Estimating total energy expenditure to determine energy requirements in free-living children with stage 3 chronic kidney disease: can a structured approach help improve clinical care?
Estimating total energy expenditure to determine energy requirements in free-living children with stage 3 chronic kidney disease: can a structured approach help improve clinical care?
Objective: malnutrition and obesity are complex burdensome challenges in pediatric chronic kidney disease (CKD) management that can adversely affect growth, disease progression, wellbeing, and response to treatment. Total energy expenditure (TEE) and energy requirements in children are essential for growth outcomes but are poorly defined, leaving clinical practice varied and insecure. The aims of this study were to explore a practical approach to guide prescribed nutritional interventions, using measurements of TEE, physical activity energy expenditure (PAEE), and their relationship to kidney function.
Design and Methods: in a cross-sectional prospective age-matched and sex-matched controlled study, 18 children with CKD (6-17 years, mean stage 3) and 20 healthy, age-matched, and gender-matched controls were studied. TEE and PAEE were measured using basal metabolic rate (BMR), activity diaries and doubly labeled water (healthy subjects). Results were related to estimated glomerular filtration rate (eGFR). The main outcome measure was TEE measured by different methods (factorial, doubly labeled water, and a novel device).
Results: total energy expenditure and PAEE with or without adjustments for age, gender, weight, and height did not differ between the groups and was not related to eGFR. TEE ranged from 1927 ± 91 to 2330 ± 73 kcal/d; 95 ± 5 to 109 ± 5% estimated average requirement (EAR), physical activity level (PAL) 1.52 ± 0.01 to 1.71 ± 0.17, and PAEE 24 to 34% EAR. Comparisons between DLW and alternative methods in healthy children did not differ significantly, except for 2 (factorial methods and a fixed PAL; and the novel device).
Conclusion: in clinical practice, structured approaches using supportive evidence (weight, height, BMI sds), predictive BMR or TEE values and simple questions on activity, are sufficient for most children with CKD as a starting energy prescription.
Children, Chronic kidney disease, Stage 3 Disease, Total Energy expenditure
11-18
Anderson, Caroline E.
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Gilbert, Rodney D.
a60642f2-761a-4a29-acad-2720db1d8ce9
Harmer, Matthew
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Ritz, Patrick
68fe22e9-7f9c-4522-861b-8217722cb91a
Wootton, Stephen
bf47ef35-0b33-4edb-a2b0-ceda5c475c0c
Elia, Marinos
964bf436-e623-46d6-bc3f-5dd04c9ef4c1
1 January 2024
Anderson, Caroline E.
1af5a611-d726-47c1-ad29-aa90fac736db
Gilbert, Rodney D.
a60642f2-761a-4a29-acad-2720db1d8ce9
Harmer, Matthew
7a64b86a-f985-4d22-9d35-94ace59fc202
Ritz, Patrick
68fe22e9-7f9c-4522-861b-8217722cb91a
Wootton, Stephen
bf47ef35-0b33-4edb-a2b0-ceda5c475c0c
Elia, Marinos
964bf436-e623-46d6-bc3f-5dd04c9ef4c1
Anderson, Caroline E., Gilbert, Rodney D., Harmer, Matthew, Ritz, Patrick, Wootton, Stephen and Elia, Marinos
(2024)
Estimating total energy expenditure to determine energy requirements in free-living children with stage 3 chronic kidney disease: can a structured approach help improve clinical care?
Journal of Renal Nutrition, 34 (1), .
(doi:10.1053/j.jrn.2023.07.002).
Abstract
Objective: malnutrition and obesity are complex burdensome challenges in pediatric chronic kidney disease (CKD) management that can adversely affect growth, disease progression, wellbeing, and response to treatment. Total energy expenditure (TEE) and energy requirements in children are essential for growth outcomes but are poorly defined, leaving clinical practice varied and insecure. The aims of this study were to explore a practical approach to guide prescribed nutritional interventions, using measurements of TEE, physical activity energy expenditure (PAEE), and their relationship to kidney function.
Design and Methods: in a cross-sectional prospective age-matched and sex-matched controlled study, 18 children with CKD (6-17 years, mean stage 3) and 20 healthy, age-matched, and gender-matched controls were studied. TEE and PAEE were measured using basal metabolic rate (BMR), activity diaries and doubly labeled water (healthy subjects). Results were related to estimated glomerular filtration rate (eGFR). The main outcome measure was TEE measured by different methods (factorial, doubly labeled water, and a novel device).
Results: total energy expenditure and PAEE with or without adjustments for age, gender, weight, and height did not differ between the groups and was not related to eGFR. TEE ranged from 1927 ± 91 to 2330 ± 73 kcal/d; 95 ± 5 to 109 ± 5% estimated average requirement (EAR), physical activity level (PAL) 1.52 ± 0.01 to 1.71 ± 0.17, and PAEE 24 to 34% EAR. Comparisons between DLW and alternative methods in healthy children did not differ significantly, except for 2 (factorial methods and a fixed PAL; and the novel device).
Conclusion: in clinical practice, structured approaches using supportive evidence (weight, height, BMI sds), predictive BMR or TEE values and simple questions on activity, are sufficient for most children with CKD as a starting energy prescription.
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e-pub ahead of print date: 18 July 2023
Published date: 1 January 2024
Additional Information:
Funding Information:
The authors gratefully acknowledge Professor Marinos Elia for all his support and guidance during my PhD, and Associate Professor Steve Wootton who contributed academically to this work and has supported my post-doctorate work. The original research was supported by The Health Foundation (2539/3703). The views expressed in this publication as those of the authors and not necessarily those of the NHS or Health Foundation.
Funding Information:
The authors gratefully acknowledge Professor Marinos Elia for all his support and guidance during my PhD, and Associate Professor Steve Wootton who contributed academically to this work and has supported my post-doctorate work. The original research was supported by The Health Foundation (2539/3703). The views expressed in this publication as those of the authors and not necessarily those of the NHS or Health Foundation. Financial Disclosure: Southampton Academy of Research has supported the publication of this paper with a Nonmedical Academic Career Development Program Clinical Research Personal Award. Support: The authors would like to thank all the children and families who participated, the Welcome trust for baseline project delivery and the health foundation for project funding.
Publisher Copyright:
© 2023 National Kidney Foundation, Inc.
Keywords:
Children, Chronic kidney disease, Stage 3 Disease, Total Energy expenditure
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Local EPrints ID: 484795
URI: http://eprints.soton.ac.uk/id/eprint/484795
ISSN: 1051-2276
PURE UUID: 57f44f4b-4b7e-40c7-bdd3-22988eb8e239
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Date deposited: 22 Nov 2023 17:31
Last modified: 14 Aug 2024 16:52
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Author:
Caroline E. Anderson
Author:
Rodney D. Gilbert
Author:
Matthew Harmer
Author:
Patrick Ritz
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