Outcomes and Costs of Primary Care Surveillance and Intervention for Overweight or Obese Children: the LEAP 2 Randomised Controlled Trial

Overview

Journal BMJ

Specialty General Medicine

Date 2009 Sep 5

PMID 19729418

Citations 68

Authors

Melissa Wake

Louise A Baur

Bibi Gerner

Kay Gibbons

Lisa Gold

Jane Gunn

Penny Levickis

Zoe McCallum

Geraldine Naughton

Lena Sanci

Obioha C Ukoumunne

Affiliations

Soon will be listed here.

Abstract

Objective: To determine whether ascertainment of childhood obesity by surveillance followed by structured secondary prevention in primary care improved outcomes in overweight or mildly obese children.

Design: Randomised controlled trial nested within a baseline cross sectional survey of body mass index (BMI). Randomisation and outcomes measurement, but not participants, were blinded to group assignment.

Setting: 45 family practices (66 general practitioners) in Melbourne, Australia.

Participants: 3958 children visiting their general practitioner in May 2005-July 2006 were surveyed for BMI. Of these, 258 children aged 5 years 0 months up to their 10th birthday who were overweight or obese by International Obesity Taskforce criteria were randomised to intervention (n=139) or control (n=119) groups. Children who were very obese (UK BMI z score >or=3.0) were excluded.

Intervention: Four standard consultations over 12 weeks targeting change in nutrition, physical activity, and sedentary behaviour, supported by purpose designed family materials. Main outcomes measures Primary measure was BMI at 6 and 12 months after randomisation. Secondary measures were mean activity count/min by 7-day accelerometry, nutrition score from 4-day abbreviated food frequency diary, and child health related quality of life. Differences were adjusted for socioeconomic status, age, sex, and baseline BMI.

Results: Of 781 eligible children, 258 (33%) entered the trial; attrition was 3.1% at 6 months and 6.2% at 12 months. Adjusted mean differences (intervention - control) at 6 and 12 months were, for BMI, -0.12 (95% CI -0.40 to 0.15, P=0.4) and -0.11 (-0.45 to 0.22, P=0.5); for physical activity in counts/min, 24 (-4 to 52, P=0.09) and 11 (-26 to 49, P=0.6); and, for nutrition score, 0.2 (-0.03 to 0.4, P=0.1) and 0.1 (-0.1 to 0.4, P=0.2). There was no evidence of harm to the child. Costs to the healthcare system were significantly higher in the intervention arm.

Conclusions: Primary care screening followed by brief counselling did not improve BMI, physical activity, or nutrition in overweight or mildly obese 5-10 year olds, and it would be very costly if universally implemented. These findings are at odds with national policies in countries including the US, UK, and Australia.

Trial Registration: ISRCTN 52511065 (www.isrctn.org).

Citing Articles

Cost-effectiveness analysis of individual-level obesity treatment in paediatrics: A scoping review.

Dhillon A, Mayer M, Kysh L, Fox D, Hegedus E, Vidmar A Pediatr Obes. 2024; 19(3):e13100.

PMID: 38287524 PMC: 11554291. DOI: 10.1111/ijpo.13100.

Changes in dietary habits and BMI -score after a 6-month non-randomized cluster-controlled trial among 6-12 years old overweight and obese Norwegian children.

Stea T, Vettore M, Ovrebo B, Abildsnes E Food Nutr Res. 2024; 67.

PMID: 38187797 PMC: 10770647. DOI: 10.29219/fnr.v67.9617.

Predicting body mass index in early childhood using data from the first 1000 days.

Cheng E, Cengiz A, Miled Z Sci Rep. 2023; 13(1):8781.

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Sex differences in response to lifestyle intervention among children and adolescents: Systematic review and meta-analysis.

Mast A, Pena A, Bolch C, Shaibi G, Wyst K Obesity (Silver Spring). 2023; 31(3):665-692.

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Keys to Achieving Clinically Important Weight Loss: Perceptions of Responders and Nonresponders in the Clinic and Community Approaches to Healthy Weight Trial.

Fay C, Castro I, Sierra Velez D, Ruggiero C, OConnor G, Perkins M Child Obes. 2022; 19(8):507-514.

PMID: 36315223 PMC: 10698771. DOI: 10.1089/chi.2022.0112.

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