Abstract
PurposeIn two concurrent studies, we aimed to a) confirm the acute effect of 0.3 g·kg-1 body weight (BW) sodium bicarbonate (NaHCO3) supplementation on central and peripheral mechanisms associated with explosive power (Study 1) and b) determine whether chronic NaHCO3 supplementation would improve the adaptive response of the neuromuscular system during a 10-week resistance training program (Study 2).MethodsEight resistance trained participants volunteered after providing written consent. The experimental design consisted of a week of baseline testing, followed by ten weeks of training with progress measures performed in Week 5. Study 1 involved neuromuscular measurements before and after the leg extension portion of a power based training session performed in Week 1. Changes in maximal torque (MVT) and rates of torque development (RTD), along with other variables derived from femoral nerve stimulation (e.g. voluntary activation, neural recruitment) were analysed to determine the extent of fatigue under NaHCO3 or placebo conditions. Changes in these same variables, coupled with functional 1-repetition maximum leg extension strength, were measured in Study 2 from baseline (Week 0) to Week 5, and again at Week 10.Results and conclusionIn Study 1, we observed a decline after the leg extension task in both MVT (~ 30%) and rates of torque production (RTD) irrespective of acid-base status, however the decline in maximal RTD (RTDMAX) was nearly 20% less in the NaHCO3 condition when compared to placebo (mean difference of 294.8 ± 133.4 Nm·s-1 (95% CI -583.1 to -6.5 Nm, p < 0.05)). The primary finding in Study 2, however, suggests that introducing NaHCO3 repeatedly during a 10-week RT program does not confer any additional benefit to the mechanisms (and subsequent adaptive processes) related to explosive power production.
Highlights
Resistance training (RT) is an integral component of conditioning programs throughout many, if not all, athletic and sporting codes
In Study 1, we observed a decline after the leg extension task in both Maximal voluntary torque (MVT) (~ 30%) and rates of torque production (RTD) irrespective of acid-base status, the decline in maximal RTD (RTDMAX) was nearly 20% less in the NaHCO3 condition when compared to placebo (mean difference of 294.8 ± 133.4 NmÁs-1)
The primary finding in Study 2, suggests that introducing NaHCO3 repeatedly during a 10-week RT program does not confer any additional benefit to the mechanisms related to explosive power production
Summary
Resistance training (RT) is an integral component of conditioning programs throughout many, if not all, athletic and sporting codes. The degree to which these integrated, or neuromuscular, systems respond to an RT program will be influenced by a multitude of factors Ingestion of ergogenic aids such as creatine and caffeine have repeatedly demonstrated capacity for acutely improving explosive muscular power [4,5,6]. Sodium bicarbonate, another supplement widely purported to improve anaerobic exercise performance and sustain muscular power, may be a candidate but to our knowledge has not been investigated in a prolonged Another supplement widely purported to improve anaerobic exercise performance and sustain muscular power, may be a candidate but to our knowledge has not been investigated in a prolonged (i.e. > single session) RT context
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