Frontiers in Artificial Intelligence (May 2024)

Innova4Health: an integrated approach for prevention of recurrence and personalized treatment of Major Depressive Disorder

  • Francesco Monaco,
  • Francesco Monaco,
  • Annarita Vignapiano,
  • Annarita Vignapiano,
  • Martina Piacente,
  • Federica Farina,
  • Claudio Pagano,
  • Alessandra Marenna,
  • Stefano Leo,
  • Corrado Vecchi,
  • Carlo Mancuso,
  • Vincenzo Prisco,
  • Davide Iodice,
  • Annarosaria Auricchio,
  • Roberto Cavaliere,
  • Amelia D'Agosto,
  • Michele Fornaro,
  • Marco Solmi,
  • Marco Solmi,
  • Marco Solmi,
  • Marco Solmi,
  • Marco Solmi,
  • Giulio Corrivetti,
  • Giulio Corrivetti,
  • Alessio Fasano,
  • Alessio Fasano,
  • Alessio Fasano

DOI
https://doi.org/10.3389/frai.2024.1366055
Journal volume & issue
Vol. 7

Abstract

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BackgroundMajor Depressive Disorder (MDD) is a prevalent mental health condition characterized by persistent low mood, cognitive and physical symptoms, anhedonia (loss of interest in activities), and suicidal ideation. The World Health Organization (WHO) predicts depression will become the leading cause of disability by 2030. While biological markers remain essential for understanding MDD's pathophysiology, recent advancements in social signal processing and environmental monitoring hold promise. Wearable technologies, including smartwatches and air purifiers with environmental sensors, can generate valuable digital biomarkers for depression assessment in real-world settings. Integrating these with existing physical, psychopathological, and other indices (autoimmune, inflammatory, neuroradiological) has the potential to improve MDD recurrence prevention strategies.MethodsThis prospective, randomized, interventional, and non-pharmacological integrated study aims to evaluate digital and environmental biomarkers in adolescents and young adults diagnosed with MDD who are currently taking medication. The study implements a sensor-integrated platform built around an open-source “Pothos” air purifier system. This platform is designed for scalability and integration with third-party devices. It accomplishes this through software interfaces, a dedicated app, sensor signal pre-processing, and an embedded deep learning AI system. The study will enroll two experimental groups (10 adolescents and 30 young adults each). Within each group, participants will be randomly allocated to Group A or Group B. Only Group B will receive the technological equipment (Pothos system and smartwatch) for collecting digital biomarkers. Blood and saliva samples will be collected at baseline (T0) and endpoint (T1) to assess inflammatory markers and cortisol levels.ResultsFollowing initial age-based stratification, the sample will undergo detailed classification at the 6-month follow-up based on remission status. Digital and environmental biomarker data will be analyzed to explore intricate relationships between these markers, depression symptoms, disease progression, and early signs of illness.ConclusionThis study seeks to validate an AI tool for enhancing early MDD clinical management, implement an AI solution for continuous data processing, and establish an AI infrastructure for managing healthcare Big Data. Integrating innovative psychophysical assessment tools into clinical practice holds significant promise for improving diagnostic accuracy and developing more specific digital devices for comprehensive mental health evaluation.

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