METHODOLOGICAL REVIEW OF MODEL-BASED COST-EFFECTIVENESS ANALYSES OF SCHOOL-BASED INTERVENTIONS TO INCREASE PUPILS’ LEVEL OF PHYSICAL ACTIVITY

Batorova, Dominika; Sørensen, Jan

doi:10.4025/jphyseduc.v30i1.3013

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Journal of Physical Education

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Review Article • J. Phys. Educ. 30 • 2019 • https://doi.org/10.4025/jphyseduc.v30i1.3013 copy

METHODOLOGICAL REVIEW OF MODEL-BASED COST-EFFECTIVENESS ANALYSES OF SCHOOL-BASED INTERVENTIONS TO INCREASE PUPILS’ LEVEL OF PHYSICAL ACTIVITY

REVISÃO METODOLÓGICA DE ANÁLISES DE CUSTO-EFETIVIDADE BASEADAS EM MODELOS DE INTERVENÇÕES ESCOLARES PARA AUMENTAR O NÍVEL DE ATIVIDADE FÍSICA DOS ALUNOS

Authorship SCIMAGO INSTITUTIONS RANKINGS

ABSTRACT

A large number of school-based interventions promoting physical activity have been developed. Due to difficulties of obtaining observational data on long-term consequences such as effects and costs, modelling techniques offer opportunities to consider these. The aim of this study was to provide an overview of modelling approaches applied in economic evaluations of school-based physical activity programmes. We identify key methodological choices, challenges, and areas with a lack of evidence. A literature search was conducted to identify all relevant studies published within the last 10 years. The included studies were described with focus on main methodological aspects, including the costs, effects, and modelling techniques. Eight model-based economic analyses of school-based physical activity programmes were identified. The majority of these studies concluded that the interventions had a high probability of being cost-effective or even cost saving based on the national-specific thresholds. Although most studies did provide a description of the models, details on the methodological choices were not always transparent. Moreover, evidence on the effectiveness and inclusion of all relevant cost categories were found to be challenging. Different modelling methodologies have been used to assess the cost-effectiveness of school-based physical activity programmes. Only few studies have evaluated the long-term cost-effectiveness, and they have all challenging methodological issues.

