Short-Term Effects of a Ready-to-Drink Pre-Workout Beverage on Exercise Performance and Recovery

In a double-blind, randomized and crossover manner, 25 resistance-trained participants ingested a placebo (PLA) beverage containing 12 g of dextrose and a beverage (RTD) containing caffeine (200 mg), β-alanine (2.1 g), arginine nitrate (1.3 g), niacin (65 mg), folic acid (325 mcg), and Vitamin B12 (...

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Autores principales: Collins, P. Blaise, Earnest, Conrad P., Dalton, Ryan L., Sowinski, Ryan J., Grubic, Tyler J., Favot, Christopher J., Coletta, Adriana M., Rasmussen, Christopher, Greenwood, Mike, Kreider, Richard B.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2017
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5579616/
https://www.ncbi.nlm.nih.gov/pubmed/28763003
http://dx.doi.org/10.3390/nu9080823
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author Collins, P. Blaise
Earnest, Conrad P.
Dalton, Ryan L.
Sowinski, Ryan J.
Grubic, Tyler J.
Favot, Christopher J.
Coletta, Adriana M.
Rasmussen, Christopher
Greenwood, Mike
Kreider, Richard B.
author_facet Collins, P. Blaise
Earnest, Conrad P.
Dalton, Ryan L.
Sowinski, Ryan J.
Grubic, Tyler J.
Favot, Christopher J.
Coletta, Adriana M.
Rasmussen, Christopher
Greenwood, Mike
Kreider, Richard B.
author_sort Collins, P. Blaise
collection PubMed
description In a double-blind, randomized and crossover manner, 25 resistance-trained participants ingested a placebo (PLA) beverage containing 12 g of dextrose and a beverage (RTD) containing caffeine (200 mg), β-alanine (2.1 g), arginine nitrate (1.3 g), niacin (65 mg), folic acid (325 mcg), and Vitamin B12 (45 mcg) for 7-days, separated by a 7–10-day. On day 1 and 6, participants donated a fasting blood sample and completed a side-effects questionnaire (SEQ), hemodynamic challenge test, 1-RM and muscular endurance tests (3 × 10 repetitions at 70% of 1-RM with the last set to failure on the bench press (BP) and leg press (LP)) followed by ingesting the assigned beverage. After 15 min, participants repeated the hemodynamic test, 1-RM tests, and performed a repetition to fatigue (RtF) test at 70% of 1-RM, followed by completing the SEQ. On day 2 and 7, participants donated a fasting blood sample, completed the SEQ, ingested the assigned beverage, rested 30 min, and performed a 4 km cycling time-trial (TT). Data were analyzed by univariate, multivariate, and repeated measures general linear models (GLM), adjusted for gender and relative caffeine intake. Data are presented as mean change (95% CI). An overall multivariate time × treatment interaction was observed on strength performance variables (p = 0.01). Acute RTD ingestion better maintained LP 1-RM (PLA: −0.285 (−0.49, −0.08); RTD: 0.23 (−0.50, 0.18) kg/kg(FFM), p = 0.30); increased LP RtF (PLA: −2.60 (−6.8, 1.6); RTD: 4.00 (−0.2, 8.2) repetitions, p = 0.031); increased BP lifting volume (PLA: 0.001 (−0.13, 0.16); RTD: 0.03 (0.02, 0.04) kg/kg(FFM), p = 0.007); and, increased total lifting volume (PLA: −13.12 (−36.9, 10.5); RTD: 21.06 (−2.7, 44.8) kg/kg(FFM), p = 0.046). Short-term RTD ingestion maintained baseline LP 1-RM (PLA: −0.412 (−0.08, −0.07); RTD: 0.16 (−0.50, 0.18) kg/kg(FFM), p = 0.30); LP RtF (PLA: 0.12 (−3.0, 3.2); RTD: 3.6 (0.5, 6.7) repetitions, p = 0.116); and, LP lifting volume (PLA: 3.64 (−8.8, 16.1); RTD: 16.25 (3.8, 28.7) kg/kg(FFM), p = 0.157) to a greater degree than PLA. No significant differences were observed between treatments in cycling TT performance, hemodynamic assessment, fasting blood panels, or self-reported side effects.
