Abstract
ObjectivesEcological momentary interventions (EMI) are digital mobile health interventions administered in an individual's daily life to improve mental health by tailoring intervention components to person and context. Experience sampling via ecological momentary assessments (EMA) furthermore provides dynamic contextual information on an individual's mental health state. We propose a personalized data-driven generic framework to select and evaluate EMI based on EMA.MethodsWe analyze EMA/EMI time-series from 10 individuals, published in a previous study. The EMA consist of multivariate psychological Likert scales. The EMI are mental health trainings presented on a smartphone. We model EMA as linear dynamical systems (DS) and EMI as perturbations. Using concepts from network control theory, we propose and evaluate three personalized data-driven intervention delivery strategies. Moreover, we study putative change mechanisms in response to interventions.ResultsWe identify promising intervention delivery strategies that outperform empirical strategies in simulation. We pinpoint interventions with a high positive impact on the network, at low energetic costs. Although mechanisms differ between individuals - demanding personalized solutions - the proposed strategies are generic and applicable to various real-world settings.ConclusionsCombined with knowledge from mental health experts, DS and control algorithms may provide powerful data-driven and personalized intervention delivery and evaluation strategies.
Original language | English |
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Article number | e70001 |
Number of pages | 10 |
Journal | International Journal of Methods in Psychiatric Research |
Volume | 33 |
Issue number | 4 |
DOIs | |
Publication status | Published - 1 Dec 2024 |
Keywords
- computational psychiatry
- control theory
- ecological momentary assessment
- ecological momentary intervention
- mobile health
- NETWORK STRUCTURE
- CONTROLLABILITY
- DEPRESSION
- DYNAMICS