Reducing youth suicide: systems modelling and simulation to guide targeted investments across the determinants

Reducing suicidal behaviour (SB) is a critical public health issue globally. The complex interplay of social determinants, service system factors, population demographics, and behavioural dynamics makes it extraordinarily difficult for decision makers to determine the nature and balance of investmen...

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Published in:	BMC medicine Vol. 19; no. 1; p. 61
Main Authors:	Occhipinti, Jo-An, Skinner, Adam, Iorfino, Frank, Lawson, Kenny, Sturgess, Julie, Burgess, Warren, Davenport, Tracey, Hudson, Danica, Hickie, Ian
Format:	Journal Article
Language:	English
Published:	England BioMed Central Ltd 12-03-2021 BioMed Central BMC
Subjects:	Behavior Catchments Children Clinical decision making Computer Simulation - standards Decision analysis Decision making Decision Support Techniques Demographic aspects Demographics Demography Domestic violence Experimentation Feedback Harnesses Health aspects Health care Humans Intervention Investments Mental disorders Mental health Model testing Population Prevention Psychological aspects Psychological stress Public health Regional development Self-injury Simulation Strategic planning Suicidal behavior Suicide Suicide Prevention Suicides & suicide attempts System dynamics Systems Analysis Systems modelling Teenagers Workshops Youth Australia New South Wales Australia Strategic planning Simulation Systems modelling Decision analysis Suicide prevention
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Summary:	Reducing suicidal behaviour (SB) is a critical public health issue globally. The complex interplay of social determinants, service system factors, population demographics, and behavioural dynamics makes it extraordinarily difficult for decision makers to determine the nature and balance of investments required to have the greatest impacts on SB. Real-world experimentation to establish the optimal targeting, timing, scale, frequency, and intensity of investments required across the determinants is unfeasible. Therefore, this study harnesses systems modelling and simulation to guide population-level decision making that represent best strategic allocation of limited resources. Using a participatory approach, and informed by a range of national, state, and local datasets, a system dynamics model was developed, tested, and validated for a regional population catchment. The model incorporated defined pathways from social determinants of mental health to psychological distress, mental health care, and SB. Intervention scenarios were investigated to forecast their impact on SB over a 20-year period. A combination of social connectedness programs, technology-enabled coordinated care, post-attempt assertive aftercare, reductions in childhood adversity, and increasing youth employment projected the greatest impacts on SB, particularly in a youth population, reducing self-harm hospitalisations (suicide attempts) by 28.5% (95% interval 26.3-30.8%) and suicide deaths by 29.3% (95% interval 27.1-31.5%). Introducing additional interventions beyond the best performing suite of interventions produced only marginal improvement in population level impacts, highlighting that 'more is not necessarily better.' Results indicate that targeted investments in addressing the social determinants and in mental health services provides the best opportunity to reduce SB and suicide. Systems modelling and simulation offers a robust approach to leveraging best available research, data, and expert knowledge in a way that helps decision makers respond to the unique characteristics and drivers of SB in their catchments and more effectively focus limited health resources.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
ISSN:	1741-7015 1741-7015
DOI:	10.1186/s12916-021-01935-4