Study of Antioxidants and Oxidants in Malnourished Children

Baylor College of Medicine86 enrolled

Overview

It is believed that the organs of severely malnourished children malfunction because harmful compounds called oxidants injure the tissues in these organs. In a healthy person oxidants are made harmless because another compound called glutathione neutralizes them. Glutathione is made from three amino acids that we get from the protein we eat in our food. We found that malnourished children were not making enough glutathione because they lacked one of these amino acids called cysteine. In this study we determine why malnourished children do not have sufficient cysteine, and we will feed malnourished children a whey-based diet which is rich in cysteine during their treatment to determine whether they will make more glutathione. This in turn may make their organs recover faster. These findings will let us know whether malnourished children can recover faster if they are given more cysteine during the early phase of treatment.

Study Type

INTERVENTIONAL

Allocation

RANDOMIZED

Purpose

TREATMENT

Masking

DOUBLE

Enrollment

Conditions

Protein-energy Malnutrition Kwashiorkor Marasmus

Interventions

sulfur amino acidsDIETARY_SUPPLEMENT

Sixteen (16) children with edematous SCU will be randomly assigned to either a supplement of SAA or an isonitrogenous amount of alanine

Eligibility

Sex: ALLMin age: 6 MonthsMax age: 18 Months

Medical Language ↔ Plain English

* Infants and toddlers, 6-18 months of age * Suffering from severe protein-energy malnutrition, kwashiorkor and marasmic-kwashiorkor

Locations (1)

Tropical Metabolism Research Unit, University of the West Indies

Kingston, Saint Andrew Parish, Jamaica

Outcomes

Primary Outcomes

small intestine, skin function and red blood cell gluathione synthesis

The effect of dietary supplementation with either a mixture of SAAs or alanine (controls) on: 1. buccal tissue protein synthesis, small intestine structure, integrity and function (i.e. mixed mucosal and mucins protein synthesis rate, mucosal GSH synthesis and concentration, villous height and area and crypt depth, intestinal absorptive capacity and degree of mucosal leakiness, and synthesis of the starch digestive enzymes sucrase-isomaltase and maltase-glucoamylase, plus in vivo starch digestion and absorption) in groups of age- and gender-matched children with edematous SCU in the severely malnourished state. 2. skin protein synthesis rate, rate of closure of skin lesions 3. Red blood cell glutathione synthesis rate and cysteine production

Time frame: after intervention

immune capacity

synthesis rate of selected acute phase proteins

Time frame: after intervention

Data from ClinicalTrials.gov

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