benefit from specific dietary patterns mediated by the gut microbiota to some extent, further high-quality clinical studies are warranted to substantiate these claims and elucidate the underlying mechanisms.