The University of Southampton
University of Southampton Institutional Repository

Ready-to-use food supplement, with or without arginine and citrulline, with daily chloroquine in Tanzanian children with sickle-cell disease: a double-blind, random order crossover trial

Ready-to-use food supplement, with or without arginine and citrulline, with daily chloroquine in Tanzanian children with sickle-cell disease: a double-blind, random order crossover trial
Ready-to-use food supplement, with or without arginine and citrulline, with daily chloroquine in Tanzanian children with sickle-cell disease: a double-blind, random order crossover trial

Background: Sickle-cell disease increases the risk of malnutrition. Low arginine and nitric oxide bioavailability are implicated in morbidity related to sickle-cell disease. Simple interventions are required, especially in low-income settings. We aimed to test the hypotheses that: (1) supplementary arginine, citrulline, and daily chloroquine increase bioavailable arginine and flow-mediated dilatation (FMD; maximal diameter change; FMDmax%), a measure of nitric oxide-dependent endothelial function; and (2) protein energy supplementation in the form of ready-to-use supplementary food (RUSF) improves the height-for-age and body-mass index-for-age Z-scores in children with sickle-cell disease. Methods: We performed a double-blind, random order crossover trial with two 4-month intervention periods (each followed by 4-month washout periods) in Muhimbili National Hospital in Dar-es-Salaam, Tanzania. We enrolled 119 children from the Muhimbili Sickle Cohort who were aged 8–12 years, naive to hydroxyurea, and had documented HbSS phenotype. Two formulations of RUSF (providing 500 kcal/day) were tested: basic (RUSF-b), with which children also received weekly chloroquine (150 mg or 225 mg chloroquine base, dependent on bodyweight); and vascular (RUSF-v), which was fortified with arginine and citrulline (designed to achieve mean intakes of 0·2 g/kg per day of arginine and 0·1 g/kg per day of citrulline), and with which children received daily chloroquine (maximum 3 mg chloroquine base/kg per day). Children were randomly allocated to receive either RUSF-b first or RUSF-v first and, after a washout period, were then given the other treatment. The primary outcomes in comparing the two RUSF formulations were mean plasma arginine, arginine to ornithine ratio, and arginine to asymmetric dimethylarginine ratio, and mean FMDmax%. The primary outcomes of the combined effect of both RUSF interventions were mean height-for-age Z-score and body-mass index-for-age Z-score. Analyses were done on the eligible intention-to-treat population. This trial is registered with ClinicalTrials.gov, number NCT01718054; and with ISRCTN74331412. Findings: Between Aug 9, 2012, and Feb 26, 2014, 145 children were randomised (71 children to RUSF-v first and 74 children to RUSF-b first) and 119 children were treated, of whom 114 children yielded complete data for all reported endpoints. The ratio of arginine to ornithine (mean of individual differences −8·67%, 95% CI −19·55 to 2·20; p=0·12) and the mean FMDmax% (1·00, −0·47 to 2·47; p=0·18) did not significantly differ between the RUSF-b and RUSF-v treatments. However, the arginine to asymmetric dimethylarginine ratio was significantly increased by RUSF-v compared with RUSF-b (56·26%, 31·13 to 81·38; p<0·0001). In planned analyses that used mixed effects models to estimate the effect of each intervention compared with the participants at baseline or during washout periods, the arginine to asymmetric dimethylarginine ratio increased following both RUSF-v treatment (86%; p<0·0001) and RUSF-b treatment (40%; p<0·0001). However, FMDmax% was higher after treatment with RUSF-v (0·92; p<0·0001) but not RUSF-b (0·39; p=0·22). Following either intervention (RUSF-b and RUSF-v, pooled) body-mass index-for-age Z-score (0·091; p=0·001) and height-for-age Z-score (0·013; p=0·081) increased compared with baseline and washout timepoints. In 83 participants in the treated population, there were 71 adverse events during the intervention, of which 21 (30%) were serious, and 81 adverse events during the washout periods, of which 26 (32%) were serious (p=0·31), including one patient who died in the second washout period. Interpretation: RUSF providing 500 kcal/day results in small weight gains in children with sickle-cell disease. However, even without arginine and citrulline fortification, RUSF seems to ameliorate arginine dysregulation and might improve endothelial function. Long-term studies are required to assess whether these physiological effects translate to improved clinical outcomes and better growth and development in patients with sickle-cell disease. Funding: Wellcome Trust.

