Low carbohydrate, high fat diet impairs exercise economy and negates the performance benefit from intensified training in elite race walkers

Burke LM, Ross ML, Garvican-Lewis LA, Welvaert M, Heikura IA, Forbes SG, Mirtschin JG, Cato LE, Strobel N, Sharma AP, Hawley JA · 2017 · Journal of Physiology

DOI: 10.1113/JP273230View source ↗

“Adaptation to the LCHF diet impairs performance in elite endurance athletes despite a significant improvement in peak aerobic capacity.”

Summary

This Australian Institute of Sport study is the most prominent counter-evidence to keto-adapted athletic performance claims. Burke and colleagues randomized 29 elite race walkers to one of three 3-week dietary conditions during intensified training: continuously high carbohydrate availability (HCHO), periodized carbohydrate availability (PCHO — same total intake but timed around training), or low-carbohydrate high-fat (LCHF — under 50 g/day carbs, 78 percent of energy from fat). All three diets were isocaloric. The findings cut against simple "keto is good for endurance" narratives. Peak aerobic capacity (VO2max) improved across all three diets. But race-walking economy — the oxygen cost per unit speed at race-relevant velocities — got worse on LCHF. The keto-adapted walkers needed more oxygen to walk at the same pace, even with elevated fat oxidation. Net result: 10 km race time did not improve on LCHF (about -1.6 percent change, not statistically meaningful) while both carbohydrate-available groups improved 5–7 percent. The conclusion was unambiguous: for elite endurance athletes performing at race-relevant intensities, LCHF impaired performance despite increasing fat oxidation. The paper has been replicated by the same group with different cohorts.

Talking it through with practitioners

The Inner Circle is a paid, async-first community for discussing what new evidence means for actual cycles — opening soon.

Join the waitlist →

Citation graph

How this entry connects to the rest of the library

References cited by this entry

ContradictsMetabolic characteristics of keto-adapted ultra-endurance runnersVolek JS et al. · 2016
FASTER (Volek/Phinney 2016) documented favorable metabolic adaptations in long-term keto-adapted ultra-endurance runners; Burke 2017 found that 3-week ketogenic adaptation impaired race performance in elite race walkers despite increased fat oxidation. The contradiction reflects different sport types (endurance ultra vs race walking speed), adaptation durations, and outcome measures.
ContradictsThe human metabolic response to chronic ketosis without caloric restriction: preservation of submaximal exercise capability with reduced carbohydrate oxidationPhinney SD et al. · 1983
Phinney 1983 reported preserved submaximal exercise capacity in keto-adapted cyclists; Burke 2017 found impaired race-walking economy at race-relevant velocities. Phinney's protocol was much longer and the exercise intensity submaximal; Burke's intervention was 3 weeks and tested race-pace performance.

Entries that reference this one

ContradictsMetabolic characteristics of keto-adapted ultra-endurance runnersVolek JS et al. · 2016
FASTER reports favorable metabolic adaptations in keto-adapted ultra-endurance runners; Burke 2017 found that LCHF impaired race performance in elite race walkers despite increased fat oxidation. Both studies are valid; the contradiction reflects population (ultra-endurance vs short-distance speed), adaptation duration (20+ months vs 3 weeks), and outcome (metabolism vs race time).