TY - JOUR
T1 - Characteristics that modify the effect of small-quantity lipid-based nutrient supplementation on child growth
T2 - An individual participant data meta-analysis of randomized controlled trials
AU - Dewey, Kathryn G.
AU - Wessells, K. Ryan
AU - Arnold, Charles D.
AU - Prado, Elizabeth L.
AU - Abbeddou, Souheila
AU - Adu-Afarwuah, Seth
AU - Ali, Hasmot
AU - Arnold, Benjamin F.
AU - Ashorn, Per
AU - Ashorn, Ulla
AU - Ashraf, Sania
AU - Becquey, Elodie
AU - Bendabenda, Jaden
AU - Brown, Kenneth H.
AU - Christian, Parul
AU - Colford, John M.
AU - Dulience, Sherlie J.L.
AU - Fernald, Lia C.H.
AU - Galasso, Emanuela
AU - Hallamaa, Lotta
AU - Hess, Sonja Y.
AU - Humphrey, Jean H.
AU - Huybregts, Lieven
AU - Iannotti, Lora L.
AU - Jannat, Kaniz
AU - Lartey, Anna
AU - Le Port, Agnes
AU - Leroy, Jef L.
AU - Luby, Stephen P.
AU - Maleta, Kenneth
AU - Matias, Susana L.
AU - Mbuya, Mduduzi N.N.
AU - Mridha, Malay K.
AU - Nkhoma, Minyanga
AU - Null, Clair
AU - Paul, Rina R.
AU - Okronipa, Harriet
AU - Ouédraogo, Jean Bosco
AU - Pickering, Amy J.
AU - Prendergast, Andrew J.
AU - Ruel, Marie
AU - Shaikh, Saijuddin
AU - Weber, Ann M.
AU - Wolff, Patricia
AU - Zongrone, Amanda
AU - Stewart, Christine P.
N1 - Publisher Copyright:
© 2021 The Author(s). Published by Oxford University Press on behalf of the American Society for Nutrition.
PY - 2021/11/1
Y1 - 2021/11/1
N2 - Background: Meta-analyses show that small-quantity lipid-based nutrient supplements (SQ-LNSs) reduce child stunting and wasting. Identification of subgroups who benefit most from SQ-LNSs may facilitate program design. Objectives: We aimed to identify study-level and individual-level modifiers of the effect of SQ-LNSs on child growth outcomes. Methods: We conducted a 2-stage meta-analysis of individual participant data from 14 randomized controlled trials of SQ-LNSs provided to children 6-24 mo of age (n = 37,066). We generated study-specific and subgroup estimates of SQ-LNS compared with control and pooled the estimates using fixed-effects models. We used random-effects meta-regression to examine study-level effect modifiers. In sensitivity analyses, we examined whether results differed depending on study arm inclusion criteria and types of comparisons. Results: SQ-LNS provision decreased stunting (length-for-age z score < -2) by 12% (relative reduction), wasting [weight-for-length (WLZ) z score < -2] by 14%, low midupper arm circumference (MUAC) (<125 mm or MUAC-for-age z score < -2) by 18%, acute malnutrition (WLZ < -2 or MUAC < 125 mm) by 14%, underweight (weight-for-age z score < -2) by 13%, and small head size (head circumference-for-age z score < -2) by 9%. Effects of SQ-LNSs generally did not differ by study-level characteristics including region, stunting burden, malaria prevalence, sanitation, water quality, duration of supplementation, frequency of contact, or average compliance with SQ-LNS. Effects of SQ-LNSs on stunting, wasting, low MUAC, and small head size were greater among girls than among boys; effects on stunting, underweight, and low MUAC were greater among later-born (than among firstborn) children; and effects on wasting and acute malnutrition were greater among children in households with improved (as opposed to unimproved) sanitation. Conclusions: The positive impact of SQ-LNSs on growth is apparent across a variety of study-level contexts. Policy-makers and program planners should consider including SQ-LNSs in packages of interventions to prevent both stunting and wasting.
AB - Background: Meta-analyses show that small-quantity lipid-based nutrient supplements (SQ-LNSs) reduce child stunting and wasting. Identification of subgroups who benefit most from SQ-LNSs may facilitate program design. Objectives: We aimed to identify study-level and individual-level modifiers of the effect of SQ-LNSs on child growth outcomes. Methods: We conducted a 2-stage meta-analysis of individual participant data from 14 randomized controlled trials of SQ-LNSs provided to children 6-24 mo of age (n = 37,066). We generated study-specific and subgroup estimates of SQ-LNS compared with control and pooled the estimates using fixed-effects models. We used random-effects meta-regression to examine study-level effect modifiers. In sensitivity analyses, we examined whether results differed depending on study arm inclusion criteria and types of comparisons. Results: SQ-LNS provision decreased stunting (length-for-age z score < -2) by 12% (relative reduction), wasting [weight-for-length (WLZ) z score < -2] by 14%, low midupper arm circumference (MUAC) (<125 mm or MUAC-for-age z score < -2) by 18%, acute malnutrition (WLZ < -2 or MUAC < 125 mm) by 14%, underweight (weight-for-age z score < -2) by 13%, and small head size (head circumference-for-age z score < -2) by 9%. Effects of SQ-LNSs generally did not differ by study-level characteristics including region, stunting burden, malaria prevalence, sanitation, water quality, duration of supplementation, frequency of contact, or average compliance with SQ-LNS. Effects of SQ-LNSs on stunting, wasting, low MUAC, and small head size were greater among girls than among boys; effects on stunting, underweight, and low MUAC were greater among later-born (than among firstborn) children; and effects on wasting and acute malnutrition were greater among children in households with improved (as opposed to unimproved) sanitation. Conclusions: The positive impact of SQ-LNSs on growth is apparent across a variety of study-level contexts. Policy-makers and program planners should consider including SQ-LNSs in packages of interventions to prevent both stunting and wasting.
KW - child undernutrition
KW - complementary feeding
KW - home fortification
KW - nutrient supplements
KW - stunting
KW - wasting
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U2 - 10.1093/ajcn/nqab278
DO - 10.1093/ajcn/nqab278
M3 - Article
C2 - 34590672
AN - SCOPUS:85119325941
SN - 0002-9165
VL - 114
SP - 15S-42S
JO - American Journal of Clinical Nutrition
JF - American Journal of Clinical Nutrition
ER -