Longitudinal growth and health outcomes in nutritionally at-risk children who received long-term nutritional intervention.

BACKGROUND: The benefits of short-term oral nutritional supplementation (ONS) in undernourished children are well-established. The benefits of long-term ONS in promoting longitudinal growth and health in children who are at risk of undernutrition have not been reported previously. METHODS: In this 48-week prospective, single-arm, multicentre trial, 200 Filipino children aged 3-4 years with weight-for-height percentiles from 5th to 25th (WHO Child Growth Standards) were enrolled. Parents received dietary counselling at baseline, and at weeks 4 and 8. Two servings of ONS (450 mL) were consumed daily, providing 450 kcal, 13.5 g protein and micronutrients. Weight, height, dietary intake using 24-h dietary recalls, and physical activity and appetite using the visual analogue scales were assessed at baseline and weeks 4, 8, 16, 24, 32, 40 and 48. The number of sick days for acute illnesses was collected over the study period. RESULTS: At baseline, mean age was 41.2 months with 50% being male. Weight-for-height percentiles showed the greatest increase in the first 4 weeks (12.1 and 12.8 percentiles, respectively, P < 0.0001) and remained significantly higher than baseline (P < 0.0001) but were relatively stable from week 4 onwards. Height-for-age percentiles increased steadily over time and became significantly higher than baseline from week 24 onwards (P < 0.0001). Appetite and physical activity scores at all post-baseline visits improved from baseline (P < 0.0001), and a reduction in the number of sick days from week 16 onwards was also observed (P < 0.0001). Higher parental education level, being male and higher baseline weight-for-height percentiles were significantly associated with higher ponderal and linear growth over time in repeated measures analysis of covariance. CONCLUSIONS: Intervention consisting of initial dietary counselling and continued ONS helped sustain normal growth after a catch-up growth in nutritionally at-risk children.

Effects of oral nutritional supplementation in the management of malnutrition in hospital and post-hospital discharged patients in India: a randomised, open-label, controlled trial.

BACKGROUND: Hospital malnutrition is a significant problem that still remains under-recognised and under-treated in India. The present study assessed the effects of oral nutritional supplementation (ONS) in conjunction with dietary counselling versus dietary counselling (control) alone in malnourished patients when given in hospital and post-hospital discharge. METHODS: The present study was conducted in nine private and four public hospitals. Patients from various medical wards were screened for malnutrition using modified Subjective Global Assessment (mSGA) and randomised to control (n = 106) or ONS (n = 106) for 12 weeks. Two servings (460 mL) of ONS were prescribed daily, providing 432 kcal, 16 g of protein and 28 micronutrients. The primary outcome was weight gain over 12 weeks. Other outcomes included change in body mass index (BMI), serum pre-albumin, albumin and C-reactive protein levels, energy and nutrient intakes, and handgrip strength at weeks 4, 8 and 12, as well as mSGA score at week 12. RESULTS: The mean age of patients was 39 years. Fifty-five percent were males and 90.3% were moderately malnourished (mSGA score B) at baseline. At week 12, ONS significantly improved certain parameters compared to control: weight (2.0 versus 0.9 kg; P < 0.001), BMI (0.76 versus 0.37 kg m(-2) ; P < 0.001) and energy intake per day (560 versus 230 kcal; P < 0.05). There were no differences in biochemical parameters and mSGA score between groups. Additionally, patients on ONS who were more functionally impaired at baseline had significantly greater weight gain and improved handgrip strength scores than controls. CONCLUSIONS: ONS use throughout hospital stay and post-hospital discharge significantly improved energy intake and weight in malnourished Indian patients. Those patients with poorer functional status at baseline demonstrated the most benefit.

Relation of serum retinol to acute phase proteins and malarial morbidity in Papua New Guinea children.

