- Wessells, K Ryan;
- Arnold, Charles D;
- Stewart, Christine P;
- Prado, Elizabeth L;
- Abbeddou, Souheila;
- Adu-Afarwuah, Seth;
- Arnold, Benjamin F;
- Ashorn, Per;
- Ashorn, Ulla;
- Becquey, Elodie;
- Brown, Kenneth H;
- Byrd, Kendra A;
- Campbell, Rebecca K;
- Christian, Parul;
- Fernald, Lia CH;
- Fan, Yue-Mei;
- Galasso, Emanuela;
- Hess, Sonja Y;
- Huybregts, Lieven;
- Jorgensen, Josh M;
- Kiprotich, Marion;
- Kortekangas, Emma;
- Lartey, Anna;
- Le Port, Agnes;
- Leroy, Jef L;
- Lin, Audrie;
- Maleta, Kenneth;
- Matias, Susana L;
- Mbuya, Mduduzi NN;
- Mridha, Malay K;
- Mutasa, Kuda;
- Naser, Abu M;
- Paul, Rina R;
- Okronipa, Harriet;
- Ouédraogo, Jean-Bosco;
- Pickering, Amy J;
- Rahman, Mahbubur;
- Schulze, Kerry;
- Smith, Laura E;
- Weber, Ann M;
- Zongrone, Amanda;
- Dewey, Kathryn G
Background
Small-quantity lipid-based nutrient supplements (SQ-LNSs) have been shown to reduce the prevalence of child anemia and iron deficiency, but effects on other micronutrients are less well known. Identifying subgroups who benefit most from SQ-LNSs could support improved program design.Objectives
We aimed to identify study-level and individual-level modifiers of the effect of SQ-LNSs on child hemoglobin (Hb), anemia, and inflammation-adjusted micronutrient status outcomes.Methods
We conducted a 2-stage meta-analysis of individual participant data from 13 randomized controlled trials of SQ-LNSs provided to children 6-24 mo of age (n = 15,946). We generated study-specific and subgroup estimates of SQ-LNSs compared with control, and pooled the estimates using fixed-effects models. We used random-effects meta-regression to examine potential study-level effect modifiers.Results
SQ-LNS provision decreased the prevalence of anemia (Hb < 110 g/L) by 16% (relative reduction), iron deficiency (plasma ferritin < 12 µg/L) by 56%, and iron deficiency anemia (IDA; Hb < 110 g/L and plasma ferritin <12 µg/L) by 64%. We observed positive effects of SQ-LNSs on hematological and iron status outcomes within all subgroups of the study- and individual-level effect modifiers, but effects were larger in certain subgroups. For example, effects of SQ-LNSs on anemia and iron status were greater in trials that provided SQ-LNSs for >12 mo and provided 9 (as opposed to <9) mg Fe/d, and among later-born (than among first-born) children. There was no effect of SQ-LNSs on plasma zinc or retinol, but there was a 7% increase in plasma retinol-binding protein (RBP) and a 56% reduction in vitamin A deficiency (RBP < 0.70 µmol/L), with little evidence of effect modification by individual-level characteristics.Conclusions
SQ-LNSs can substantially reduce the prevalence of anemia, iron deficiency, and IDA among children across a range of individual, population, and study design characteristics. Policy-makers and program planners should consider SQ-LNSs within intervention packages to prevent anemia and iron deficiency.This trial was registered at www.crd.york.ac.uk/PROSPERO as CRD42020156663.