The Heart Rate-based Metabolic Estimation Tool accurately estimated metabolic rate, yielding an external validation RMSD of 1.18 W/kg and a concordance correlation coefficient of 0.961.
Does the HR-MET accurately estimate metabolic rate from heart rate in healthy adults during military-relevant activities?
The HR-MET provides a valid and accurate method for estimating metabolic rate from heart rate during military activities, enabling real-time metabolic monitoring in the field.
Absolute Event Rate: 0% vs 0%
Accurate assessment of metabolic rate (Ṁ) is critical for optimizing performance and mitigating risks in military personnel. However, traditional methods like indirect calorimetry are impractical in field settings. This study developed and validated a heart rate (HR)-based algorithm with improved accuracy for estimating Ṁ during military relevant activities. Construct and validate an algorithm for estimating metabolic rate during standing, walking, and running solely from HR with an adaptable framework that allows for the integration of cardiometabolic fitness parameters to enhance precision when such information is accessible. We compiled a dataset of cardiometabolic data from healthy adults performing steady-state activities (standing, walking, running) for algorithm development. External validation was performed using data from a separate cohort of adults across thirteen studies. The Heart Rate–based Metabolic Estimation Tool (HR-MET) estimates Ṁ based on HR and, optionally, cardiometabolic fitness parameters (HR max , HR rest , Ṁ max , Ṁ rest ). Statistical equivalence between estimated and measured Ṁ was determined if the 90% confidence interval of the mean percent paired difference was within ±10%. Using the algorithm development dataset, the HR-MET with all cardiometabolic fitness parameters resulted in a root-mean-square deviation (RMSD) of 0.89 W kg −1 and a concordance correlation coefficient (CCC) of 0.953. Analysis of the external validation dataset found an RMSD of 1.18 W kg −1 and CCC of 0.961. Statistical equivalence was demonstrated between estimated and measured Ṁ in both datasets when using all available cardiometabolic fitness parameters. The HR-MET provides a valid and accurate method for estimating metabolic rate during military activities based on HR that can be further optimized with the inclusion of cardiometabolic fitness parameters. This combination of laboratory accuracy and field applicability of the HR-MET can advance readiness, safety, and performance across recreational, occupational, athletic, and military domains. • Novel algorithm developed for estimating metabolic rate from heart rate (HR-MET). • HR-MET accuracy improves with cardiometabolic fitness parameters. • HR-MET estimates statistically equivalent to measured values. • Field-deployable HR-MET enables real-time metabolic monitoring. • Enhances safety, performance, & resource allocation for military.
Looney et al. (Wed,) reported a other. The Heart Rate-based Metabolic Estimation Tool accurately estimated metabolic rate, yielding an external validation RMSD of 1.18 W/kg and a concordance correlation coefficient of 0.961.