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Detecting and Explaining Postpartum Depression in Real-Time with Generative Artificial Intelligence.

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Titel: Detecting and Explaining Postpartum Depression in Real-Time with Generative Artificial Intelligence.
Autoren: García-Méndez, Silvia, de Arriba-Pérez, Francisco
Quelle: Applied Artificial Intelligence; Dec2025, Vol. 39 Issue 1, p1-27, 27p
Schlagwörter: POSTPARTUM depression, NATURAL language processing, LANGUAGE models, DETECTION algorithms, MACHINE learning, GENERATIVE artificial intelligence, MENTAL health, REAL-time computing
Abstract: Among the many challenges mothers undergo after childbirth, postpartum depression (PPD) is a severe condition that significantly impacts their mental and physical well-being. Consequently, the rapid detection of PPD and their associated risk factors is critical for in-time assessment and intervention through specialized prevention procedures. Accordingly, this work addresses the need to help practitioners make decisions with the latest technological advancements to enable real-time screening and treatment recommendations. Mainly, our work contributes to an intelligent PPD screening system that combines Natural Language Processing, Machine Learning (ML), and Large Language Models (LLMS) toward an affordable, real-time, and noninvasive free speech analysis. Moreover, it addresses the black box problem since the predictions are described to the end users thanks to the combination of LLMS with interpretable ML models (i.e. tree-based algorithms) using feature importance and natural language. The results obtained are 90 on PPD detection for all evaluation metrics, outperforming the competing solutions in the literature. Ultimately, our solution contributes to the rapid detection of PPD and their associated risk factors, critical for in-time and proper assessment and intervention. [ABSTRACT FROM AUTHOR]
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Datenbank: Complementary Index
Beschreibung
Abstract:Among the many challenges mothers undergo after childbirth, postpartum depression (PPD) is a severe condition that significantly impacts their mental and physical well-being. Consequently, the rapid detection of PPD and their associated risk factors is critical for in-time assessment and intervention through specialized prevention procedures. Accordingly, this work addresses the need to help practitioners make decisions with the latest technological advancements to enable real-time screening and treatment recommendations. Mainly, our work contributes to an intelligent PPD screening system that combines Natural Language Processing, Machine Learning (ML), and Large Language Models (LLMS) toward an affordable, real-time, and noninvasive free speech analysis. Moreover, it addresses the black box problem since the predictions are described to the end users thanks to the combination of LLMS with interpretable ML models (i.e. tree-based algorithms) using feature importance and natural language. The results obtained are 90 on PPD detection for all evaluation metrics, outperforming the competing solutions in the literature. Ultimately, our solution contributes to the rapid detection of PPD and their associated risk factors, critical for in-time and proper assessment and intervention. [ABSTRACT FROM AUTHOR]
ISSN:08839514
DOI:10.1080/08839514.2025.2515063