micronutrient deficiencies prof. pushpa raj sharma department of child health institute of medicine
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Micronutrient Micronutrient deficienciesdeficiencies
Prof. Pushpa Raj SharmaProf. Pushpa Raj Sharma
Department of Child HealthDepartment of Child Health
Institute of MedicineInstitute of Medicine
•Micronutreints are essential to the body in small amounts because they are either components of Enzymes (the minerals) or act as coenzymes in managing chemical reactions.
•Nutrients, such as vitamins, iron, copper, and zinc, that are required in very small amounts by humans in order to survive, as distinguished from the macronutrients such as water, carbohydrate, protein and fat, that are needed in large quantities.
•Essential dietary elements required only in small quantities. They are present in the body in amounts less than .005% of body weight.
If we could give every individual the right amount of nourishment and exercise, not too little and not too much, we would have found the safest way to health.
Hippocrates
Commonest micronutrient Commonest micronutrient deficienciesdeficiencies
• The World Health Report published recently by WHO cites iron, vitamin A and iodine deficiencies as three of the most prevalent and critical nutrient deficiencies in the world.
Burden of the diseaseBurden of the disease
Globally:• Between 100 and 140 million children are
vitamin A deficient• Anemia, mostly due to iron deficiency,
affects some 2 billion people• About 41 million infants are born every
year unprotected from losses in IQ or more severe mental retardation due to iodine deficiency.
Nepal:• Vitamin A deficiency (VAD) causes an
estimated 14,000-20,000 Nepalese children to die of infections annually.
• Iodine deficiency disorders (IDD) affect an estimated 10 million Nepalese nationwide
• A Goiter prevalence of 41.5% among females and 38.4% among males among school-aged children 6-14 years
• The anaemia prevalence was highest among infants aged 6-11 months (90%) and during the second year of life (87.2%), and decreased linearly with age to 59.2% in the 48-59 month age group.
United Nations General Assembly SpecialSession on Children convened in May 2002set the following targets: • The sustainable elimination of iodine deficiency
disorders by 2005; • The sustainable elimination of vitamin A
deficiency by 2010; • Reducing anemia prevalence, including iron
deficiency by a third by 2010; • Accelerating progress towards the reduction of
other micronutrient deficiencies through dietary diversification, food fortification and supplementation.
Iodine :MicronutrientIodine :Micronutrient•Iodide uptake is a critical first step in thyroid hormone Synthesis.10 to 25% of radioactive tracer (e.g., 123I) is taken up by the normal thyroid gland over 24 h;
•Iodine deficiency, there is an increased prevalence of Goiter.
•when deficiency is severe, hypothyroidism and cretinism develops.
• Iodine deficiency remains the most common cause of preventable mental deficiency
Iodine deficiency world wideIodine deficiency world wide
WHO Regions a
Proportion of population with UI < 100 ตg/L (%)
Population with UI < 100 ตg/L (in millions) b
Africa 47.6 48.342
The Americas 14.1 9.995
Eastern Mediterranen
55.4 40.224
Europe 59.9 42.206
South East Asia 39.9 95.628
Western Pacific 19.7 36.082
Total 36.9 272.438
Iodine Deficiency prevalence in Iodine Deficiency prevalence in NepalNepal
Iodine deficiency disorders (IDD) affect an estimated 10 million Nepalese nationwide
A Goiter prevalence of 41.5% among females and 38.4% among males among school-aged children 6-14 years
Estimated Goiter Prevalence: Note: The prevalence in the sample was assessed for grades, 1, 2, as well as TGR (total goiter rate)
GroupSample Size
Indicator
Prevalence in Sample Population
Affected* G1 G2 TGR
Women 15,540 Visible or palpable goiter (grades 1 and 2)
48.1 1.3 50.0 2,887,515
Children 6-11 yrs (school aged children)
15,542 Visible or palpable goiter (grades 1 and 2)
40.5 0.0 40.5 1,328,648 The Nepal
Micronutrient Status Survey was completed
in 1998.
Iodine requirementIodine requirement
To meet iodine requirements, the current recommended daily iodine intakes are:
• 50mg for infants (first 12 months of age)• 90mg for children (2-6 years of age)• 120mg for school children (7-12 years of
age) • 150mg for adults (beyond 12 years of age)• 200mg for pregnant and lactating women
There is legislation governing IDD in Nepal. It was passed in 1955 and has been revised since. Salt iodization is mandatory at the level of 20-60 ppm.
Prevention of Iodine DeficiencyPrevention of Iodine Deficiency
The estimated percent of households consuming salt with some iodine is 91%. The estimate of households consuming adequately iodized salt (15ppm or above) is 63%.
Sourced from the Between Census Household Information, Monitoring and Evaluation System 2000- BCHIMES.
Iron: MicronutrientIron: Micronutrient
• Most Abundant Trace element in body
• FunctionsStructure of hemoglobin & Myoglobin: O2 &
CO2 Transport
Oxidative EnzymesCytochrome CCatalasePeroxidaseMAO (neurotransmitters)
DeficiencyDeficiency• Causes
– Inadequate intake/ Poor bioavailability/ Infections/ Chronic blood loss/Decreased absorption
– Increased Demand (young children/ preg. & Lactation)
• Manifestations IDA : End stage of long process: Tip of iceberg
Stage Manifestation Diagnosis
Early Storage iron depletion N- Hb/Serum iron
Ferritin/ marrow & liver iron
Second Iron limited erythropoiesis
N- Hb Ferritin/ TIBC
Third Iron Deficiency Anemia Hb/Ferritin/Serum iron, MC/HC Anemia
The cutt-offs for haemaglobin and The cutt-offs for haemaglobin and haemocrit which are used to define anemia haemocrit which are used to define anemia
in people living at sea levelin people living at sea level: :
• Population GroupHaemoglobin(g/dL) Haemocrit(%)
• Children 6 months to 5 years 11.033 Children 5-11 Years 11.534
• Children 12-13 years 12.036• Non-pregnant women 12.036• Pregnant women 11.033• Men 13.039
Sharma PR, Baral MR, Khetan BK
1985 KantiChildren’sHospital
0-1 1000 65.25
1-4 59.44
5-14 47.93
MOH, Child Health Division
1998 National 6-11 months 549 90
12-23 months 1220 87.2
24-35 months 978 74.9
36-47 months 637 70.2
48-59 months 515 59.3
MOH/USAID 1975 National 6-23 months 319 19.5
24-71 months 946 25.7
Prevalence of Anaemia in NepalPrevalence of Anaemia in Nepal
Prevention of Iron DeficiencyPrevention of Iron Deficiency
• Supplementation with medicinal iron- Pregnant women/ infants/ preschool children
• Increasing dietary intake- promoting breast feeding/ timely introduction of weaning foods
• Enhancing bioavailability- Vit. C, tannins & phytates
• Control of infections- Feeding during illness/ Deworming
• Food fortification
Iron dosesIron doses
Oral iron therapy ( safe, cheap, effective)
Dose 6mg/kg/d : infants & children 60-120 mg/d: adolescents and adults
- Parenteral thearapy (not very safe but ensures compliance)
Vitamin A: Micronutrient
•First Vitamin Discovered (1913)
•Functions:Maintenance of Normal VisionGrowth, Repair and Cell DifferentiationHealth of Epithelial CellsPregnancy and Fetal DevelopmentProtection Against Infection
DeficiencyDeficiency• Causes
– Inadequate intake/ Infections/ Measles
• Manifestations – XN Night Blindness (Earliest manifestation)– X1A Conjunctival xerosis– X1B Bitot’s Spots– X2 Corneal xerosis– X3A Corneal ulcer/Keratomalacia < 1/3– X3B Corneal ulcer/Keratomalacia > 1/3– XF Fundal changes– XS Corneal Scarring
Age group
number cases % Number cases %
6-11 0 0 0.00 1995 0 0.00
11-23 4457 3 0.07 4534 2 0.04
24-35 4305 8 0.19 4348 10 0.23
36-47 3455 18 0.52 3470 21 0.61
48-59 3084 14 0.45 3102 24 0.77
National 15307 42 0.27 17455 57 0.33
Nepal mocronutrient status survey 1998Night blindness Bitot’s Spot
Prevalence of Vit A deficiency Nepal: preschool children
0
0.5
1
1.5
2
2.5
Nightblindness
BitotsSpots
6 years
7 Years
8 Years
9 Years
10 Years
11 Years
Prevalence of Vit A deficiency Nepal: school children
Burden of Disease in NepalBurden of Disease in Nepal
•Vitamin A deficiency (VAD) causes an estimated 14,000-20,000 Nepalese childrento die of infections annually.
Vitamin A requirementVitamin A requirementInfants< 6-12 months of age only if not breastfed (breast fed children in this group should be protected by post partum supplementation of their mothers.)
50,000 IU orally
Infants 6-12 months of age
100,000 IU orally, every 4-6 months
Children> 12 months of age 200,000 IU orally, every 4-6 months
Mothers (post-partum, lactating)
200,000 IU orally within 8 wks of delivery
Zinc : MicronutrientZinc : Micronutrient
• In 1958, a 21 year old male patient in the Iranian city of Shiraz.
• In 1974 the Food and Nutrition Board of the US National Academy of Sciences
• The immunological effects of zinc deficiency during the late 1960s.
• BMJ 2003;326:409-410 ( 22 February )Ananda S Prasad Editorials
ZincZinc • 3rd most abundant trace element in body
• There are no zinc stores in the body to mobilize from, and in 16 hours an animal can be deficient with rapid effects.
• Functions:Metabolism (functions in over 200 enzymatic reactions) Antioxidant functionImmunity and Wound healingFetal Growth and DevelopmentProduction of brain neurotransmitters
Zinc and its effectZinc and its effect
When pregnant mice were fed a diet moderately deficient in zinc, their offspring exhibited a malfunctioning immune system for the first six months of life. More alarming, the second and third generations also showed signs of poor immunity - even though they were fed a zinc-plentiful diet.
Jean Carper, writing in Jean Carper's Total Nutrition Guide, in reference to zinc studies done at U.C. Davis
Symptoms of Zinc DeficiencySymptoms of Zinc Deficiency
• Delayed puberty in adolescents
• Rough skin • Poor appetite • Mental lethargy • Delayed wound healing • Short stature • Diarrhea • Pneumonia • Stretch marks (striae)
Delayed skeletal maturation and defective mineralization of bone (monkeys) Weight loss Intercurrent infections Hypogonadism in males Lack of sexual development in females Growth retardation Dwarfism
Symptoms of Zinc DeficiencySymptoms of Zinc Deficiency
• White spots on fingernails • Reduction in collagen tur
nover and synthesis (in chicks)
• Reduction in collagen (in humans)
• Poor Immune system • Acne • Cross-linking of
collagen
• Hyaluronic acid abnormalities (in swine)
• Defective connective tissue
• Macular degeneration • Cataracts (in salmon)
DeficiencyDeficiency• Severe Deficiency
– Acrodermatitis enteropathica– Syndrome of hypogonadism, stunting, anemia, anorexia and
hepatosplenomegaly
• Mild/Subclinical Deficiency
True estimate: currently not possible : Lack of valid marker for nutriture
? common in children/women developing world susceptibility to infection/wound-healing time.– ? Growth retardation/? Pregnancy related complications and
LBW
Vitamin A and zinc are micronutrients known to be important in the maintenance of normal immune function
Zinc deficiency is associated with chronic diarrhea, growth failure, and immune deficiency.
Supplementation resulted in a 23 percent reduction (95 percent confidence interval, 12 to 32 percent) in the risk of continued diarrhea and a 39 percent reduction (95 percent confidence interval, 6 to 70 percent) in the mean number of watery stools per day.
Tomkins A, Behrens R, Roy S. The role of zinc and vitamin A deficiency in diarrhoeal syndromes in developing countries. Proc Nutr Soc 1993;52:131-142.
Three Recommended Daily Allowances of zinc given daily by caretakers or by field workers substantially reduced theduration of diarrhea..Strand TA, Chandyo RK, Bahl R, Sharma PR, Adhikari RK, Bhandari N, Ulvik RJ, Molbak K, Bhan MK, Sommerfelt H. Pediatrics. 2002 May;109(5):898-903.
An emphasis on the costs and economic benefits of an alternative therapy is an important aspect of health services research. The cost savings and theattractive cost-effectiveness indicates the need to further assess the role of micronutrients such as zinc and copper in the treatment of acute diarrhea in a larger and more varied population Patel AB, Dhande LA, Rawat MS. Cost Eff Resour Alloc. 2003 Aug 29;1(1):7.
Zinc in growth and respiratory Zinc in growth and respiratory infectioninfection
• Zinc-deficient Bangladeshi infants showed improvements in growth rate and a reduced incidence of acute lower respiratory infection after zinc supplementation. In infants with serum zinc concentrations > 9.18 micro mol/L, supplementation improved only biochemical zinc status.Osendarp SJ, Santosham M, Black RE, Wahed MA, van Raaij JM, Fuchs GJ.Am J Clin Nutr. 2002 Dec;76(6):1401-8.
Safe Upper Limit of Zinc IntakeSafe Upper Limit of Zinc Intake
• 0.5 -1 yr 13mg/d
• 1 -6 yr 23mg/d
• 10 -12 yr 32mg/d Girls
34mg/d Boys
Trace elements in human nutrition and health. Geneva. WHO 1996.
Intestinal Diseases and Intestinal Diseases and micronutrientsmicronutrients
Three months after treatment, significant differences in serum copper, zinc and magnesium were seen in patients with E. VERMICULARIS infection, and in serum magnesium levels in patients with G. LAMBLIA. Olivares JL, Fernandez R, Fleta J, Rodriguez G, Clavel A. Serum mineral levels in children with intestinal
parasitic infection Dig Dis. 2003;21(3):258-61
Children with inflammatory bowel disease have abnormal levels of the trace elements which is more marked in those with Crohn's disease The reduced free radical scavenging action of zinc and selenium as a result of their deficiency may contribute to the continued inflammatory process of IBD. Ojuawo A, Keith L. The serum concentrations of zinc, copper and selenium in children with inflammatory bowel disease.Cent Afr J Med. 2002 Sep-Oct;48(9-10):116-9.
The doctor of the future will give no medication, but will interest his patients in the care of the human
frame, diet and in the cause and prevention of disease.
Thomas A Edison
Thank you
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