Effect of a Modern Palaeolithic Diet in Combination with a Sprint Interval Training on Metabolic and Performance-Related Parameters in Male Athletes: A Pilot Trial.
Study Goal
The researchers aimed to compare the effects of a palaeolithic diet versus a mixed diet, both combined with Sprint Interval Training (SIT), on metabolic and performance-related parameters in endurance athletes.
Results Summary
Both groups improved in time to exhaustion and distance covered in a 60-minute time trial, with no significant differences between diets. The palaeolithic diet group showed reductions in body weight, fat mass, blood pressure, and carbohydrate oxidation at rest, but performance metrics did not strongly favor either diet.
Population
14 male endurance athletes
Effective Dosage
Not specified
Duration
6 weeks
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
palaeolithic diet (PD-G) paired with Sprint interval training (SIT) | increase | time to exhaustion (TTE) | 14 male endurance athletes | - | improved | #1 |
palaeolithic diet (PD-G) paired with Sprint interval training (SIT) | increase | distance covered in the 60-minute time trial (TT) | 14 male endurance athletes | - | improved | #2 |
mixed diet (MD-G) paired with Sprint interval training (SIT) | increase | time to exhaustion (TTE) | 14 male endurance athletes | - | improved | #3 |
mixed diet (MD-G) paired with Sprint interval training (SIT) | increase | distance covered in the 60-minute time trial (TT) | 14 male endurance athletes | - | improved | #4 |
palaeolithic diet (PD-G) | decrease | body weight | 14 male endurance athletes | - | decreased | #5 |
palaeolithic diet (PD-G) | decrease | fat mass | 14 male endurance athletes | - | decreased | #6 |
palaeolithic diet (PD-G) | decrease | systolic blood pressure | 14 male endurance athletes | - | decreased | #7 |
palaeolithic diet (PD-G) | decrease | diastolic blood pressure | 14 male endurance athletes | - | decreased | #8 |
palaeolithic diet (PD-G) | decrease | respiratory exchange ratio (RER) at rest | 14 male endurance athletes | - | significantly decreased | #9 |
palaeolithic diet (PD-G) | decrease | carbohydrate oxidation at rest | 14 male endurance athletes | - | significantly decreased | #10 |
palaeolithic diet (PD-G) | decrease | respiratory exchange ratio (RER) during exercise | 14 male endurance athletes | - | tendency towards significance for decrease | #11 |
palaeolithic diet (PD-G) | decrease | carbohydrate oxidation during exercise | 14 male endurance athletes | - | tendency towards significance for decrease | #12 |
palaeolithic diet (PD-G) | no change | fat oxidation rates at rest | 14 male endurance athletes | - | changes were not statistically significant | #13 |
palaeolithic diet (PD-G) | no change | fat oxidation rates throughout the exercise test | 14 male endurance athletes | - | changes were not statistically significant | #14 |
mixed diet (MD-G) | no change | respiratory exchange ratio (RER) | 14 male endurance athletes | - | exhibited smaller changes | #15 |
mixed diet (MD-G) | no change | carbohydrate oxidation | 14 male endurance athletes | - | exhibited smaller changes | #16 |
mixed diet (MD-G) | no change | fat oxidation rates | 14 male endurance athletes | - | exhibited smaller changes | #17 |
BACKGROUND: Although a palaeolithic diet promotes healthier food choices that aid in weight management and reduce cardiovascular risks, its effectiveness in endurance sports is still debated due to its typically low carbohydrate content. OBJECTIVE: This study examined the impact of a 6-week palaeolithic diet (PD-G) versus a mixed diet (MD-G), both paired with Sprint interval training (SIT), on various metabolic and performance-related parameters. METHODS: Body composition, time trial (TT) performance (covered distance during a 60-minute run on a 400-metre track) and changes in metabolic (respiratory exchange ratio [RER], substrate oxidation rates) and performance-related (time at ventilatory threshold [VT] and respiratory compensation point [RCP], maximum oxygen uptake (V̇O2max) and time to exhaustion [TTE]) parameters during a ramp incremental running test were assessed in 14 male endurance athletes. Additionally, Gastrointestinal Quality of Life index (GLQI) and perceptual responses to the diets [visual analogue scale (VAS)] were measured. RESULTS: After 6 weeks, both groups improved in TTE and distance covered in the 60-minute TT, without significant group differences. In the PD-G body weight, fat mass and systolic and diastolic blood pressure decreased. At rest, RER and carbohydrate oxidation significantly decreased in the PD-G, with a tendency towards significance during exercise, while changes in fat oxidation rates were not statistically significant at rest and throughout the exercise test; in contrast, the MD-G exhibited smaller changes across these parameters. CONCLUSION: In this investigation, a palaeolithic diet in combination with SIT appeared to have positive effects on fat mass, blood pressure and substrate utilization under resting conditions in a group of male endurance athletes. However, based on the current findings for performance metrics, a palaeolithic diet cannot be recommended unreservedly for healthy endurance athletes.