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Clinical relevance and validity of obesity risk prediction tools

Published online by Cambridge University Press:  03 September 2018

Sarah Redsell ,
Cris Glazebrook ,
Stephen Weng ,
Judy Swift  and
Dilip Nathan
Sarah Redsell
Affiliation:
Faculty of Health, Education, Medicine, and Social CareAnglia Ruskin UniversityHealth Building/Young Street East Road, Cambridge CB1 1PT, UK Email: sarah.redsell@anglia.ac.uk
Cris Glazebrook
Affiliation:
Faculty of Medicine and Health Sciences University of NottinghamNottingham, UK
Stephen Weng
Affiliation:
Faculty of Medicine and Health Sciences University of NottinghamNottingham, UK
Judy Swift
Affiliation:
Faculty of Science University of NottinghamNottingham, UK
Dilip Nathan
Affiliation:
Nottingham University Hospitals NHS TrustNottingham, UK
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Abstract

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Type
Letter to the Editor
Information
Public Health Nutrition , Volume 21 , Issue 17 , December 2018 , pp. 3148
Copyright
© The Authors 2018 

Madam

We read with interest a useful review you recently published by Canfell et al. which explored the clinical relevance and validity of obesity risk prediction tools( Reference Canfell, Littlewood and Wright 1 ). We thought it might be helpful to point out that the article missed a couple of key papers by our team that may be of interest. We are pleased that the authors identified work conducted by our team (Weng et al. (2013)( Reference Weng, Redsell and Nathan 2 )), which used the Millennium Cohort Study to develop and validate the Infant Risk of Obesity Checklist (IROC). In their review, Canfell et al. identify only two articles that performed an external validation on a different cohort. Our other paper published in June 2016, which was omitted from Canfell et al. ( Reference Canfell, Littlewood and Wright 1 ), describes the external validation of IROC with a different cohort, the Avon Longitudinal Study of Parents and Children (ALSPAC), and time frame( Reference Redsell, Weng and Swift 3 ). We recalibrated the IROC algorithm to reflect the ALSPAC characteristics which improved the discrimination (c-statistic of the area under the receiver-operating characteristic curve) by 3 % for the International Obesity Task Force and 2 % for the UK 1990 overweight criteria. We also undertook risk threshold analysis to provide support for clinical decision making.

In their paper, Canfell et al. suggest that there has been little widespread clinical uptake of overweight/obesity risk assessment tools within the health sector( Reference Canfell, Littlewood and Wright 1 ). In September 2017 we published the findings of a feasibility study of a digital intervention, called Proactive Assessment of Obesity Risk during Infancy (ProAsk), which included the IROC algorithm and evidence-based strategies for childhood overweight prevention( Reference Redsell, Rose and Weng 4 ).

We agree with the conclusions outlined by Canfell et al. in which they call for studies to improve the predictive strength of the currently available algorithms together with clinical implementation of such tools( Reference Canfell, Littlewood and Wright 1 ). Because of the sensitivity of identifying infant overweight and obesity risk, the majority of research-led interventions have been delivered universally sometimes within areas of high deprivation. We are keen that identification of parents of infants in greatest need is undertaken in order to prioritise resources.

Acknowledgements

Financial support: This letter received no specific grant from any funding agency in the public, commercial or not-for-profit sectors. However, the papers we cite from our work arose from publicly funded grants. Conflict of interest: None. Authorship: S.R. drafted the letter with C.G. and S.W. D.N. and J.S. reviewed, amended and approved the letter. All authors approved the final letter. Ethics of human subject participation: Not applicable.

References

1. Canfell, OJ, Littlewood, R, Wright, ORL et al. (2018) Clinical relevance and validity of tools to predict infant, childhood and adulthood obesity: a systematic review. Public Health Nutr. Published online: 12 July 2018. doi: 10.1017/S1368980018001684.Google Scholar
2. Weng, SF, Redsell, SA, Nathan, D et al. (2013) Estimating overweight risk in childhood from predictors during infancy. Pediatrics 132, e414e421.Google Scholar
3. Redsell, SA, Weng, SF, Swift, JA et al. (2016) Validation, optimal threshold determination and clinical utility of the Infant Risk of Overweight Checklist (IROC) for early prevention of child obesity. Childhood Obes 12, 202209.Google Scholar
4. Redsell, SA, Rose, J, Weng, S et al. (2017) Development and feasibility testing of a Proactive Assessment of Obesity Risk (ProAsk) digital tool. BMJ Open 7, e017694.Google Scholar