Exploratory analysis of the accuracy of age-based maximal heart rate equations across cardiorespiratory fitness levels
Joel Martin, Bryndan Lindsey, Courtney Gerrity, Jatin Ambegaonkar, Stefano Amatori, Stefano Amatori, Stefano Amatori, Stefano Amatori

TL;DR
This study evaluates how well age-based formulas predict maximal heart rate across different fitness levels, finding limited influence of fitness on prediction accuracy.
Contribution
The study is novel in examining how cardiorespiratory fitness affects the accuracy of age-based maximal heart rate prediction equations.
Findings
CRF had limited influence on MHR prediction error, with small associations observed in males but not females.
The Fox equation showed the most stable performance across MHR ranges without proportional bias.
None of the equations demonstrated high individual-level accuracy for MHR prediction.
Abstract
Maximal heart rate (MHR) is a key measure for cardiorespiratory exercise prescription yet is often estimated using age-based prediction equations. The accuracy of these equations may vary by individual characteristics, including cardiorespiratory fitness (CRF), but limited research has examined predictive accuracy across CRF levels. Therefore, we evaluated the accuracy of seven commonly used MHR prediction equations in adults with varying CRF to assess whether prediction error differs by fitness level. Data from 230 healthy adults (76% male, mean age 38.5 ± 12.3 years) who completed maximal graded exercise tests between 2019 and 2024 were analyzed retrospectively. Predicted MHR values were calculated using the Fox, Tanaka, Gellish, Arena, Åstrand, Nes, and Fairbairn equations. Linear mixed-effects models (LMM) tested the influence of VO₂max and its interaction with prediction equation…
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Taxonomy
TopicsHeart Rate Variability and Autonomic Control · Cardiovascular and exercise physiology · Non-Invasive Vital Sign Monitoring
