Short‐term sprint interval versus traditional endurance training: similar initial adaptations in human skeletal muscle and exercise performance
Martin J. Gibala,Jonathan P. Little,Martin Van Essen,Geoffrey Wilkin,Kirsten A. Burgomaster,Adeel Safdar,Sandeep Raha,Mark A. Tarnopolsky +7 more
TLDR
Data demonstrate that SIT is a time‐efficient strategy to induce rapid adaptations in skeletal muscle and exercise performance that are comparable to ET in young active men.Abstract:
Brief, intense exercise training may induce metabolic and performance adaptations comparable to traditional endurance training. However, no study has directly compared these diverse training strategies in a standardized manner. We therefore examined changes in exercise capacity and molecular and cellular adaptations in skeletal muscle after low volume sprint-interval training (SIT) and high volume endurance training (ET). Sixteen active men (21 +/- 1 years, ) were assigned to a SIT or ET group (n = 8 each) and performed six training sessions over 14 days. Each session consisted of either four to six repeats of 30 s 'all out' cycling at approximately 250% with 4 min recovery (SIT) or 90-120 min continuous cycling at approximately 65% (ET). Training time commitment over 2 weeks was approximately 2.5 h for SIT and approximately 10.5 h for ET, and total training volume was approximately 90% lower for SIT versus ET ( approximately 630 versus approximately 6500 kJ). Training decreased the time required to complete 50 and 750 kJ cycling time trials, with no difference between groups (main effects, P </= 0.05). Biopsy samples obtained before and after training revealed similar increases in muscle oxidative capacity, as reflected by the maximal activity of cytochrome c oxidase (COX) and COX subunits II and IV protein content (main effects, P </= 0.05), but COX II and IV mRNAs were unchanged. Training-induced increases in muscle buffering capacity and glycogen content were also similar between groups (main effects, P </= 0.05). Given the large difference in training volume, these data demonstrate that SIT is a time-efficient strategy to induce rapid adaptations in skeletal muscle and exercise performance that are comparable to ET in young active men.read more
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High-Intensity Interval Training: A Potential Exercise Countermeasure During Human Spaceflight.
TL;DR: The potential integration of HIT into future human spaceflight operations as a strategy to counteract the effects of microgravity is evaluated.
Journal ArticleDOI
Acute Cardiopulmonary and Metabolic Responses to High-Intensity Interval Training Protocols Using 60 s of Work and 60 s Recovery.
TL;DR: Examination of the acute physiological responses to 60 s/60 s × 10 HIIT protocols using several combinations of work and recovery intensities concluded that use of the 80/0, 80/50, and 100/0 protocols would be appropriate for individuals at the low to moderate end of the cardiopulmonary fitness spectrum.
Journal ArticleDOI
Inclusion of sprints in moderate intensity continuous training leads to muscle oxidative adaptations in trained individuals.
Thomas P. Gunnarsson,Nina Brandt,Matteo Fiorenza,Morten Hostrup,Henriette Pilegaard,Jens Bangsbo +5 more
TL;DR: Adding of sprints in moderate intensity continuous exercise causes muscle oxidative adaptations in trained male individuals which appear to be independent of the exercise‐induced PGC‐1α mRNA response, and time‐trial performance improved similarly between groups, suggesting that changes in content of mitochondrial proteins are of less importance for endurance performance in trained males.
Journal ArticleDOI
Respiratory compensation and blood pH regulation during variable intensity exercise in trained versus untrained subjects
TL;DR: It is suggested that endurance training confers adaptations to withstand the low pH provoked by VAR without losing cycling power, although this response is not due to differences in blood-respiratory buffering.
Journal ArticleDOI
The Effect of High-Intensity Interval Cycling Sprints Subsequent to Arm-Curl Exercise on Upper-Body Muscle Strength and Hypertrophy.
TL;DR: The data indicate that concurrent lower limb SIT interferes with arm muscle hypertrophy and strength.
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