Keywords:
Cost-effectiveness; Physical activity; Intervention

Study/ Year/ Country	Intervention components	Study population/Age Group	Study and model type	Time Horizon	Perspective	Comparator	Discounting	Reference year and currency	Uncertainty analysis	Main Results
Moodie et al. 2009 (AUS)¹⁴14 Moodie M, Haby M, Galvin L, Swinburn B, Carter R. Cost-effectiveness of active transport for primary school children - Walking School Bus program. Int J Behav Nutr Phys Act 2009;6:63. Doi: 10.1186/1479-5868-6-63. https://doi.org/10.1186/1479-5868-6-63...	Walking School Bus: active transport (walking to and from school)	Childhood population (age 5-7 years)	CUA, Markov modelling techniques	Rest of life or 100 years for cost-offsets and DALYs, 1 year for the intervention	Societal	No intervention	3% for both costs and benefits	2001, AUD	Simulation-modeling techniques (Monte Carlo simulations)/univariate sensitivity tests	Net ICER: AUD 760,000 per DALY saved
Moodie et al. 2010 (AUS)¹⁵15 Moodie ML, Carter RC, Swinburn BA, Haby MM. The cost-effectiveness of Australia's Active After-School Communities program. Obesity 2010;18(8):1585-1592. Doi: 10.1038/oby.2009.401. https://doi.org/10.1038/oby.2009.401...	Active After-school Communities (AASC) program: After-school program promoting physical activity	Primary school children (age of 5-11 years)	CUA, Markov modelling techniques	Rest of life or 100 years for cost-offsets and DALYs, 1 year for the intervention	Societal	No intervention	3% for both costs and benefits	2001, AUD	Simulation-modeling techniques (Monte Carlo simulations)/univariate sensitivity tests	Net ICER: AUD 82,000 per DALY saved
Moodie et al. 2011 (AUS)¹⁶16 Moodie M, Haby MM, Swinburn B, Carter R. Assessing cost-effectiveness in obesity: active transport program for primary school children--TravelSMART Schools Curriculum program. J Phys Act Health 2011;8(4):503-515.	Travel SMART Schools (TSS): curriculum program promoting active transport	5th and 6th grade children (age of 10-11 years)	CUA, Markov modelling techniques	Rest of life or 100 years for cost-offsets and DALYs, 1 year for the intervention	Societal	No intervention	3% for both costs and benefits	2001, AUD	Simulation-modeling techniques (Monte Carlo simulations)/univariate sensitivity tests	Net ICER: AUD 117,000 per DALY saved
Wang et al. 2011 (USA)¹⁷17 Wang LY, Nichols LP, Austin SB. The economic effect of Planet Health on preventing bulimia nervosa. Arch Pediatr Adolesc Med 2011;165(8):756-762. Doi: 10.1001/archpediatrics.2011.105. https://doi.org/10.1001/archpediatrics.2...	Interdisciplinary curriculum intervention (physical activity + nutrition)	Middle school children (11-13 years old)	CUA, extrapolation of results from a RCT	10 years for cost offsets and QALYs	Societal	No intervention	3% for costs and QALYs	2010, USD	Univariate and multivariate sensitivity analyses (Monte Carlo simulations)	Net ICER: −$2966 per QALY
Rush et al. 2014 (NZ)¹⁸18 Rush E, Obolonkin V, McLennan S, Graham D, Harris JD, Mernagh P, et al. Lifetime cost effectiveness of a through-school nutrition and physical programme: Project Energize. Obes Res Clin Pract 2014;8(2):e115-e122. Doi: 10.1016/j.orcp.2013.03.005. https://doi.org/10.1016/j.orcp.2013.03.0...	Multicomponent program (physical activity + nutrition)	Primary school children 6-8 and 9-11 years old	CUA, extrapolation lifetime model	Lifetime	Funder (governmental)	Historical controls, no intervention	3.5% for all future costs and outcomes	2011, NZD	Sensitivity analyses of cost/QALY by varying conditions of model for younger and older children	ICER: $30,438 per QALY for the younger and $24,690 per QALY for the older children
Barrett et al. 2015 (USA)¹⁹19 Barrett JL, Gortmaker SL, Long MW, Ward ZJ, Resch SC, Moodie ML, et al. Cost Effectiveness of an Elementary School Active Physical Education Policy. Am J Prev Med 2015;49(1):148-159. Doi: 10.1016/j.amepre.2015.02.005. https://doi.org/10.1016/j.amepre.2015.02...	Active PE policy	Elementary school children aged 6-11 years	CEA, Markov cohort model	10 years (2005-2015)	Modified societal	No intervention	3% for both costs and benefits	2014, USD	Probabilistic sensitivity analysis (Monte Carlo)	ICER: $0.34 per MET-hour gained; $401 per BMI unit reduced
Cradock et al. 2017 (USA)²⁰20 Cradock AL, Barrett JL, Kenney EL, Giles CM, Ward ZJ, Long MW, et al. Using cost-effectiveness analysis to prioritize policy and programmatic approaches to physical activity promotion and obesity prevention in childhood. Prev Med 2017;95 Suppl:S17-S27. Doi: 10.1016/j.ypmed.2016.10.017. https://doi.org/10.1016/j.ypmed.2016.10....	Six interventions promoting physical activity	Age ranging 5-14 (3-5 in Hip Hop to Health Jr.)	CEA, Individual level micro-simulation model	10 years (2005-2015)	Modified societal	No intervention	3% for both costs and benefits	2014, USD	Probabilistic sensitivity analysis (Monte Carlo)	Most cost-effective intervention: New Afterschool Programs (cost saving -$4.6 billion)
Ekwaru et al. 2017 (CA)²¹21 Ekwaru JP, Ohinmaa A, Tran BX, Setayeshgar S, Johnson JA, Veugelers PJ. Cost-effectiveness of a school-based health promotion program in Canada: A life-course modeling approach. PloS one 2017;12(5):e0177848. Doi: 10.1371/journal.pone.0177848. https://doi.org/10.1371/journal.pone.017...	Health promotion program (physical activity + nutrition)	Grade 5 children (about 10 years of age)	CUA, Markov modelling techniques	Up to 80 years among male and 84 years among female, 2 years for intervention	School system	No intervention	3% for both costs and health outcomes	2008, CAD	Probabilistic sensitivity analysis/two-way sensitivity analysis	ICER: CA$33,421 per QALY gained

