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Structuring and validating a cost-effectiveness model of primary asthma prevention amongst children
- Source :
- BMC Medical Research Methodology, 11. BioMed Central, BMC Medical Research Methodology, BMC Medical Research Methodology, 11, pp. 150-150, BMC Medical Research Methodology, Vol 11, Iss 1, p 150 (2011), BMC Medical Research Methodology, 11, 150-150, BMC Medical Research Methodology, 11(150), 1-14. BioMed Central Ltd.
- Publication Year :
- 2011
- Publisher :
- BioMed Central, 2011.
-
Abstract
- Contains fulltext : 96371.pdf (Publisher’s version ) (Open Access) BACKGROUND: Given the rising number of asthma cases and the increasing costs of health care, prevention may be the best cure. Decisions regarding the implementation of prevention programmes in general and choosing between unifaceted and multifaceted strategies in particular are urgently needed. Existing trials on the primary prevention of asthma are, however, insufficient on their own to inform the decision of stakeholders regarding the cost-effectiveness of such prevention strategies. Decision analytic modelling synthesises available data for the cost-effectiveness evaluation of strategies in an explicit manner. Published reports on model development should provide the detail and transparency required to increase the acceptability of cost-effectiveness modelling. But, detail on the explicit steps and the involvement of experts in structuring a model is often unevenly reported. In this paper, we describe a procedure to structure and validate a model for the primary prevention of asthma in children. METHODS: An expert panel was convened for round-table discussions to frame the cost-effectiveness research question and to select and structure a model. The model's structural validity, which indicates how well a model reflects the reality, was determined through descriptive and parallel validation. Descriptive validation was performed with the experts. Parallel validation qualitatively compared similarity between other published models with different decision problems. RESULTS: The multidisciplinary input of experts helped to develop a decision-tree structure which compares the current situation with screening and prevention. The prevention was further divided between multifaceted and unifaceted approaches to analyse the differences. The clinical outcome was diagnosis of asthma. No similar model was found in the literature discussing the same decision problem. Structural validity in terms of descriptive validity was achieved with the experts and was supported by parallel validation. CONCLUSIONS: A decision-tree model developed with experts in round-table discussions benefits from a systematic and transparent approach and the multidisciplinary contributions of the experts. Parallel validation provides a feasible alternative to validating novel models. The process of structuring and validating a model presented in this paper could be a useful guide to increase transparency, credibility, and acceptability of (future, novel) models when experts are involved.
- Subjects :
- Cost effectiveness
Epidemiology
Cost-Benefit Analysis
Health Informatics
Decision Support Techniques
Multidisciplinary approach
Health care
Credibility
Medicine
Humans
Child
Research question
lcsh:R5-920
business.industry
Management science
Health technology
Reproducibility of Results
Effective primary care and public health [NCEBP 7]
Health Care Costs
Decision problem
Effective primary care and public health Poverty-related infectious diseases [NCEBP 7]
Asthma
Primary Prevention
Models, Economic
Economic evaluation
Pathogenesis and modulation of inflammation Implementation Science [N4i 1]
business
lcsh:Medicine (General)
Algorithms
Research Article
Subjects
Details
- Language :
- English
- ISSN :
- 14712288
- Volume :
- 11
- Database :
- OpenAIRE
- Journal :
- BMC Medical Research Methodology
- Accession number :
- edsair.doi.dedup.....278a983a580b8e1148f383123731c0d3
- Full Text :
- https://doi.org/10.1186/1471-2288-11-150