U.S. Army Research Institute of Environmental Medicine (USARIEM), Natick, MA.
Department of Kinesiology, California State University, Fresno, CA.
Med Sci Sports Exerc. 2019 Feb;51(2):346-351. doi: 10.1249/MSS.0000000000001779.
The Load Carriage Decision Aid (LCDA) is a U.S. Army planning tool that predicts physiological responses of soldiers during different dismounted troop scenarios. We aimed to develop an equation that calculates standing and walking metabolic rates in healthy military-age adults for the LCDA using a meta-regression.
We searched for studies that measured the energetic cost of standing and treadmill walking in healthy men and women via indirect calorimetry. We used mixed effects meta-regression to determine an optimal equation to calculate standing and walking metabolic rates as a function of walking speed (S, m·s). The optimal equation was used to determine the economical speed at which the metabolic cost per distance walked is minimized. The estimation precision of the new LCDA walking equation was compared with that of seven reference predictive equations.
The meta-regression included 48 studies. The optimal equation for calculating normal standing and walking metabolic rates (W·kg) was 1.44 + 1.94S + 0.24S. The economical speed for level walking was 1.39 m·s (~ 3.1 mph). The LCDA walking equation was more precise across all walking speeds (bias ± SD, 0.01 ± 0.33 W·kg) than the reference predictive equations.
Practitioners can use the new LCDA walking equation to calculate energy expenditure during standing and walking at speeds <2 m·s in healthy, military-age adults. The LCDA walking equation avoids the errors estimated by other equations at lower and higher walking speeds.
负荷携带决策辅助(LCDA)是美国陆军的一种规划工具,可预测不同徒步部队场景下士兵的生理反应。我们旨在开发一个方程,该方程可使用元回归为 LCDA 计算健康的军事年龄成年人的站立和行走代谢率。
我们搜索了通过间接测热法测量健康男性和女性站立和跑步机行走能量成本的研究。我们使用混合效应元回归来确定最佳方程,以计算作为行走速度(S,m·s)函数的站立和行走代谢率。该最佳方程用于确定代谢成本与行走距离最小化的经济速度。新的 LCDA 行走方程的估计精度与七个参考预测方程进行了比较。
元回归包括 48 项研究。用于计算正常站立和行走代谢率(W·kg)的最佳方程为 1.44 + 1.94S + 0.24S。水平行走的经济速度为 1.39 m·s(~3.1 mph)。LCDA 行走方程在所有行走速度(偏差±SD,0.01 ± 0.33 W·kg)上都比参考预测方程更精确。
从业者可以使用新的 LCDA 行走方程来计算健康的军事年龄成年人在 2 m·s 以下的站立和行走时的能量消耗。LCDA 行走方程避免了其他方程在较低和较高行走速度下估计的错误。