2352-3026
e147-e160
Cox, Sharon E.
6194d12c-fea6-4bff-b49a-4784928812f5
Ellins, Elizabeth A.
ac435829-360f-4e0f-8220-3011b3fe1b74
Marealle, Alphonce I.
f9c64613-bce6-49f0-a6f1-f70b713b6d75
Newton, Charles R.
ea661613-9a2d-4e14-8d04-2d1c0804a321
Soka, Deogratias
493329a2-35e6-4fce-9402-bcfe516ab775
Sasi, Philip
347fab39-c7f0-434c-a95e-a85cd276d03a
Luca Di Tanna, Gian
c067f080-9204-49bd-9106-a8949f01e82b
Johnson, William
13930cb1-381e-485b-b224-666ac916fc0b
Makani, Julie
76a145a7-02fc-43ea-a1df-3a52d2004e48
Prentice, Andrew M.
6b851f61-f989-48f6-8109-9a7408254728
Halcox, Julian P.
2e218c15-d7de-4640-9e00-4479b2d6e833
Kirkham, Fenella J.
1dfbc0d5-aebe-4439-9fb2-dac6503bcd58
Cox, Sharon E.
6194d12c-fea6-4bff-b49a-4784928812f5
Ellins, Elizabeth A.
ac435829-360f-4e0f-8220-3011b3fe1b74
Marealle, Alphonce I.
f9c64613-bce6-49f0-a6f1-f70b713b6d75
Newton, Charles R.
ea661613-9a2d-4e14-8d04-2d1c0804a321
Soka, Deogratias
493329a2-35e6-4fce-9402-bcfe516ab775
Sasi, Philip
347fab39-c7f0-434c-a95e-a85cd276d03a
Luca Di Tanna, Gian
c067f080-9204-49bd-9106-a8949f01e82b
Johnson, William
13930cb1-381e-485b-b224-666ac916fc0b
Makani, Julie
76a145a7-02fc-43ea-a1df-3a52d2004e48
Prentice, Andrew M.
6b851f61-f989-48f6-8109-9a7408254728
Halcox, Julian P.
2e218c15-d7de-4640-9e00-4479b2d6e833
Kirkham, Fenella J.
1dfbc0d5-aebe-4439-9fb2-dac6503bcd58

Cox, Sharon E., Ellins, Elizabeth A., Marealle, Alphonce I., Newton, Charles R., Soka, Deogratias, Sasi, Philip, Luca Di Tanna, Gian, Johnson, William, Makani, Julie, Prentice, Andrew M., Halcox, Julian P. and Kirkham, Fenella J. (2018) Ready-to-use food supplement, with or without arginine and citrulline, with daily chloroquine in Tanzanian children with sickle-cell disease: a double-blind, random order crossover trial. The Lancet Haematology, 5 (4), e147-e160. (doi:10.1016/S2352-3026(18)30020-6).

