Active learning-based systematic reviewing using switching classification models: the case of the onset, maintenance, and relapse of depressive disorders

Jelle Jasper Teijema; Laura Hofstee; Marlies Brouwer; Jonathan de Bruin; Gerbrich Ferdinands; Jan de Boer; Pablo Vizan; Sofie van den Brand; Claudi Bockting; Rens van de Schoot; Ayoub Bagheri

doi:10.3389/frma.2023.1178181

Active learning-based systematic reviewing using switching classification models: the case of the onset, maintenance, and relapse of depressive disorders

Jelle Jasper Teijema
, Laura Hofstee
, Marlies Brouwer
, Jonathan de Bruin
, Gerbrich Ferdinands
, Jan de Boer
, Pablo Vizan
, Sofie van den Brand
, Claudi Bockting
, Rens van de Schoot^*
, Ayoub Bagheri

^*Corresponding author for this work

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

Abstract

INTRODUCTION: This study examines the performance of active learning-aided systematic reviews using a deep learning-based model compared to traditional machine learning approaches, and explores the potential benefits of model-switching strategies.

METHODS: Comprising four parts, the study: 1) analyzes the performance and stability of active learning-aided systematic review; 2) implements a convolutional neural network classifier; 3) compares classifier and feature extractor performance; and 4) investigates the impact of model-switching strategies on review performance.

RESULTS: Lighter models perform well in early simulation stages, while other models show increased performance in later stages. Model-switching strategies generally improve performance compared to using the default classification model alone.

DISCUSSION: The study's findings support the use of model-switching strategies in active learning-based systematic review workflows. It is advised to begin the review with a light model, such as Naïve Bayes or logistic regression, and switch to a heavier classification model based on a heuristic rule when needed.

Original language	English
Article number	1178181
Number of pages	14
Journal	Frontiers in Research Metrics and Analytics
Volume	8
DOIs	https://doi.org/10.3389/frma.2023.1178181
Publication status	Published - 16 May 2023

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Active learning-based systematic reviewing using switching classification models: the case of the onset, maintenance, and relapse of depressive disordersFinal published version, 1.86 MBLicence: CC BY

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Teijema, J. J., Hofstee, L., Brouwer, M., de Bruin, J., Ferdinands, G., de Boer, J., Vizan, P., van den Brand, S., Bockting, C., van de Schoot, R., & Bagheri, A. (2023). Active learning-based systematic reviewing using switching classification models: the case of the onset, maintenance, and relapse of depressive disorders. Frontiers in Research Metrics and Analytics, 8, Article 1178181. https://doi.org/10.3389/frma.2023.1178181

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title = "Active learning-based systematic reviewing using switching classification models: the case of the onset, maintenance, and relapse of depressive disorders",

abstract = "INTRODUCTION: This study examines the performance of active learning-aided systematic reviews using a deep learning-based model compared to traditional machine learning approaches, and explores the potential benefits of model-switching strategies.METHODS: Comprising four parts, the study: 1) analyzes the performance and stability of active learning-aided systematic review; 2) implements a convolutional neural network classifier; 3) compares classifier and feature extractor performance; and 4) investigates the impact of model-switching strategies on review performance.RESULTS: Lighter models perform well in early simulation stages, while other models show increased performance in later stages. Model-switching strategies generally improve performance compared to using the default classification model alone.DISCUSSION: The study's findings support the use of model-switching strategies in active learning-based systematic review workflows. It is advised to begin the review with a light model, such as Na{\"i}ve Bayes or logistic regression, and switch to a heavier classification model based on a heuristic rule when needed.",

author = "Teijema, \{Jelle Jasper\} and Laura Hofstee and Marlies Brouwer and \{de Bruin\}, Jonathan and Gerbrich Ferdinands and \{de Boer\}, Jan and Pablo Vizan and \{van den Brand\}, Sofie and Claudi Bockting and \{van de Schoot\}, Rens and Ayoub Bagheri",

note = "Copyright {\textcopyright} 2023 Teijema, Hofstee, Brouwer, de Bruin, Ferdinands, de Boer, Vizan, van den Brand, Bockting, van de Schoot and Bagheri.",

year = "2023",

month = may,

day = "16",

doi = "10.3389/frma.2023.1178181",

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Teijema, JJ , Hofstee, L, Brouwer, M, de Bruin, J, Ferdinands, G, de Boer, J, Vizan, P, van den Brand, S, Bockting, C, van de Schoot, R & Bagheri, A 2023, 'Active learning-based systematic reviewing using switching classification models: the case of the onset, maintenance, and relapse of depressive disorders', Frontiers in Research Metrics and Analytics, vol. 8, 1178181. https://doi.org/10.3389/frma.2023.1178181

Active learning-based systematic reviewing using switching classification models: the case of the onset, maintenance, and relapse of depressive disorders. / Teijema, Jelle Jasper ; Hofstee, Laura; Brouwer, Marlies et al.
In: Frontiers in Research Metrics and Analytics, Vol. 8, 1178181, 16.05.2023.

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

TY - JOUR

T1 - Active learning-based systematic reviewing using switching classification models

T2 - the case of the onset, maintenance, and relapse of depressive disorders

AU - Teijema, Jelle Jasper

AU - Hofstee, Laura

AU - Brouwer, Marlies

AU - de Bruin, Jonathan

AU - Ferdinands, Gerbrich

AU - de Boer, Jan

AU - Vizan, Pablo

AU - van den Brand, Sofie

AU - Bockting, Claudi

AU - van de Schoot, Rens

AU - Bagheri, Ayoub

PY - 2023/5/16

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N2 - INTRODUCTION: This study examines the performance of active learning-aided systematic reviews using a deep learning-based model compared to traditional machine learning approaches, and explores the potential benefits of model-switching strategies.METHODS: Comprising four parts, the study: 1) analyzes the performance and stability of active learning-aided systematic review; 2) implements a convolutional neural network classifier; 3) compares classifier and feature extractor performance; and 4) investigates the impact of model-switching strategies on review performance.RESULTS: Lighter models perform well in early simulation stages, while other models show increased performance in later stages. Model-switching strategies generally improve performance compared to using the default classification model alone.DISCUSSION: The study's findings support the use of model-switching strategies in active learning-based systematic review workflows. It is advised to begin the review with a light model, such as Naïve Bayes or logistic regression, and switch to a heavier classification model based on a heuristic rule when needed.

AB - INTRODUCTION: This study examines the performance of active learning-aided systematic reviews using a deep learning-based model compared to traditional machine learning approaches, and explores the potential benefits of model-switching strategies.METHODS: Comprising four parts, the study: 1) analyzes the performance and stability of active learning-aided systematic review; 2) implements a convolutional neural network classifier; 3) compares classifier and feature extractor performance; and 4) investigates the impact of model-switching strategies on review performance.RESULTS: Lighter models perform well in early simulation stages, while other models show increased performance in later stages. Model-switching strategies generally improve performance compared to using the default classification model alone.DISCUSSION: The study's findings support the use of model-switching strategies in active learning-based systematic review workflows. It is advised to begin the review with a light model, such as Naïve Bayes or logistic regression, and switch to a heavier classification model based on a heuristic rule when needed.

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JO - Frontiers in Research Metrics and Analytics

JF - Frontiers in Research Metrics and Analytics

M1 - 1178181

ER -

Active learning-based systematic reviewing using switching classification models: the case of the onset, maintenance, and relapse of depressive disorders

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