Article

No Effect of Carbohydrate-Protein on Cycling Performance and Indices of Recovery

Details

Citation

Breen L, Tipton K & Jeukendrup AE (2010) No Effect of Carbohydrate-Protein on Cycling Performance and Indices of Recovery. Medicine and Science in Sports and Exercise, 42 (6), pp. 1140-1148.

Abstract
Purpose: The aim of this study was to determine whether adding protein to a CHO beverage would improve late-exercise cycle time-trial performance over CHO alone. Furthermore, we examined the effects of coingesting protein with CHO during exercise on postexercise markers of sarcolemmal disruption and the recovery of muscle function. Methods: In a double-blind, crossover design, 12 trained male cyclists performed 120 min of steady-state (SS) cycling at approximately 55% V˙ O2max followed by a time trial lasting approximately 1 h. At 15-min intervals during SS exercise, participants consumed either a CHO or a CHO + protein (CHO + Pro) beverage (providing 65 gIhj1 CHO or 65 gIhj1 CHO plus 19 gIhj1 protein). Twenty-four hours after the onset of the SS cycle, participants completed a maximum isometric strength test. At rest and 24 h postexercise, a visual analog scale was used to determine lower-limb muscle soreness, and blood samples were obtained for plasma creatine kinase concentration. Dietary control was implemented 24 h before and during the time course of each trial. Results: Average power output sustained during time trial was similar for CHO and CHO + Pro, with no effect of treatment on the time to complete the time trial (60:13 T 1:33 and 60:51 T 2:40 (min:s) for CHO and CHO + Pro, respectively). Postexercise isometric strength significantly declined for CHO (15% T 3%) and CHO + Pro (11% T 3%) compared with baseline (486 T 28 N). Plasma creatine kinase concentrations, and visual analog scale soreness significantly increased at 24 h postexercise, with no difference between treatments. Conclusions: The present findings suggest that CHO + Pro coingestion during exercise does not improve late-exercise time-trial performance, ameliorate markers of sarcolemmal disruption, or enhance the recovery of muscle function at 24 h postexercise over CHO alone

Keywords
Endurance Exercise; Sarcolemmal Disruption; Muscles Metabolism

Journal
Medicine and Science in Sports and Exercise: Volume 42, Issue 6

StatusPublished
Publication date30/06/2010
URLhttp://hdl.handle.net/1893/3124
PublisherLippincott Williams & Wilkins / American College of Sports Medicine (ACSM)
ISSN0195-9131
eISSN1530-0315