Anemia & VitaminsVitamins & Cofactors
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Isfahan University of Medical Science, School of Pharmacy
Department of Clinical Biochemistry
Anemia &
Vitamins
By:
A.N. Emami Razavi
Anemia & VitaminsVitamins & Cofactors
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Which vitamin deficiency do you think involved in anemia?
Which vitamin deficiency do you think not involved in anemia?
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Outlines Outlines Anemia Introduction to vitamins and anemia Thiamin & anemia Riboflavin & anemia Niacin & anemia Pantothenic acid & anemia Pyridoxine & anemia Cobalamin & anemia Folic acid & anemia Vitamin A & anemia Vitamin K & anemia Vitamin E & anemia Vitamin C & anemia Biotin & anemia Orotic acid & anemia Other vitamins & anemia
AnemiaAnemia
Anemia & VitaminsAnemia & Vitamins
Anemia & VitaminsVitamins & Cofactors
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Definition of Anemia
A deficiency in the size or number of red blood cells or in the amount of hemoglobin a red blood cell contains
Decrease in blood hemoglobin below a person’s physiological need
Hemoglobin concentration below 95th percentile of healthy reference population
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Causes of Anemia
Lack of required nutrients
Loss of blood
Chronic Disease
Genetic Abnormalities
Inadequate production of red blood cells
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Signs and symptoms of Anemia
Anemia occurs in many types, but the main symptom of most anemias is fatigue. That's true for vitamin deficiency anemias, which can also result in:
Pale skin Sore mouth and tongue Shortness of breath Loss of appetite Diarrhea Numbness or tingling in your hands and feet Muscle weakness Mental confusion or forgetfulness Vitamin deficiencies usually develop slowly, over several months to years.
Vitamin deficiency symptoms may be subtle at first, but they increase as the deficiency worsens
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Classification of Anemia
Based on cell size (MCV) Macrocytic (large) MCV 100+ fl (femtoliters) Normocytic (normal) MCV 8-99 fl Microcytic (small) MCV<80 fl
Based on hemoglobin content (MCH) Hypochromic (pale color) Normochromic (normal color)
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Types of Anemia
Anemia due to B12 deficiency Anemia due to folate deficiency Anemia due to iron deficiency Hemolytic anemia Hemolytic anemia due to G-6-PD deficiency Idiopathic aplastic anemia Idiopathic autoimmune hemolytic anemia Immune hemolytic anemia Megaloblastic anemia Pernicious anemia Secondary aplastic anemia Sickle cell anemia
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Introduction to vitamins and anemia
Your body needs vitamins ( nutrients found in most foods) for many reasons, including producing healthy red blood cells. If your body is deficient in certain key vitamins, you can develop a type of anemia ( a condition in which your blood is low on healthy red blood cells ) called vitamin deficiency anemia.
Red blood cells carry oxygen from your lungs to all parts of your body. Without enough healthy red blood cells, your body can't get the oxygen it needs to feel energized. To produce red blood cells, your body needs iron and certain vitamins along with adequate protein and calorie intake.
Vitamin deficiency anemia can also lead to other health problems. Fortunately, you can usually correct vitamin deficiency anemia with supplements and dietary changes.
Thiamin & AnemiaThiamin & Anemia
Anemia & VitaminsAnemia & Vitamins
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TRMA
Thiamine-responsive megaloblastic anemia (TRMA) with diabetes and deafness is an autosomal recessive disorder; reported in less than 30 families.
Megaloblastic anemia occurs between infancy and adolescence. The anemia is corrected with pharmacologic doses of thiamine (vitamin B1) (25-75 mg/day compared to US RDA of 1.5 mg/day). However, the red cells remain macrocytic. The anemia can recur when thiamine is withdrawn. Progressive sensorineural hearing loss has generally been early and can be detected in toddlers, is irreversible, and may not be prevented by thiamine treatment. The diabetes mellitus is non-type I in nature, with age of onset from infancy to adolescence.
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Diagnosis/testing
The diagnosis of TRMA is based on an obligate triad of clinical features described above. Examination of the bone marrow reveals megaloblastic anemia with erythroblasts often containing iron-filled mitochondria (ringed sideroblasts).