Record type: Article

Abstract

Background: Sickle-cell disease increases the risk of malnutrition. Low arginine and nitric oxide bioavailability are implicated in morbidity related to sickle-cell disease. Simple interventions are required, especially in low-income settings. We aimed to test the hypotheses that: (1) supplementary arginine, citrulline, and daily chloroquine increase bioavailable arginine and flow-mediated dilatation (FMD; maximal diameter change; FMDmax%), a measure of nitric oxide-dependent endothelial function; and (2) protein energy supplementation in the form of ready-to-use supplementary food (RUSF) improves the height-for-age and body-mass index-for-age Z-scores in children with sickle-cell disease. Methods: We performed a double-blind, random order crossover trial with two 4-month intervention periods (each followed by 4-month washout periods) in Muhimbili National Hospital in Dar-es-Salaam, Tanzania. We enrolled 119 children from the Muhimbili Sickle Cohort who were aged 8–12 years, naive to hydroxyurea, and had documented HbSS phenotype. Two formulations of RUSF (providing 500 kcal/day) were tested: basic (RUSF-b), with which children also received weekly chloroquine (150 mg or 225 mg chloroquine base, dependent on bodyweight); and vascular (RUSF-v), which was fortified with arginine and citrulline (designed to achieve mean intakes of 0·2 g/kg per day of arginine and 0·1 g/kg per day of citrulline), and with which children received daily chloroquine (maximum 3 mg chloroquine base/kg per day). Children were randomly allocated to receive either RUSF-b first or RUSF-v first and, after a washout period, were then given the other treatment. The primary outcomes in comparing the two RUSF formulations were mean plasma arginine, arginine to ornithine ratio, and arginine to asymmetric dimethylarginine ratio, and mean FMDmax%. The primary outcomes of the combined effect of both RUSF interventions were mean height-for-age Z-score and body-mass index-for-age Z-score. Analyses were done on the eligible intention-to-treat population. This trial is registered with ClinicalTrials.gov, number NCT01718054; and with ISRCTN74331412. Findings: Between Aug 9, 2012, and Feb 26, 2014, 145 children were randomised (71 children to RUSF-v first and 74 children to RUSF-b first) and 119 children were treated, of whom 114 children yielded complete data for all reported endpoints. The ratio of arginine to ornithine (mean of individual differences −8·67%, 95% CI −19·55 to 2·20; p=0·12) and the mean FMDmax% (1·00, −0·47 to 2·47; p=0·18) did not significantly differ between the RUSF-b and RUSF-v treatments. However, the arginine to asymmetric dimethylarginine ratio was significantly increased by RUSF-v compared with RUSF-b (56·26%, 31·13 to 81·38; p<0·0001). In planned analyses that used mixed effects models to estimate the effect of each intervention compared with the participants at baseline or during washout periods, the arginine to asymmetric dimethylarginine ratio increased following both RUSF-v treatment (86%; p<0·0001) and RUSF-b treatment (40%; p<0·0001). However, FMDmax% was higher after treatment with RUSF-v (0·92; p<0·0001) but not RUSF-b (0·39; p=0·22). Following either intervention (RUSF-b and RUSF-v, pooled) body-mass index-for-age Z-score (0·091; p=0·001) and height-for-age Z-score (0·013; p=0·081) increased compared with baseline and washout timepoints. In 83 participants in the treated population, there were 71 adverse events during the intervention, of which 21 (30%) were serious, and 81 adverse events during the washout periods, of which 26 (32%) were serious (p=0·31), including one patient who died in the second washout period. Interpretation: RUSF providing 500 kcal/day results in small weight gains in children with sickle-cell disease. However, even without arginine and citrulline fortification, RUSF seems to ameliorate arginine dysregulation and might improve endothelial function. Long-term studies are required to assess whether these physiological effects translate to improved clinical outcomes and better growth and development in patients with sickle-cell disease. Funding: Wellcome Trust.

Text
PIIS2352302618300206 - Version of Record
Available under License Creative Commons Attribution.
Download (358kB)
Text
PIIS2352-3026(18)30020-6 - Proof
Restricted to Repository staff only
Request a copy

More information

Accepted/In Press date: 15 January 2018
e-pub ahead of print date: 13 March 2018
Published date: 1 April 2018

Identifiers

Local EPrints ID: 419005
URI: http://eprints.soton.ac.uk/id/eprint/419005
ISSN: 2352-3026
PURE UUID: c32ceee4-8b13-4e12-80cf-6aea0a5569b6
ORCID for Fenella J. Kirkham: ORCID iD orcid.org/0000-0002-2443-7958

Catalogue record

Date deposited: 27 Mar 2018 16:30
Last modified: 16 Mar 2024 03:22

Export record

Altmetrics

Contributors

Author: Sharon E. Cox
Author: Elizabeth A. Ellins
Author: Alphonce I. Marealle
Author: Charles R. Newton
Author: Deogratias Soka
Author: Philip Sasi
Author: Gian Luca Di Tanna
Author: William Johnson
Author: Julie Makani
Author: Andrew M. Prentice
Author: Julian P. Halcox

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×