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Response to letters provided from Marko Kerac, Marie McGrath, James A Berkley, Carlos S Grijalva-Eternod, Natasha Lelijveld, Martha Mwangome, and Eleanor Rogers (Manuscript ID JNS-LE-22-0110)

Published online by Cambridge University Press:  21 February 2023

Beshada Rago Jima Open the ORCID record for Beshada Rago Jima [Opens in a new window]
Beshada Rago Jima*
Affiliation:
Department of Nutrition and Dietetics, School of Public Health, Addis Ababa University, Addis Ababa, Ethiopia
*
Corresponding author: Beshada Rago Jima, email beshada2011@gmail.com

Abstract

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Type
Letter to the Editor
Information
Journal of Nutritional Science , Volume 12 , 2023 , e27
Creative Commons
Creative Common License - CCCreative Common License - BY
This is an Open Access article, distributed under the terms of the Creative Commons Attribution licence (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted re-use, distribution and reproduction, provided the original article is properly cited.
Copyright
Copyright © The Author(s), 2023. Published by Cambridge University Press on behalf of The Nutrition Society

Letter to the Editor in response

Dear Editor in Chief

I am writing in response to recently provided (Manuscript ID JNS-LE-22-0110) letter from Marko Kerac, Marie McGrath, James A Berkley, Carlos S Grijalva-Eternod, Natasha Lelijveld, Martha Mwangome and Eleanor Rogers on our recently published article ‘Jima BR, Hassen HY, Bahwere P and Gebreyesus SH, Diagnostic ability of mid-upper arm circumference-to-length ratio in detecting wasting among infants aged 1–6 months in Ethiopia, Journal of Nutritional Science, (2022), vol. 11, 6 e23, p1–8.’

I responded to the aforementioned authors’ comments (points 1 and 2) using current guidelines and evidence on the ground.

(1) Implicit in the study design is an assumption that weight-for-length (WLZ) is the gold standard for identifying wasting in infants u6m. This is incorrect. (2) All anthropometric indicators are imperfect proxy measures of malnutrition with different strengths and weaknesses: what matters is how well they help identify infants at high risk of mortality and morbidity. (3) Although low WLZ indeed forms the current WHO 2013 case definition for severe malnutrition in infants u6m, (4) there is increasing evidence that it is a poor indicator of risk in this age group. Other indicators are likely to perform better, namely weight-for-age (WAZ) and potentially unadjusted mid-upper-arm-circumference (MUAC). (5) These indicators (along with non-anthropometric criteria) are currently being examined by the WHO in a collaborative pooled analysis of multiple datasets to explore their predictive value related to functional outcomes (mortality).

Response: Thank you for your comments. The World Health Organization (WHO) recommends utilising weight-for-height/length (WFH/L), the appearance of bilateral pitting oedema and measuring mid-upper arm circumference (MUAC) to identify acute malnutrition in children aged 6–59 months. Weight for length Z-score (WLZ) is currently used to diagnose wasting in infants younger than 6 months using the same threshold as in older children(1). In our study, the main and recommended anthropometric index for assessing and classifying Acute The diagnosis of wasting among infants aged under 6 months is currently based on weight to length Z-score (WLZ), using the same threshold applied in older children(1). In our study, setting WLZ is the main and recommended anthropometric index to assess and classify Acute Malnutrition in Infants 0–6 months(2). The protocol for the management of acute malnutrition used in all selected hospitals is consistent with WHO guidelines for the management of acute malnutrition. The preceding arguments are the foundations for using WLZ as the reference measurement in our study.

(2) A second problem is the lack of practical considerations in the study's discussion. MUAC-to-length (MUAC/L) is a complex and problematic measure considering the challenges of accurately measuring length in infants. This makes it a poor, non-viable option in health and nutrition programmes in low-resource settings. Length measurement requires a lot of time, training and equipment to measure, it is difficult to do accurately as infants’ legs are naturally flexed, and it has the lowest quality data of any anthropometric measurement. 6 These factors have been influential in the development of MUAC-only programmes rather than those based on WLZ in children aged 6–59 months.

Response: Thank you for your comments. MUAC has recently been identified as a wasting indication in infants under the age of six months(Reference Black, Victora and Walker3Reference Irena, Mwambazi and Mulenga5). However, because of the rapid growth experienced throughout childhood, MUAC has become an age and gender-dependent anthropometric assessment (13). In recognition of this age dependency, several authors have devised and recommended the use of a MUAC-for-age indication (14; 15). However, in many circumstances, determining the individuals’ ages is problematic, prompting numerous attempts to develop anthropometric data interpretation methods that do not require knowledge of age or at least accurate age. Additionally, the exact age is difficult to know, particularly in low-income countries. We evaluated the diagnostic accuracy of an age-independent mid-upper arm circumference-to-length ratio (MUAC/L) measurement in detecting wasting among infants aged 1–6 months, in Ethiopia. Despite the fact that measuring length takes a lot of time, training and equipment, length and skeletal measures are more genetically controlled and are less influenced by malnutrition(Reference Jelliffe6Reference Frisancho and Garn9). As a result, using length measurement to assess infant nutritional status is an appropriate method.

Yours sincerely,

References

World Health Organisation (2013) Guideline: Updates on the Management of Severe Acute Malnutrition in Infants and Children. Geneva: World Health Organization; available at http://www.ncbi.nlm.nih.gov/books/NBK190328 (accessed August 2022).Google Scholar
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