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Main Authors: Berthelot, Geoffroy C. B., Gelein, Brigitte, Meinadier, Eric, Orhant, Emmanuel, Dedecker, Jérôme
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.01810
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author Berthelot, Geoffroy C. B.
Gelein, Brigitte
Meinadier, Eric
Orhant, Emmanuel
Dedecker, Jérôme
author_facet Berthelot, Geoffroy C. B.
Gelein, Brigitte
Meinadier, Eric
Orhant, Emmanuel
Dedecker, Jérôme
contents The increase in the collection of biological data allows for the individual and longitudinal monitoring of hematological or urine biomarkers. However, identifying abnormal behavior in these biological sequences is not trivial. Moreover, the complexity of the biological data (correlation between biomarkers, seasonal effects, etc.) is also an issue. Z-score methods can help assess the abnormality in these longitudinal sequences while capturing some features of the biological complexity. This work details a statistical framework for handling biological sequences using three custom Z-score methods in the intra-individual variability scope. These methods can detect abnormal samples in the longitudinal sequences with respect to the seasonality, chronological time or correlation between biomarkers. One of these methods is an extension of one custom Z-score method to the Gaussian linear model, which allows for including additional variables in the model design. We illustrate the use of the framework on the longitudinal data of 3,936 professional soccer players (5 biomarkers) and 1,683 amateur or professional cyclists (10 biomarkers). The results show that a particular Z-score method, designed to detect a change in a series of consecutive observations, measured a high proportion of abnormal values (more than three times the false positive rate) in the ferritin and IGF1 biomarkers for both data sets. The proposed framework and methods could be applied in other contexts, such as the clinical patient follow-up in monitoring abnormal values of biological markers. The methods are flexible enough to include more complicated biological features, which can be directly incorporated into the model design.
format Preprint
id arxiv_https___arxiv_org_abs_2510_01810
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Z-scores-based methods and their application to biological monitoring: An extended analysis of professional soccer players and cyclists athletes
Berthelot, Geoffroy C. B.
Gelein, Brigitte
Meinadier, Eric
Orhant, Emmanuel
Dedecker, Jérôme
Applications
The increase in the collection of biological data allows for the individual and longitudinal monitoring of hematological or urine biomarkers. However, identifying abnormal behavior in these biological sequences is not trivial. Moreover, the complexity of the biological data (correlation between biomarkers, seasonal effects, etc.) is also an issue. Z-score methods can help assess the abnormality in these longitudinal sequences while capturing some features of the biological complexity. This work details a statistical framework for handling biological sequences using three custom Z-score methods in the intra-individual variability scope. These methods can detect abnormal samples in the longitudinal sequences with respect to the seasonality, chronological time or correlation between biomarkers. One of these methods is an extension of one custom Z-score method to the Gaussian linear model, which allows for including additional variables in the model design. We illustrate the use of the framework on the longitudinal data of 3,936 professional soccer players (5 biomarkers) and 1,683 amateur or professional cyclists (10 biomarkers). The results show that a particular Z-score method, designed to detect a change in a series of consecutive observations, measured a high proportion of abnormal values (more than three times the false positive rate) in the ferritin and IGF1 biomarkers for both data sets. The proposed framework and methods could be applied in other contexts, such as the clinical patient follow-up in monitoring abnormal values of biological markers. The methods are flexible enough to include more complicated biological features, which can be directly incorporated into the model design.
title Z-scores-based methods and their application to biological monitoring: An extended analysis of professional soccer players and cyclists athletes
topic Applications
url https://arxiv.org/abs/2510.01810