Ketone monoester increased skeletal muscle ATP production and peak power in older men but had no effect in young men, without altering metabolic economy.
Does acute ingestion of ketone monoester improve metabolic economy, mitochondrial function, and contractile parameters in the skeletal muscle of young and older healthy men?
Acute ketosis enhances skeletal muscle work capacity and ATP production in older adults without affecting metabolic economy, suggesting potential as an ergogenic therapy for age-related muscle impairments.
Absolute Event Rate: 0% vs 0%
ABSTRACT Aim Ketosis may represent a therapeutic target for age‐related impairments in skeletal muscle function. This study investigated acute effects of ketosis on metabolic economy, mitochondrial function, and contractile parameters in skeletal muscle of young and older adults. Methods Twelve young (20–25 years) and twelve older (65–85 years) healthy men, matched by age‐adjusted V̇O 2 max, participated in a randomized, crossover, double‐blind intervention with ingestion of ketone monoester or placebo on separate study days. On both days, a low‐dose, continuous glucose infusion blocked endogenous ketone production. Metabolic economy, oxidative capacity, muscle performance, intramuscular pH, and relative decline in peak power were assessed in the tibialis anterior through phosphorous MR spectroscopy ( 31 P‐MRS) and dynamometer recordings. Mitochondrial function of the quadriceps femoris muscle was assessed by high‐resolution respirometry. Results Ketosis had no effect on metabolic economy in either young or older participants. The older group showed lower metabolic economy compared to the young group. In older participants, ketones increased ATP production and time‐torque derived work capacity. Oxidative capacity was similar between groups and remained unaffected by ketones. In the older group, ketones improved peak power and increased both muscle relative decline in peak power and contraction‐induced pH decline. Complex I + II respiration was lower in older compared to young participants, with no effect of ketones. Conclusion Ketosis enhanced skeletal muscle work capacity and ATP production in older but not young adults, suggesting an age‐specific effect of ketone bodies on muscle function that operates independently of changes in metabolic economy and mitochondrial function. These findings support ketosis as a promising ergogenic therapy for older adults. Trial Registration The study was pre‐registered at clinicaltrials.gov (NCT05732909)
Andersen et al. (Thu,) reported a other. Ketone monoester increased skeletal muscle ATP production and peak power in older men but had no effect in young men, without altering metabolic economy.
Synapse has enriched 5 closely related papers on similar clinical questions. Consider them for comparative context: