Vitamin A Deficiency Clinical Trial
Official title:
Using Stable Isotope Techniques to Monitor and Assess the Vitamin A Status of Children Susceptible to Infection in Ethiopia
The combination of infectious diseases and malnutrition is the most prevalent, preventable public health problem in the world, responsible for millions of deaths annually, particularly in infants and children. Approximately 13 million children die each year in developing countries from infectious diseases, with the majority of these deaths related to malnutrition. The relationship between infections and malnutrition is synergistic, each further compromising the outcome of the other. Malnutrition compromises natural immunity leading to increased susceptibility to infections, more frequent and prolonged disease episodes, and increased severity of disease. Likewise, infections can aggravate or precipitate malnutrition through decreased appetite and food intake, nutrient malabsorption, nutrient loss or increased metabolic needs. Another issue is that infections (as well as overweight and obesity status) affect nutritional biomarkers making it difficult to assess the real magnitude of some nutritional problems. This is the case of vitamin A. Vitamin A deficiency is defined to be of severe public health importance if 20% or more of a defined population has a serum retinol concentration of less than 0.7 µmol/L. However, circulating concentrations of serum retinol are reduced by infections and in such situations serum retinol concentration is not a good indicator of vitamin A status. Serum acute-phase proteins can indicate the severity and duration of an infection. Correcting vitamin A deficiency is addressed in Ethiopia through vitamin A supplementation of children, dietary diversity and using bio-fortified foods. However, assessing vitamin A status, and the effectiveness of government interventions, is challenging in settings where infectious diseases are endemic, as in most area of the country. Evaluation of vitamin A status is relatively insensitive when based on changes in serum retinol concentrations, which are homeostatically controlled and negatively affected by subclinical infections. Liver stores of vitamin A, the best indicator of vitamin A status, cannot be routinely evaluated. The isotope dilution technique is the preferred method for determining vitamin A status and assessing the efficacy and effectiveness of intervention programs aimed at improving vitamin A status. It is the only indirect assessment method that provides a quantitative estimate of vitamin A status across the continuum of deficient to excessive stores.
Vitamin A deficiency is the leading cause of preventable blindness in children and is
associated with a higher risk of under five mortality. Approximately 250,000 to 500,000
children in developing countries become blind each year owing to vitamin A deficiency, with
the highest prevalence in South Asia and Africa. In Africa, many countries have implemented
vitamin A interventions of mega-dose supplementation for children under 5 years, sometimes in
combination with food fortification programs.
Vitamin A deficiency is a major nutritional concern; with more than 37.7% of under five
children being vitamin A deficient by serum retinol and 50.7% had been sick in the previous
15 days in Ethiopia. Vitamin A deficiency is addressed in the country through vitamin A
supplementation every six months for 6-59 months of children and during the first 45 days of
delivery for lactating mothers. There are also other vitamin A intervention programs like
bio-fortification of orange flesh sweet potato (OFSP) in pocket areas. Unfortunately,
assessing vitamin A status, and the effectiveness of government interventions, is challenging
in settings where infectious diseases are endemic, as in most African countries including
Ethiopia. This is because serum retinol concentration decreases during infection due to the
acute phase response.
The overall national prevalence of any helminthes infection in Ethiopia was 29.8% with
variable degree of prevalence among regions, where by southern nation nationality people
(SNNP) (51%) and Gambella (51%) have the highest prevalence. A survey in 13 foods for
education program-supported schools in the SNNP region indicated that prevalence of soil
transmitted helminthiasis infections are 44.4%. The proportion of school children infected
with any parasite species was 55.4%. A. lumbricoides was the most prevalent species 32.1%,
followed by hookworm 21.7%.
Forty seven subjects (26 male and 21 female) met the survey definition of smear positive
tuberculosis (TB) cases, with a prevalence of 108/100,000 (72-138). From smear positive TB
cases, 37(78.7%) were new cases, 2(4.3%) were on treatment, and 8(17%) were previously
treated in the last five years. Malaria prevalence is 4.5% in the malaria endemic area.
Evaluation of Vitamin A status is relatively insensitive when based on changes in serum
retinol, which is homeostatically controlled and negatively affected by subclinical
infections. Liver stores of vitamin A are the best indicator of vitamin A status, but cannot
be routinely evaluated. The isotope dilution technique is the preferred method for
determining vitamin A status and assessing the efficiency and effectiveness of intervention
programs. It is the only indirect assessment method that provides a quantitative estimate of
vitamin A status across the continuum from deficient to excessive vitamin A.
Hence, this project will assess the vitamin A and inflammatory status of 3-5 year old
children 4-5 months after their semi-annual mega-dose vitamin A supplementation. The results
will indicate the proportions of sampled children with low, normal or high vitamin A status,
how inflammation (from obesity or recent infection or injury) affects assessment of vitamin A
status using different vitamin A assessment methods, and how status differs by country, in
possible association with food fortification practices.