BACKGROUND: Acute phase proteins (APPs) are associated with malaria-induced hyporetinemia (serum retinol <0.70 micromol/L); however, the degree of the association is not well documented. OBJECTIVE: The association between malaria-induced hyporetinemia and APPs was assessed. DESIGN: In a cross-sectional study, 90 children with serum retinol concentrations from <0.35 to >1.05 micromol/L were selected from children in a clinical trial of vitamin A supplementation. Serum was collected before treatment allocation. Retinol binding protein (RBP) concentrations were determined by radioimmunoassays, and transthyretin, alpha(1)-acid glycoprotein (AGP), alpha(1)-antichymotrypsin, C-reactive protein (CRP), haptoglobin, and albumin concentrations by radial immunodiffusion assays. RESULTS: Children in the subsample had high rates of splenomegaly and Plasmodium-positive blood-smear slides (P < 0.01); AGP (Pearson's r = -0.40, P < 0.001) and CRP (r = -0.21, P = 0.04) were inversely correlated with retinol. The negative APPs RBP, transthyretin, and albumin were positively and significantly associated with retinol. All APPs, except alpha(1)-antichymotrypsin, were significantly correlated with splenomegaly. Of the positive APPs, AGP correlated with CRP (r = 0.37, P < 0.001), indicating chronic inflammation. In a stepwise regression analysis, 73% of retinol's variability was explained by RBP and transthyretin. The model predicted that a 1-SD increase in RBP or transthyretin increases retinol by approximately 0.38 or 0.47 micromol/L, respectively, whereas an equivalent increase in AGP decreases retinol by 0.12 micromol/L. CONCLUSIONS: The RBP-transthyretin transport complex of retinol is not altered by inflammation. Positive APPs are useful markers of type and severity of inflammation; however, except for AGP, it is unlikely that they can correct for malaria-induced hyporetinemia.

Regulation of hepatic vitamin A storage in a rat model of controlled vitamin A status during aging.

It is currently unknown whether the capacity of the liver to esterify and store vitamin A (VA) changes as a function of long-term VA intake or age. The objective of this study was to investigate whether age and/or VA status are factors for the hepatic expression of cellular retinol-binding protein (CRBP), the esterification of retinol by lecithin:retinol acyltransferase (LRAT) and the accumulation of VA and lipids in liver. Two factors, VA intake and age, were studied in a 3x3 design. Diets denoted as VA-marginal, control and supplemented contained 0.35, 4 and 25 mg retinol equivalents/kg diet, respectively; male Lewis rats were fed these diets from weaning until the ages of 2-3 mo (young), 8-10 mo (middle-aged) and 18-20 mo (old) (n = 6/group. Liver CRBP mRNA differed (two-way ANOVA) with dietary VA (P<0.0001) and age (P<0.05). Hepatic LRAT activity increased with dietary VA (P<0.0001). Age was not a factor (P = 0.47) although there was an interaction of age and dietary VA (P<0.0001). Hepatic LRAT activity was correlated (r = 0.633, P<0.0001) with plasma retinol at physiologic concentrations. In VA-supplemented rats of all ages, the plasma molar ratio of total retinol:retinol-binding protein (RBP) exceeded 1, and liver VA and total lipid concentrations were elevated. However, tests of liver function had previously been shown to be within normal values. Thus, the capacity of the liver for retinol esterification by LRAT was not diminished by age or the accumulation of VA and other lipids. We conclude the following: 1) hepatic LRAT activity is regulated across a broad, physiologic range of dietary VA; 2) LRAT activity is regulated throughout life; and 3) the capacity for hepatic VA storage is high throughout life.

Iron deficiency in young rats alters the distribution of vitamin A between plasma and liver and between hepatic retinol and retinyl esters.

We assessed whether iron deficiency alters the concentration of vitamin A (VA) in plasma or liver and the chemical distribution between hepatic unesterified and esterified retinol. Weanling male Sprague-Dawley rats (n = 10/group) were allocated to one of four diet groups: low iron (ID3, 3 mg of elemental iron/kg diet), marginal iron (ID15, 15 mg/kg), control diet food-restricted to the ID3 group (FR, 35 mg/kg), and control diet ad libitum consumption (AD, 35 mg/kg). Both ID3 and FR rats grew less than AD and ID15 rats. At the end of 5.5 wk, plasma retinol concentrations of the ID3 and FR rats were reduced >40% compared to ID15 and AD rats [Kruskal-Wallis test (K-W), P < 0.0042)]. Paradoxically, the hepatic VA concentration was greater in FR rats, with accumulation of more retinyl esters and retinol compared to the other dietary groups. Concentrations of hepatic retinyl esters and retinol did not differ among the other groups, but the molar ratio of hepatic retinyl esters to retinol was greater in ID3 rats (20.1 +/- 1.4) compared to ID15 rats (13.8 +/- 1.6, P = 0.02), AD (11.3 +/- 2.1, P < 0.0042) and FR (9.5 +/- 1.1, P < 0.0042). Iron deficiency may cause changes in liver and plasma VA that are refractory to VA intake, and thus a benefit may be derived from combining iron and VA supplements during nutrition interventions.

