Effect of Bang® Pre-Workout Master Blaster® combined with four weeks of resistance training on lean body mass, maximal strength, mircoRNA expression, and serum IGF-1 in men: a randomized, double-blind, placebo-controlled trial.
Study Goal
The researchers aimed to determine if 4 weeks of Bang® Pre-Workout Master Blaster® (BMB) supplementation combined with resistance training improved muscle mass, strength, and altered skeletal muscle microRNA or serum IGF-1 levels compared to placebo.
Results Summary
BMB supplementation resulted in greater increases in total body mass, lean body mass, and squat 1-RM compared to placebo. No significant changes were observed in fat mass, body fat percentage, or serum IGF-1, but resting miR-23a and miR-23b expression increased with resistance training.
Population
16 recreationally-active men
Effective Dosage
Not specified
Duration
4 weeks
Interactions
None mentioned
| Intervention | Direction | Endpoint | Population | Dosage | Impact | Claim # |
|---|---|---|---|---|---|---|
Bang® Pre-Workout Master Blaster® (BMB) supplementation combined with resistance training | increase | total body mass | recreationally-active men | 3.19 kg, 95% CI, 1.98 kg, 4.40 kg vs. 0.44 kg, 95% CI, - 0.50 kg, 1.39 kg | resulted in greater increases | #1 |
Bang® Pre-Workout Master Blaster® (BMB) supplementation combined with resistance training | increase | lean body mass | recreationally-active men | 3.15 kg, 95% CI, 1.80 kg, 4.49 kg vs. 0.89 kg, 95% CI, - 0.14 kg, 1.93 kg | resulted in greater increases | #2 |
resistance training | increase | miR-23a expression | recreationally-active men | p = 0.02 | A significant increase over time was observed | #3 |
resistance training | increase | miR-23b expression | recreationally-active men | p = 0.05 | A significant increase over time was observed | #4 |
Bang® Pre-Workout Master Blaster® (BMB) supplementation combined with resistance training | increase | squat 1-RM | recreationally-active men | 23.86 kg, 95% CI, 16.75 kg, 30.97 kg vs. 14.20 kg, 95% CI, 7.04 kg, 21.37 kg | A greater increase was observed | #5 |
Bang® Pre-Workout Master Blaster® (BMB) supplementation combined with resistance exercise training | increase | maximal strength | recreationally-active men | - | resulted in superior adaptations | #6 |
Bang® Pre-Workout Master Blaster® (BMB) supplementation combined with resistance exercise training | increase | LBM | recreationally-active men | - | resulted in superior adaptations | #7 |
Bang® Pre-Workout Master Blaster® (BMB) supplementation | no change | dietary intake | recreationally-active men | - | No significant effects were observed | #8 |
Bang® Pre-Workout Master Blaster® (BMB) supplementation | no change | hemodynamics | recreationally-active men | - | No significant effects were observed | #9 |
Bang® Pre-Workout Master Blaster® (BMB) supplementation | no change | fat mass | recreationally-active men | - | No significant effects were observed | #10 |
Bang® Pre-Workout Master Blaster® (BMB) supplementation | no change | body fat percentage | recreationally-active men | - | No significant effects were observed | #11 |
Bang® Pre-Workout Master Blaster® (BMB) supplementation | no change | serum IGF-1 | recreationally-active men | - | No significant effects were observed | #12 |
Bang® Pre-Workout Master Blaster® (BMB) supplementation | no change | resting hemodynamic markers | recreationally-active men | - | No adverse resting hemodynamic or clinical blood safety markers were observed | #13 |
Bang® Pre-Workout Master Blaster® (BMB) supplementation | no change | clinical blood safety markers | recreationally-active men | - | No adverse resting hemodynamic or clinical blood safety markers were observed | #14 |
BACKGROUND: The aim of the current study was to determine if 4 weeks of consumption of Bang® Pre-Workout Master Blaster® (BMB; Vital Pharmaceuticals Inc., Weston, FL) combined with resistance training resulted in greater increases in muscle mass and maximal strength compared with resistance training combined with placebo (PLA). Additionally, we aimed to determine if BMB ingestion combined with resistance training preferentially altered resting skeletal muscle expression of microRNAs (miRs) or resting serum insulin-like growth factor (IGF-1). METHODS: Sixteen recreationally-active men completed the study. The study employed a block-randomized, double-blind, placebo-controlled, parallel design. Participants completed two testing sessions separated by 4 weeks of resistance exercise combined with daily supplementation of BMB or PLA. At each testing session, hemodynamics, body composition, and muscle and blood samples were obtained followed by strength assessments of the lower- and upper-body via measurement of squat and bench press one-repetition maximum (1-RM), respectively. A separate general linear model was utilized for analysis of each variable to determine the effect of each supplement (between-factor) over time (within-factor) using an a priori probability level of ≤0.05. RESULTS: No significant effects were observed for dietary intake, hemodynamics, fat mass, body fat percentage, or serum IGF-1. A greater increase in total body mass (3.19 kg, 95% CI, 1.98 kg, 4.40 kg vs. 0.44 kg, 95% CI, - 0.50 kg, 1.39 kg) and lean body mass (3.15 kg, 95% CI, 1.80 kg, 4.49 kg vs. 0.89 kg, 95% CI, - 0.14 kg, 1.93 kg) was observed for the BMB group compared with PLA (p < 0.01). A significant increase over time was observed for miR-23a (p = 0.02) and miR-23b (p = 0.05) expression. A greater increase in squat 1-RM was observed for the BMB group (23.86 kg, 95% CI, 16.75 kg, 30.97 kg) compared with the PLA group (14.20 kg, 95% CI, 7.04 kg, 21.37 kg, p = 0.04). CONCLUSIONS: BMB supplementation combined with resistance exercise training for 4 weeks resulted in superior adaptations in maximal strength and LBM compared with resistance training with a placebo. No adverse resting hemodynamic or clinical blood safety markers were observed as a result of BMB supplementation. The superior outcomes associated with BMB supplementation could not be explained by resting serum IGF-1 or the skeletal muscle miRs measured, although resting miR-23a and miR-23b expression both increased as a result of resistance training.