Precision Epidemiology: A Computational Analysis of the Impact of Algorithmic Prediction on the Relationship Between Population Epidemiology and Clinical Epidemiology

Elena Esposito; Paola Angelini; Sebastian Schneider

doi:10.3389/ijph.2024.1607396

Precision Epidemiology: A Computational Analysis of the Impact of Algorithmic Prediction on the Relationship Between Population Epidemiology and Clinical Epidemiology

Elena Esposito^*
, Paola Angelini
, Sebastian Schneider

^*Corresponding author for this work

Research output: Contribution to journal › Article › Academic › peer-review

2 Citations (Scopus)

43 Downloads (Pure)

Abstract

Objectives: Precision Medicine (PM) uses advanced Machine Learning (ML) techniques and big data to develop personalized treatments, but healthcare still relies on traditional statistical procedures not targeted on individuals. This study investigates the impact of ML on epidemiology.

Methods: A quantitative analysis of the articles in PubMed for the years 2000–2019 was conducted to investigate the use of statistical methods and ML in epidemiology. Using structural topic modelling, two groups of topics were identified and analysed over time: topics closer to the clinical side of epidemiology and topics closer to the population side.

Results: The curve of the prevalence of topics associated with population epidemiology basically corresponds to the curve of the relative statistical methods, while the more dynamic curve of clinical epidemiology broadly reproduces the trend of algorithmic methods.

Conclusion: The findings suggest that a renewed separation between clinical epidemiology and population epidemiology is emerging, with clinical epidemiology taking more advantage of recent developments in algorithmic techniques and moving closer to bioinformatics, whereas population epidemiology seems to be slower in this innovation.

Original language	English
Article number	1607396
Journal	International journal of public health
Volume	69
DOIs	https://doi.org/10.3389/ijph.2024.1607396
Publication status	Published - 1 Oct 2024

Keywords

Algorithmic methods
Algorithmic prediction
Clinical epidemiology
Population epidemiology
Precision medicine
Precision public health
Statistical methods
Topic modeling

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10.3389/ijph.2024.1607396Licence: CC BY

ArticleFinal published version, 1.29 MBLicence: CC BY

Cite this

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title = "Precision Epidemiology: A Computational Analysis of the Impact of Algorithmic Prediction on the Relationship Between Population Epidemiology and Clinical Epidemiology",

abstract = "Objectives: Precision Medicine (PM) uses advanced Machine Learning (ML) techniques and big data to develop personalized treatments, but healthcare still relies on traditional statistical procedures not targeted on individuals. This study investigates the impact of ML on epidemiology.Methods: A quantitative analysis of the articles in PubMed for the years 2000–2019 was conducted to investigate the use of statistical methods and ML in epidemiology. Using structural topic modelling, two groups of topics were identified and analysed over time: topics closer to the clinical side of epidemiology and topics closer to the population side.Results: The curve of the prevalence of topics associated with population epidemiology basically corresponds to the curve of the relative statistical methods, while the more dynamic curve of clinical epidemiology broadly reproduces the trend of algorithmic methods.Conclusion: The findings suggest that a renewed separation between clinical epidemiology and population epidemiology is emerging, with clinical epidemiology taking more advantage of recent developments in algorithmic techniques and moving closer to bioinformatics, whereas population epidemiology seems to be slower in this innovation.",

keywords = "Algorithmic methods, Algorithmic prediction, Clinical epidemiology, Population epidemiology, Precision medicine, Precision public health, Statistical methods, Topic modeling",

author = "Elena Esposito and Paola Angelini and Sebastian Schneider",

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year = "2024",

month = oct,

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doi = "10.3389/ijph.2024.1607396",

language = "English",

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Precision Epidemiology: A Computational Analysis of the Impact of Algorithmic Prediction on the Relationship Between Population Epidemiology and Clinical Epidemiology. / Esposito, Elena; Angelini, Paola; Schneider, Sebastian.
In: International journal of public health, Vol. 69, 1607396, 01.10.2024.

Research output: Contribution to journal › Article › Academic › peer-review

TY - JOUR

T1 - Precision Epidemiology

T2 - A Computational Analysis of the Impact of Algorithmic Prediction on the Relationship Between Population Epidemiology and Clinical Epidemiology

AU - Esposito, Elena

AU - Angelini, Paola

AU - Schneider, Sebastian

PY - 2024/10/1

Y1 - 2024/10/1

N2 - Objectives: Precision Medicine (PM) uses advanced Machine Learning (ML) techniques and big data to develop personalized treatments, but healthcare still relies on traditional statistical procedures not targeted on individuals. This study investigates the impact of ML on epidemiology.Methods: A quantitative analysis of the articles in PubMed for the years 2000–2019 was conducted to investigate the use of statistical methods and ML in epidemiology. Using structural topic modelling, two groups of topics were identified and analysed over time: topics closer to the clinical side of epidemiology and topics closer to the population side.Results: The curve of the prevalence of topics associated with population epidemiology basically corresponds to the curve of the relative statistical methods, while the more dynamic curve of clinical epidemiology broadly reproduces the trend of algorithmic methods.Conclusion: The findings suggest that a renewed separation between clinical epidemiology and population epidemiology is emerging, with clinical epidemiology taking more advantage of recent developments in algorithmic techniques and moving closer to bioinformatics, whereas population epidemiology seems to be slower in this innovation.

AB - Objectives: Precision Medicine (PM) uses advanced Machine Learning (ML) techniques and big data to develop personalized treatments, but healthcare still relies on traditional statistical procedures not targeted on individuals. This study investigates the impact of ML on epidemiology.Methods: A quantitative analysis of the articles in PubMed for the years 2000–2019 was conducted to investigate the use of statistical methods and ML in epidemiology. Using structural topic modelling, two groups of topics were identified and analysed over time: topics closer to the clinical side of epidemiology and topics closer to the population side.Results: The curve of the prevalence of topics associated with population epidemiology basically corresponds to the curve of the relative statistical methods, while the more dynamic curve of clinical epidemiology broadly reproduces the trend of algorithmic methods.Conclusion: The findings suggest that a renewed separation between clinical epidemiology and population epidemiology is emerging, with clinical epidemiology taking more advantage of recent developments in algorithmic techniques and moving closer to bioinformatics, whereas population epidemiology seems to be slower in this innovation.

KW - Algorithmic methods

KW - Algorithmic prediction

KW - Clinical epidemiology

KW - Population epidemiology

KW - Precision medicine

KW - Precision public health

KW - Statistical methods

KW - Topic modeling

UR - https://www.scopus.com/pages/publications/85206545551

U2 - 10.3389/ijph.2024.1607396

DO - 10.3389/ijph.2024.1607396

M3 - Article

C2 - 39411350

AN - SCOPUS:85206545551

SN - 1661-8556

VL - 69

JO - International journal of public health

JF - International journal of public health

M1 - 1607396

ER -

Precision Epidemiology: A Computational Analysis of the Impact of Algorithmic Prediction on the Relationship Between Population Epidemiology and Clinical Epidemiology

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