	Effect	Source of effect
Moodie et al. 2009 (AUS)¹⁴14 Moodie M, Haby M, Galvin L, Swinburn B, Carter R. Cost-effectiveness of active transport for primary school children - Walking School Bus program. Int J Behav Nutr Phys Act 2009;6:63. Doi: 10.1186/1479-5868-6-63. https://doi.org/10.1186/1479-5868-6-63...	Extra time spent on walking to and from school	One week snapshot of the WSB program
Moodie et al. 2010 (AUS)¹⁵15 Moodie ML, Carter RC, Swinburn BA, Haby MM. The cost-effectiveness of Australia's Active After-School Communities program. Obesity 2010;18(8):1585-1592. Doi: 10.1038/oby.2009.401. https://doi.org/10.1038/oby.2009.401...	Extra time spent on physical activity during after-school	AASC funding guidelines
Moodie et al. 2011 (AUS)¹⁶16 Moodie M, Haby MM, Swinburn B, Carter R. Assessing cost-effectiveness in obesity: active transport program for primary school children--TravelSMART Schools Curriculum program. J Phys Act Health 2011;8(4):503-515.	Extra time spent on active transport	One week snapshot of the WSB program
Wang et al. 2011 (USA)¹⁷17 Wang LY, Nichols LP, Austin SB. The economic effect of Planet Health on preventing bulimia nervosa. Arch Pediatr Adolesc Med 2011;165(8):756-762. Doi: 10.1001/archpediatrics.2011.105. https://doi.org/10.1001/archpediatrics.2...	Cases of DWCB prevented, composite indicator based on a directly measured BMI and a TSF (Triceps skinfolds)	Data collected as a part of a RCT
Rush et al. 2014 (NZ)¹⁸18 Rush E, Obolonkin V, McLennan S, Graham D, Harris JD, Mernagh P, et al. Lifetime cost effectiveness of a through-school nutrition and physical programme: Project Energize. Obes Res Clin Pract 2014;8(2):e115-e122. Doi: 10.1016/j.orcp.2013.03.005. https://doi.org/10.1016/j.orcp.2013.03.0...	The median difference in BMI between the intervention group and historical control group	Measurements from an evaluation study (2011) compared to measurements from a RCT (2004 and 2006)
Barrett et al. 2015 (USA)¹⁹19 Barrett JL, Gortmaker SL, Long MW, Ward ZJ, Resch SC, Moodie ML, et al. Cost Effectiveness of an Elementary School Active Physical Education Policy. Am J Prev Med 2015;49(1):148-159. Doi: 10.1016/j.amepre.2015.02.005. https://doi.org/10.1016/j.amepre.2015.02...	Extra time spent in MVPA during PE class	Meta-analysis
Cradock et al. 2017 (USA)²⁰20 Cradock AL, Barrett JL, Kenney EL, Giles CM, Ward ZJ, Long MW, et al. Using cost-effectiveness analysis to prioritize policy and programmatic approaches to physical activity promotion and obesity prevention in childhood. Prev Med 2017;95 Suppl:S17-S27. Doi: 10.1016/j.ypmed.2016.10.017. https://doi.org/10.1016/j.ypmed.2016.10....	Increase in MVPA per day (as a result of the 6 different interventions)	Meta-analysis; 9 experimental studies; quasi-experimental study; cluster RCT; longitudinal observational study; one group-RCT
Ekwaru et al. 2017 (CA)²¹21 Ekwaru JP, Ohinmaa A, Tran BX, Setayeshgar S, Johnson JA, Veugelers PJ. Cost-effectiveness of a school-based health promotion program in Canada: A life-course modeling approach. PloS one 2017;12(5):e0177848. Doi: 10.1371/journal.pone.0177848. https://doi.org/10.1371/journal.pone.017...	Change in weight status (APPLE schools compared to control group)	Weight status data obtained from grade 5 students attending APPLE and Non-APPLE schools at baseline and at the end of the intervention