A low molar ratio of retinol binding protein to transthyretin indicates vitamin A deficiency during inflammation: studies in rats and a posterior analysis of vitamin A-supplemented children with measles.

To assess whether the molar ratio of retinol-binding protein (RBP) to transthyretin (TTR) is of utility in detecting vitamin A (VA) deficiency during inflammation, we analyzed data from a rat model of endotoxin-induced inflammation and from a previously reported randomized, placebo-controlled trial of VA supplementation in children with acute measles. In rats, both marginal VA deficiency and inflammation were independent causes of low plasma RBP (two-way ANOVA, P < 0.001), whereas plasma TTR concentration was reduced only by inflammation (P < 0.001). The molar ratio of plasma RBP to TTR was reduced (by approximately 50%) only in rats with marginal VA deficiency and inflammation (two-way ANOVA interaction, P < 0.01). Serum retinol concentration, C-reactive protein (CRP, an indicator of inflammation) and the RBP:TTR molar ratio were determined in children with acute measles at baseline and 2 wk after subgroups received a placebo or a 210 micromol VA supplement. The ratio of RBP:TTR was selectively reduced in children in the placebo group with low plasma retinol (<0.35 micromol/L) and elevated CRP (>40 mg/L). In children with a low RBP:TTR molar ratio (<0.30) at baseline, the RBP:TTR ratio increased significantly 2 wk later only in the VA-treated subgroup. These analyses provide evidence that, because RBP is differentially reduced in comparison to TTR during VA deficiency, the combined determination of the concentrations of serum RBP and TTR may provide a promising means of detecting VA deficiency during inflammation.

Acute inflammation induces hyporetinemia and modifies the plasma and tissue response to vitamin A supplementation in marginally vitamin A-deficient rats.

Plasma retinol is reduced during numerous infections, and inflammation alters the hepatic synthesis of retinol-binding protein (RBP). In this study, we have investigated the effects of endotoxin-induced inflammation on vitamin A (VA) supplementation in a rat model of marginal VA deficiency. Marginally VA-deficient rats received an intraperitoneal dose of lipopolysaccharide (LPS, n = 14) or saline (n = 10); 6 h later, six LPS + VA and six saline + VA rats received 7.1 micromol VA orally. Twenty-four hours after endotoxin administration, rats with inflammation (LPS) had lower plasma retinol, RBP, and hepatic RBP than saline rats (37, 31 and 44%, respectively, P < 0.05). Inflammation did not affect VA concentrations in liver and perirenal adipose tissue, although kidney VA was reduced relative to saline rats. However, urinary VA was not detected. Eighteen hours after VA supplementation, inflammation reduced the plasma unesterified retinol response (P < 0. 05) in LPS + VA relative to saline + VA rats, although total VA increased as a result of the presence of retinyl esters in LPS + VA rats. Hepatic esterified retinol concentration was reduced (P < 0. 01) in LPS + VA compared with saline + VA rats; however, hepatic unesterified retinol did not differ. Renal total retinol increased in VA-supplemented rats, but urinary retinol excretion, when observed, was low, independently of inflammation. These findings indicate that inflammation-induced hyporetinemia does not necessarily imply a loss of VA, but rather represents a redistribution of tissue VA brought about by a reduced hepatic synthesis of RBP. Practical implications from these collective results are to recommend the determination of both unesterified and esterified retinol to fully assess the plasma response to VA supplementation and to caution the use of VA assessment methodologies that depend on the hepatic synthesis of RBP during acute inflammation.

Multiple high dose vitamin A supplementation. A report on five cases.

Vitamin A toxicity is a concern among health care providers, especially when present recommendations for vitamin A may result in multiple dosing during a short period of time. We observed no vitamin A toxicity in 5 children who received multiple high doses of vitamin A. These 8-month to 5-year-old children were part of a community trial of vitamin A during acute measles, and were being treated at a local hospital for severe acute respiratory infection, malaria, and/or diarrhoea. One 12-month-old who received 1,612,500 I.U. within a period of three weeks showed elevated serum retinol (3.42 mumol/l), but none of the five showed signs of toxicity. These cases illustrate the confusion surrounding the correct use of vitamin A for infants and children with multiple morbid conditions. A plea is made to report similar situations since clinical trials are unethical.