Gap /Problem /Needs Analysis
The combination of infectious diseases and malnutrition is the most prevalent, preventable
public health problem in the world, responsible for millions of deaths annually, particularly
in infants and children. Approximately 13 million children die each year in developing
countries from infectious diseases, with the majority of these deaths related to
malnutrition. The relationship between infections and malnutrition is synergistic, each
further compromising the outcome of the other. Malnutrition compromises natural immunity
leading to increased susceptibility to infections, more frequent and prolonged disease
episodes, and increased severity of disease. Likewise, infections can aggravate or
precipitate malnutrition through decreased appetite and food intake, nutrient mal-absorption,
nutrient loss or increased metabolic needs. Severe malnutrition often masks symptoms and
signs of infectious diseases making prompt clinical diagnosis and treatment very difficult.
Another issue is that infections (as well as overweight and obesity status) affect
nutritional biomarkers making it difficult to assess the real magnitude of some nutritional
problems. This is the case of vitamin A. Vitamin A deficiency is defined to be of severe
public health importance if 20% or more of a defined population has a serum retinol
concentration of less than 0.7 µmol/L. However, circulating concentrations of serum retinol
are reduced by infections and in such situations serum retinol concentration is not a good
indicator of vitamin A status. Infections are accompanied by an acute phase response, and
serum acute-phase proteins can indicate the severity and duration of an infection.
Acute-phase proteins, such as C-reactive protein (CRP), increase within the first 6h of
infection, and reach their maximum concentrations within 24-48h. However,
α1-acid-glycoprotein (AGP) rises more slowly, with maximum concentrations 2-5 days after
infection. Vitamin A deficiency is a major nutritional concern in poor societies affecting
190 million children globally.
Vitamin A is an essential nutrient needed for the visual system, and maintenance of cell
function for growth, epithelial integrity, red blood cell production, immunity and
reproduction. All infants are born with low stores and depend on vitamin A from breast milk
to initially accumulate and maintain adequate stores. Infants of vitamin A depleted women are
at greater risk of becoming vitamin A deficient early in life, especially if they are not
breast fed. Correcting vitamin A deficiency is addressed by some African countries through
vitamin A supplementation of children and food fortification programs. However, assessing
vitamin A status, and the effectiveness of government interventions, is challenging in
settings where infectious diseases are endemic, as in most African countries. Evaluation of
vitamin A status is relatively insensitive when based on changes in serum retinol
concentrations, which are homeostatically controlled and negatively affected by subclinical
infections. Liver stores of vitamin A, the best indicator of vitamin A status, cannot be
routinely evaluated. The isotope dilution technique is the preferred method for determining
vitamin A status and assessing the efficacy and effectiveness of intervention programs aimed
at improving vitamin A status. It is the only indirect assessment method that provides a
quantitative estimate of vitamin A status across the continuum of deficient to excessive
stores. Thus, this technique can be used for assessing vitamin A status in populations at
risk of excessive status due to exposure to too much vitamin A through combined
supplementation and consumption of fortified foods and/or preformed vitamin A-rich foods. The
aim of this project is to use nuclear techniques to evaluate vitamin A nutritional status of
young children during semi-annual administration of vitamin A supplements, and to assess how
this relates to infection status.
The International Atomic Energy Agency (IAEA) has provided significant support on use of
stable isotopes in assessing body composition and breast milk to Member States in Africa, it
is now establishing the stable isotope technique to assess vitamin A body stores in Cameroon
and Zambia (and additional implementation is possible in other country) for use throughout
the region. These inputs will be used in this project to provide key information to
stakeholders on how vitamin A intervention programs affect vitamin A status in children and
how infections affect vitamin A status or validity of stable isotope techniques.
Role of nuclear technology The nuclear techniques used will be the deuterated- and 13
Carbon-retinol body pool measurements to assess vitamin A status. These nuclear methods are
useful across the continuum of nutritional status from deficient to adequate to excess, in
contrast with the more common measurement of serum retinol concentrations. In addition, the
presence of infection/inflammation is less likely to interfere with interpretation of the
nuclear method than that of the serum retinol method, but this will be investigated in this
series of studies. This method is already being established in 2-3 countries and the serum
retinol method is established in approximately 8 countries. Further use of the deuterated
retinol body pool size nuclear method will contribute to capacity building in Africa, where
vitamin A supplementation of children and widespread fortification are routine. The
combination of multiple vitamin A interventions requires continuous monitoring. The IAEA is
expected to provide technical and logistical support for the use of isotope dilution methods
and facilitate Fellowships, Training, Scientific Visits, Expert Missions and Supplies.
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