Type of cost *	Development costs	Recruitment costs	Program implementation costs: Personnel costs (salaries)	Non-personnel costs	Cost savings
Moodie et al. 2009 (AUS)¹⁴14 Moodie M, Haby M, Galvin L, Swinburn B, Carter R. Cost-effectiveness of active transport for primary school children - Walking School Bus program. Int J Behav Nutr Phys Act 2009;6:63. Doi: 10.1186/1479-5868-6-63. https://doi.org/10.1186/1479-5868-6-63...	Excluded	Recruitment of local governments and schools; promotional materials	Central coordination and planning; volunteer time costs (average ordinary time earning , leisure time rates); training of volunteers by Vic Roads officers	Training venue hire & catering; kit bags; curriculum materials; pecial events & theme days; insurance and police checks of volunteers	Direct medical (medical cost savings arising from future reductions in obesity-related diseases)
Moodie et al. 2010 (AUS)¹⁵15 Moodie ML, Carter RC, Swinburn BA, Haby MM. The cost-effectiveness of Australia's Active After-School Communities program. Obesity 2010;18(8):1585-1592. Doi: 10.1038/oby.2009.401. https://doi.org/10.1038/oby.2009.401...	Excluded	Recruitment of teacher, Out of School Hours Service (OSHCS) and Australian Sports Commission (ASC) coordinations; program promotion	National, state, regional and site coordination & planning; teacher or child care worker salary	Equipment, hire venue & transport; after-school care fee	Direct medical (medical cost savings arising from future reductions in obesity-related diseases)
Moodie et al. 2011 (AUS)¹⁶16 Moodie M, Haby MM, Swinburn B, Carter R. Assessing cost-effectiveness in obesity: active transport program for primary school children--TravelSMART Schools Curriculum program. J Phys Act Health 2011;8(4):503-515.	Excluded	School recruitment (TSS coordinator)	Central coordination (project officer); teacher travel time to training; backfill teachers during training; training of teachers	Curriculum manuals; whole-of-school events; training related costs: venue hire, vehicle costs and catering	Direct medical (medical cost savings arising from future reductions in obesity-related diseases)
Wang et al. 2011 (USA)¹⁷17 Wang LY, Nichols LP, Austin SB. The economic effect of Planet Health on preventing bulimia nervosa. Arch Pediatr Adolesc Med 2011;165(8):756-762. Doi: 10.1001/archpediatrics.2011.105. https://doi.org/10.1001/archpediatrics.2...	Excluded	Not specified	Trainer and assistant trainer salary; reimbursement of teachers for participating in the training	Curriculum book; food during training; school funds	Direct medical costs (medical treatment costs saved per BN case prevented over 10 years + medical costs averted per case of adulthood overweight prevented); Indirect costs (cost of lost productivity averted per case of adulthood overweight prevented)
Rush et al. 2014 (NZ)¹⁸18 Rush E, Obolonkin V, McLennan S, Graham D, Harris JD, Mernagh P, et al. Lifetime cost effectiveness of a through-school nutrition and physical programme: Project Energize. Obes Res Clin Pract 2014;8(2):e115-e122. Doi: 10.1016/j.orcp.2013.03.005. https://doi.org/10.1016/j.orcp.2013.03.0...	Excluded	Not specified	Not specified	Not specified	Direct medical (reductions in ongoing healthcare and costs associated with the treatment of the chronic health conditions)
Barrett et al. 2015 (USA)¹⁹19 Barrett JL, Gortmaker SL, Long MW, Ward ZJ, Resch SC, Moodie ML, et al. Cost Effectiveness of an Elementary School Active Physical Education Policy. Am J Prev Med 2015;49(1):148-159. Doi: 10.1016/j.amepre.2015.02.005. https://doi.org/10.1016/j.amepre.2015.02...	Excluded	Not specified	State PE coordinator; salary to teacher and principal training facilitator; training time for principals	Curriculum & equipment set; training paper copies	Direct medical (reductions in obesity-related healthcare expenditures over 10 years)
Cradock et al. 2017 (USA)²⁰20 Cradock AL, Barrett JL, Kenney EL, Giles CM, Ward ZJ, Long MW, et al. Using cost-effectiveness analysis to prioritize policy and programmatic approaches to physical activity promotion and obesity prevention in childhood. Prev Med 2017;95 Suppl:S17-S27. Doi: 10.1016/j.ypmed.2016.10.017. https://doi.org/10.1016/j.ypmed.2016.10....	Excluded	Not specified	Federal, state, district & transportation coordination; time costs related to training of teachers, principals, recess monitors, School Wellness Champions and program staff; Wellness champion stipend	Equipment; curriculum materials; training materials; specialized CDs and handouts; installation of playground markings; food; transportation; ongoing certification; rent	Direct medical (reductions in obesity-related healthcare expenditures over 10 years); direct non-medical (time of caregivers)
Ekwaru et al. 2017 (CA)²¹21 Ekwaru JP, Ohinmaa A, Tran BX, Setayeshgar S, Johnson JA, Veugelers PJ. Cost-effectiveness of a school-based health promotion program in Canada: A life-course modeling approach. PloS one 2017;12(5):e0177848. Doi: 10.1371/journal.pone.0177848. https://doi.org/10.1371/journal.pone.017...	Research costs	Not specified	Intervention and administration staff costs; professional development	Transport	Excluded

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E-mail: revdef@uem.br

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[1] Author address:
Prof Jan Sørensen. Healthcare Outcome Research Centre, Royal College of Surgeons in Ireland, Beaux Lane House, Mercer Street Lower, Dublin 2, Ireland. jansorensen@rcsi.ie