Antonio Jose, Ellerbroek Anya, Silver Tobin, Vargas Leonel, Peacock Corey
Exercise and Sports Sciences, Nova Southeastern University, 3532 S. University Drive, University Park Plaza Suite 3532, Davie, FL 33314 USA.
J Int Soc Sports Nutr. 2016 Jan 16;13:3. doi: 10.1186/s12970-016-0114-2. eCollection 2016.
Eight weeks of a high protein diet (>3 g/kg/day) coupled with a periodized heavy resistance training program has been shown to positively affect body composition with no deleterious effects on health. Using a randomized, crossover design, resistance-trained male subjects underwent a 16-week intervention (i.e., two 8-week periods) in which they consumed either their normal (i.e., habitual) or a higher protein diet (>3 g/kg/day). Thus, the purpose of this study was to ascertain if significantly increasing protein intake would affect clinical markers of health (i.e., lipids, kidney function, etc.) as well as performance and body composition in young males with extensive resistance training experience.
Twelve healthy resistance-trained men volunteered for this study (mean ± SD: age 25.9 ± 3.7 years; height 178.0 ± 8.5 cm; years of resistance training experience 7.6 ± 3.6) with 11 subjects completing most of the assessments. In a randomized crossover trial, subjects were tested at baseline and after two 8-week treatment periods (i.e., habitual [normal] diet and high protein diet) for body composition, measures of health (i.e., blood lipids, comprehensive metabolic panel) and performance. Each subject maintained a food diary for the 16-week treatment period (i.e., 8 weeks on their normal or habitual diet and 8 weeks on a high protein diet). Each subject provided a food diary of two weekdays and one weekend day per week. In addition, subjects kept a diary of their training regimen that was used to calculate total work performed.
During the normal and high protein phase of the treatment period, subjects consumed 2.6 ± 0.8 and 3.3 ± 0.8 g/kg/day of dietary protein, respectively. The mean protein intake over the 4-month period was 2.9 ± 0.9 g/kg/day. The high protein group consumed significantly more calories and protein (p < 0.05) than the normal protein group. There were no differences in dietary intake between the groups for any other measure. Moreover, there were no significant changes in body composition or markers of health in either group. There were no side effects (i.e., blood lipids, glucose, renal, kidney function etc.) regarding high protein consumption.
In resistance-trained young men who do not significantly alter their training regimen, consuming a high protein diet (2.6 to 3.3 g/kg/day) over a 4-month period has no effect on blood lipids or markers of renal and hepatic function. Nor were there any changes in performance or body composition. This is the first crossover trial using resistance-trained subjects in which the elevation of protein intake to over four times the recommended dietary allowance has shown no harmful effects.
八周的高蛋白饮食(>3克/千克/天)与周期性的高强度抗阻训练计划相结合,已被证明对身体成分有积极影响,且对健康无有害影响。采用随机交叉设计,接受抗阻训练的男性受试者进行了为期16周的干预(即两个8周阶段),在此期间他们分别食用正常(即习惯的)或更高蛋白的饮食(>3克/千克/天)。因此,本研究的目的是确定在有丰富抗阻训练经验的年轻男性中,显著增加蛋白质摄入量是否会影响健康的临床指标(即血脂、肾功能等)以及运动表现和身体成分。
12名健康的接受抗阻训练的男性自愿参加本研究(平均值±标准差:年龄25.9±3.7岁;身高178.0±8.5厘米;抗阻训练经验年限7.6±3.6),其中11名受试者完成了大部分评估。在一项随机交叉试验中,对受试者在基线时以及两个8周治疗期(即习惯[正常]饮食和高蛋白饮食)后进行身体成分、健康指标(即血脂、综合代谢指标)和运动表现的测试。每位受试者在16周的治疗期内(即8周正常或习惯饮食,8周高蛋白饮食)记录食物日记。每位受试者每周提供两个工作日和一个周末日的食物日记。此外,受试者记录他们的训练方案,用于计算总训练量。
在治疗期的正常和高蛋白阶段,受试者分别摄入2.6±0.8和3.3±0.8克/千克/天的膳食蛋白质。4个月期间的平均蛋白质摄入量为2.9±0.9克/千克/天。高蛋白组比正常蛋白组摄入的热量和蛋白质显著更多(p<0.05)。两组在其他任何饮食摄入量指标上均无差异。此外,两组的身体成分或健康指标均无显著变化。高蛋白摄入没有副作用(即血脂、血糖、肾脏、肾功能等方面)。
在未显著改变训练方案的接受抗阻训练的年轻男性中,在4个月期间食用高蛋白饮食(2.6至3.3克/千克/天)对血脂或肾脏和肝脏功能指标没有影响。运动表现或身体成分也没有任何变化。这是第一项使用接受抗阻训练受试者的交叉试验,其中蛋白质摄入量提高到超过推荐膳食摄入量的四倍并未显示出有害影响。
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