SLC19A2, which encodes the high-affinity thiamine transporter, is the only gene known to be associated with TRMA. All individuals with the diagnostic phenotypic triad evaluated by sequence analysis have identifiable mutations in the SLC19A2 gene. Sequence analysis of SLC19A2 DNA is available clinically.
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Biochemical mechanism
The underlying biochemical mechanisms responsible for these conspicuous changes are, however, not very well defined and remain somewhat speculative and controversial.
There are basically 2 current theories, both rooted in the concept that nucleotide synthesis is impaired as that in folate and cobalamin (vitamin B12) deficiency.
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In one theory, lack of deoxythymidine triphosphate (dTTP) retards the elongation of newly formed replicating segments of DNA, resulting in fatally fractured pieces that trigger premature apoptosis.
In the other theory, build-up of deoxyuridine triphosphate
(dUTP) resulting from failure of conversion of dU to thymidine causes an inordinate accumulation of dUTP, which can then substitute for missing dTTP in the machinery of DNA polymerase activity. Mis-incorporation of dUTP results in excision of the faulty segment followed by misrepair while the famine for dTTP persists, and thus ensues a futile cycle of excision-misrepair. This, too, results in apoptosis, the final common pathway of ineffective hematopoiesis in megaloblastic anemia.
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Role of thiamin in ribose 5-phosphate synthesis
Through tracking the stable 13C-labeled glucose in fibroblasts
from patients with TRMA, Boros and colleagues concluded that the underlying lesion in this condition resides in the pentose cycle, specifically the transketolase enzyme, which requires thiamine pyro-phosphate as a cofactor.
Through a consideration of the several interconnected
pathways of glycolysis, the tricarboxylic acid cycle, and ribose
synthesis, the authors defined substrate flux in TRMA and normal wild-type fibroblasts grown in both low- and high-thiamine medium.
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They concluded that defective high-affinity thiamine transport
in TRMA leads to a critical reduction in de novo generation of ribose with consequent cell-cycle arrest that triggers precocious apoptosis. Their results clearly demonstrate a selective and time-dependent loss of ribose synthesis in TRMA patients that is most marked under thiamine-deprived culture conditions and is partially restored by thiamine supplementation, explaining the clinical responsiveness of TRMA patients to high doses of thiamine.
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Thiamin and pyruvate dehydrogenase complex
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Role of the TCA cycle in anabolism
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Diagnosis
To establish the extent of disease in an individual diagnosed with thiamine-responsive megaloblastic anemia syndrome (TRMA), the following evaluations are recommended: Peripheral blood count and bone marrow analysis for evidence of
megaloblastic anemia Serum folate concentration, serum vitamin B12 concentration, and serum iron
studies to exclude other entities Fasting serum glucose concentration, oral glucose tolerance test (OGTT), and
urine analysis to diagnose diabetes mellitus Hearing test Ophthalmologic evaluation Cardiac evaluation, including echocardiography
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Treatment
Early administration of pharmacologic doses of oral thiamine (25-75 mg/day compared to US RDA of 1.5 mg/day) ameliorates the megaloblastic anemia and the diabetes mellitus. It may prevent further deterioration of hearing function.
Whether treatment with thiamine from birth, or even prenatally, could reduce the hearing defect is a matter of conjecture.
Riboflavin & AnemiaRiboflavin & Anemia
Anemia & VitaminsAnemia & Vitamins
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Riboflavin deficiency has been associated with the development of normochromic ,normocytic anaemia .
It may be one of the most common vitamin deficiencies among the people of developing nations.
This anemia is associated with reticulocytopenia; leukocytes and platelets are generally normal.
Administration of riboflavin to deficient patients causes reticulocytosis, and the concentration of haemoglobin returns to normal.
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Biochemical mechanism
Effects on iron absorption: A FMN-dependent oxidoreductase (NADPH-ferrihemoprotein
reductase) catalyses the removal of iron from storage ferritin (by reducing heme-thiolate-dependent monooxygenases).
Riboflavin affects iron absorption by maintaining the absorptive capacity of gastrointestinal villi .
Effects on heme metabolism Protoporphyrinogen oxidase at the iner mitochondrial membrain
contains one FAD moiety per homodimer ,oxidizes protoporphyrinogen-IX to protoporphyrin-IX.
