Hostname: page-component-cd9895bd7-hc48f Total loading time: 0 Render date: 2024-12-25T06:23:18.754Z Has data issue: false hasContentIssue false

Response to ‘Clinical relevance and validity of obesity risk prediction tools’ by Redsell et al.

Published online by Cambridge University Press:  11 October 2018

Oliver J Canfell
Affiliation:
School of Human Movement and Nutrition Sciences Faculty of Health and Behavioural Sciences The University of QueenslandBrisbane, QLD 4072, Australia Email: [email protected] Lady Cilento Children’s Hospital Children’s Health Queensland Hospital and Health Service Brisbane, Australia
Robyn Littlewood
Affiliation:
Lady Cilento Children’s Hospital Children’s Health Queensland Hospital and Health Service Brisbane, Australia Queensland Child and Youth Clinical Network Clinical Excellence Division Office of Strategy Management Queensland Health Brisbane, Australia
Olivia RL Wright
Affiliation:
School of Human Movement and Nutrition Sciences Faculty of Health and Behavioural Sciences The University of QueenslandBrisbane, QLD 4072, Australia Email: [email protected]
Jacqueline L Walker
Affiliation:
School of Human Movement and Nutrition Sciences Faculty of Health and Behavioural Sciences The University of QueenslandBrisbane, QLD 4072, Australia Email: [email protected]
Rights & Permissions [Opens in a new window]

Abstract

Type
Letter to the Editor
Copyright
© The Authors 2018 

Madam

We are writing in response to the Letter to the Editor from Professor Sarah Redsell and colleagues( Reference Redsell, Glazebrook and Weng 1 ) regarding our recent review article, ‘Clinical relevance and validity of tools to predict infant, childhood and adulthood obesity: a systematic review’( Reference Canfell, Littlewood and Wright 2 ), published in Public Health Nutrition. We would like to sincerely thank Redsell and colleagues for their interest in our review.

We strongly commend the work published by Weng et al. ( Reference Weng, Redsell and Nathan 3 ) describing the initial development and internal validation of the Infant Risk of Obesity Checklist (IROC), using the UK Millennium Cohort Study (MCS). As noted in our discussion, the scope of our review was limited to original development and validation studies of overweight or obesity (overweight/obesity) prediction tools. A main focus of the review was to assess the methodological rigour of initial overweight/obesity prediction tool development and validation studies, rather than a combination of initial and follow-up development and validation studies, to ensure review consistency. Therefore, any follow-up validation studies that may have been performed were deemed outside the scope for inclusion in the review. A similar follow-up validation study( Reference Manios, Vlachopapadopoulou and Moschonis 4 ) to that of Redsell et al. ( Reference Redsell, Weng and Swift 5 ) was also excluded due to our review scope, while the original development and validation study by the same authors( Reference Manios, Birbilis and Moschonis 6 ) was included within our review. We acknowledge the external validation and recalibration of the IROC algorithm within the Avon Longitudinal Study of Parents and Children (ALSPAC) cohort and the enhanced discriminative accuracy findings, as well as the net reclassification index method used to enable and improve clinical decision making. Additionally, in their letter, Redsell and colleagues( Reference Redsell, Glazebrook and Weng 1 ) comment on our identification of only two studies performing external validation on a different cohort. For clarification, these two studies performed external validation as part of their initial development and validation phase and not as part of a subsequent study, thus making them eligible for inclusion within our review scope.

In reference to the comment from Redsell and colleagues( Reference Redsell, Glazebrook and Weng 1 ) on our mention of ‘little widespread clinical uptake’ of an overweight/obesity prediction tool, we would like to clarify our definition of widespread clinical uptake. The scale of such uptake is, in our perspective, systems integration within the health-care sector, supported by evidence of frequent clinical use and associated outcomes. We believe the study published by Redsell et al. ( Reference Redsell, Rose and Weng 7 ) in late 2017 is an extremely promising leap towards such uptake and integration, offering the first known attempt to assess the real-world feasibility of an overweight/obesity prediction tool (ProAsk) within underserved community settings. Unfortunately, due to the timing of our review completion (databases searched from inception until early September 2017), this feasibility study was not identified. If the timing of writing and submission were different, this study, along with reference to the follow-up validation study by Redsell et al. ( Reference Redsell, Weng and Swift 5 ), would have been invaluable in supporting our review discussion and conclusions.

It is highly encouraging to read of the work of other groups in the field of childhood overweight/obesity prediction modelling and we commend the extensive contribution by Redsell and colleagues. We agree with Redsell and colleagues that parent-focused considerations and interventions are crucial to decreasing sensitivity and, thus, acceptability of an overweight/obesity prediction tool, especially within priority populations. This is especially relevant to Australia, as Aboriginal and Torres Strait Islander and Māori & Pacific Islander peoples exhibit a higher prevalence of overweight/obesity. We acknowledge Redsell and colleagues’ support of our review conclusions and reiterate the need for methodologically robust overweight/obesity prediction tool development and validation, with the goal of eventual health system-wide integration of such a tool to maximise risk identification and the likelihood of overweight/obesity prevention.

Acknowledgements

Financial support: This research received no specific grant from any funding agency in the public, commercial or not-for-profit sectors. O.J.C. is supported by an Australian Government Research Training Program (RTP) Scholarship. Conflict of interest: None. Authorship: O.J.C. drafted the letter. R.L., O.R.L.W. and J.L.W. critically revised the draft and approved the final letter. Ethics of human subject participation: Not applicable.

References

1. Redsell, S,Glazebrook, C,Weng, S et al. (2018) Clinical relevance and validity of obesity risk prediction tools (Letter to the Editor). Public Health Nutr. Published online: 3 September 2018. doi: 10.1017/S136898001800229X Google Scholar
2. 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
3. Weng, SF,Redsell, SA,Nathan, D et al. (2013) Estimating overweight risk in childhood from predictors during infancy. Pediatrics 132, e414e421.Google Scholar
4. Manios, Y,Vlachopapadopoulou, E,Moschonis, G et al. (2016) Utility and applicability of the ‘Childhood Obesity Risk Evaluation’ (CORE)-index in predicting obesity in childhood and adolescence in Greece from early life: the ‘National Action Plan for Public Health’. Eur J Pediatr 175, 19891996.Google Scholar
5. Redsell, SA,Weng, S,Swift, JA et al. (2016) Validation, optimal threshold determination, and clinical utility of the Infant Risk of Overweight Checklist for early prevention of child overweight. Child Obes 12, 202209.Google Scholar
6. Manios, Y,Birbilis, M,Moschonis, G et al. (2013) Childhood Obesity Risk Evaluation based on perinatal factors and family sociodemographic characteristics: CORE index. Eur J Pediatr 172, 551555.Google Scholar
7. Redsell, SA,Rose, J,Weng, S et al. (2017) Digital technology to facilitate Proactive Assessment of Obesity Risk during Infancy (ProAsk): a feasibility study. BMJ Open 7, e017694.Google Scholar