TY - JOUR
T1 - Detecting Metabolic Thresholds from Nonlinear Analysis of Heart Rate Time Series: A Review
AU - Zimatore, Giovanna
AU - Gallotta, Maria Chiara
AU - Campanella, Matteo
AU - Campanella, Massimo Giuseppe
AU - Skarzynski, Piotr H.
AU - Maulucci, Giuseppe
AU - Serantoni, Cassandra
AU - De Spirito, Marco
AU - Curzi, Davide
AU - Guidetti, Laura
AU - Baldari, Carlo
AU - Hatzopoulos, Stavros
PY - 2022
Y1 - 2022
N2 - Heart rate time series are widely used to characterize physiological states and athletic performance. Among the main indicators of metabolic and physiological states, the detection of metabolic thresholds is an important tool in establishing training protocols in both sport and clinical fields. This paper reviews the most common methods, applied to heart rate (HR) time series, aiming to detect metabolic thresholds. These methodologies have been largely used to assess energy metabolism and to identify the appropriate intensity of physical exercise which can reduce body weight and improve physical fitness. Specifically, we focused on the main nonlinear signal evaluation methods using HR to identify metabolic thresholds with the purpose of identifying a method which can represent a useful tool for the real-time settings of wearable devices in sport activities. While the advantages and disadvantages of each method, and the possible applications, are presented, this review confirms that the nonlinear analysis of HR time series represents a solid, robust and noninvasive approach to assess metabolic thresholds.
AB - Heart rate time series are widely used to characterize physiological states and athletic performance. Among the main indicators of metabolic and physiological states, the detection of metabolic thresholds is an important tool in establishing training protocols in both sport and clinical fields. This paper reviews the most common methods, applied to heart rate (HR) time series, aiming to detect metabolic thresholds. These methodologies have been largely used to assess energy metabolism and to identify the appropriate intensity of physical exercise which can reduce body weight and improve physical fitness. Specifically, we focused on the main nonlinear signal evaluation methods using HR to identify metabolic thresholds with the purpose of identifying a method which can represent a useful tool for the real-time settings of wearable devices in sport activities. While the advantages and disadvantages of each method, and the possible applications, are presented, this review confirms that the nonlinear analysis of HR time series represents a solid, robust and noninvasive approach to assess metabolic thresholds.
KW - heart rate variability
KW - metabolic threshold
KW - nonlinear dynamic
KW - wearable devices
KW - recurrence quantification analysis
KW - sport
KW - Poincaré plot
KW - heart rate variability
KW - metabolic threshold
KW - nonlinear dynamic
KW - wearable devices
KW - recurrence quantification analysis
KW - sport
KW - Poincaré plot
UR - http://hdl.handle.net/10807/230234
U2 - 10.3390/ijerph191912719
DO - 10.3390/ijerph191912719
M3 - Article
SN - 1660-4601
VL - 19
SP - 12719-N/A
JO - International Journal of Environmental Research and Public Health
JF - International Journal of Environmental Research and Public Health
ER -