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spelling pubmed-55796162017-09-06 Short-Term Effects of a Ready-to-Drink Pre-Workout Beverage on Exercise Performance and Recovery Collins, P. Blaise Earnest, Conrad P. Dalton, Ryan L. Sowinski, Ryan J. Grubic, Tyler J. Favot, Christopher J. Coletta, Adriana M. Rasmussen, Christopher Greenwood, Mike Kreider, Richard B. Nutrients Article In a double-blind, randomized and crossover manner, 25 resistance-trained participants ingested a placebo (PLA) beverage containing 12 g of dextrose and a beverage (RTD) containing caffeine (200 mg), β-alanine (2.1 g), arginine nitrate (1.3 g), niacin (65 mg), folic acid (325 mcg), and Vitamin B12 (45 mcg) for 7-days, separated by a 7–10-day. On day 1 and 6, participants donated a fasting blood sample and completed a side-effects questionnaire (SEQ), hemodynamic challenge test, 1-RM and muscular endurance tests (3 × 10 repetitions at 70% of 1-RM with the last set to failure on the bench press (BP) and leg press (LP)) followed by ingesting the assigned beverage. After 15 min, participants repeated the hemodynamic test, 1-RM tests, and performed a repetition to fatigue (RtF) test at 70% of 1-RM, followed by completing the SEQ. On day 2 and 7, participants donated a fasting blood sample, completed the SEQ, ingested the assigned beverage, rested 30 min, and performed a 4 km cycling time-trial (TT). Data were analyzed by univariate, multivariate, and repeated measures general linear models (GLM), adjusted for gender and relative caffeine intake. Data are presented as mean change (95% CI). An overall multivariate time × treatment interaction was observed on strength performance variables (p = 0.01). Acute RTD ingestion better maintained LP 1-RM (PLA: −0.285 (−0.49, −0.08); RTD: 0.23 (−0.50, 0.18) kg/kg(FFM), p = 0.30); increased LP RtF (PLA: −2.60 (−6.8, 1.6); RTD: 4.00 (−0.2, 8.2) repetitions, p = 0.031); increased BP lifting volume (PLA: 0.001 (−0.13, 0.16); RTD: 0.03 (0.02, 0.04) kg/kg(FFM), p = 0.007); and, increased total lifting volume (PLA: −13.12 (−36.9, 10.5); RTD: 21.06 (−2.7, 44.8) kg/kg(FFM), p = 0.046). Short-term RTD ingestion maintained baseline LP 1-RM (PLA: −0.412 (−0.08, −0.07); RTD: 0.16 (−0.50, 0.18) kg/kg(FFM), p = 0.30); LP RtF (PLA: 0.12 (−3.0, 3.2); RTD: 3.6 (0.5, 6.7) repetitions, p = 0.116); and, LP lifting volume (PLA: 3.64 (−8.8, 16.1); RTD: 16.25 (3.8, 28.7) kg/kg(FFM), p = 0.157) to a greater degree than PLA. No significant differences were observed between treatments in cycling TT performance, hemodynamic assessment, fasting blood panels, or self-reported side effects. MDPI 2017-08-01 /pmc/articles/PMC5579616/ /pubmed/28763003 http://dx.doi.org/10.3390/nu9080823 Text en © 2017 by the authors. Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (http://creativecommons.org/licenses/by/4.0/).
spellingShingle Article
Collins, P. Blaise
Earnest, Conrad P.
Dalton, Ryan L.
Sowinski, Ryan J.
Grubic, Tyler J.
Favot, Christopher J.
Coletta, Adriana M.
Rasmussen, Christopher
Greenwood, Mike
Kreider, Richard B.
Short-Term Effects of a Ready-to-Drink Pre-Workout Beverage on Exercise Performance and Recovery
title Short-Term Effects of a Ready-to-Drink Pre-Workout Beverage on Exercise Performance and Recovery
title_full Short-Term Effects of a Ready-to-Drink Pre-Workout Beverage on Exercise Performance and Recovery
title_fullStr Short-Term Effects of a Ready-to-Drink Pre-Workout Beverage on Exercise Performance and Recovery
title_full_unstemmed Short-Term Effects of a Ready-to-Drink Pre-Workout Beverage on Exercise Performance and Recovery
title_short Short-Term Effects of a Ready-to-Drink Pre-Workout Beverage on Exercise Performance and Recovery
title_sort short-term effects of a ready-to-drink pre-workout beverage on exercise performance and recovery
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5579616/
https://www.ncbi.nlm.nih.gov/pubmed/28763003
http://dx.doi.org/10.3390/nu9080823
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