NADPH dehydrogenase (EC1.6.99.1) reduces biliverdin to bilirubin in the liver and also may protect against oxidative damage.
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Effects on other vitamins metabolism that their deficiencies are related to anemia:
Metabolism of vitamin B12 Cobalamin reductase Aquacobalamin reductase/NADPH Aquacobalamin reductase/NADH
Metabolism of vitamin B6: Pyridoxamine-phosphate oxidase interconverts the B6 vitamins
pyridoxamine,pyridoxine and pyridoxal, as well as their phosphates.
Metabolism of folic acid: The FAD-dependent methylen tetrahydrofolate reductase is needed for
folate metabolite recycling(with a reduction of its activity higher folate intakes are needed to avoid deficiency).
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Metabolism of vitamin B2: Maintains supplies of vitamin B3 with the help of an enzyme
kynurenine mono-oxygenase and vitamin B2 in its FAD form.
Metabolism of vitamin C: Thioredoxin reductase regenerates reduced glutathione, which is used
for dehydroascorbate reductase.
Metabolism of vitamin K: NADPH dehydrogenase (EC1.6.99.6) and two forms of NAD(P)H
dehydrogenase (EC1.6.99.2) reactive vitamin K (dicomarol inhibitable) and also provide important antioxidant protection.
Metabolism of vitamin A: Retinal dehydrogenase is the enzyme that generates retinoic acid from
retinal.
Niacin & AnemiaNiacin & Anemia
Anemia & VitaminsAnemia & Vitamins
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Niacine deficiency has produced macrocytic anaemia among human patients with pellagra although this is usually due to an accompanying deficiency in folic acid.
Niacin nutritional deficiency causes hemorrhagic diarrhea, dermatitis, anemia and a severe stomatitis with ulceration of the mouth and tongue ('black tongue').
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Role of niacin in citric acid cycle
NAD+ NADH + H+
Isocitrate Alpha-ketogluterate
NAD+ NADH + H+
Alpha-ketogluterate Succinyl CoA
NAD+ NADH + H+
Malate Oxaloacetate
Pantothenate & AnemiaPantothenate & Anemia
Anemia & VitaminsAnemia & Vitamins
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Rats fed a purified diet low in pantothenic acid developed
granulocytopenia and anemia singly or in combination. In the
former, the marrow showed marked depletion of granulocytes,
particularly of the more mature cells, and a slight increase in erythroid cells. In combined granulocytopenia and anemia the granulocytes of the marrow were still further reduced and the erythroid cells were also depleted. Marked reduction in the number of megakaryocytes occurred both in the granulocytopenic and in the granulocytopenic and anemic rats.
Following treatment with combined folic acid, pantothenic acid, and niacinamide, granulocytopenic rats responded by showing a prompt rise in lymphocyte and polymorphonuclear
leukocyte count, marked granulocyte response of the bone marrow
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Pantothenic acid as a part of coenzyme A is essential for Heme formation in hemoglobin.
The production of acetyl-C0A from pyruvate and succinyl-CoA from alpha-ketoglutarate constantly consumes large amounts of CoA.
Succinyl-CoA is needed for D-ALA synthesis the first step in heme production.
Biochemical mechanism
Pyridoxine & AnemiaPyridoxine & Anemia
Anemia & VitaminsAnemia & Vitamins
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Vitamin B6 (pyridoxine) deficiency can disturb heme synthesis and lead to normocytic, microcytic or sideroblastic anemia. Treatment of sideroblastic anemia with vitamin B6 has resulted in the restored activity of erythroblastic -aminolevulinic acid synthetase (ALAS), the rate-limiting enzyme in heme synthesis, followed by correction of the hematological abnormalities.
Heme biosynethsis begins in the mitochondrion with the formation of 5-aminolevulinic acid. This molecule moves to the cytosol where a number of additional enzymatic transformations produce coproporphyrinogin III. The latter enters the mitochondrion where a final enzymatic conversion produces protophorphyrin IX. Ferrochelase inserts iron into the protophorin IX ring to produce heme.
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In Germany, after treating children hospitalized with iron deficiency anemia for 8 days with iron plus vitamin B6, there
was an apparent acceleration of heme synthesis, reflected in Hb concentrations that were higher than observed in children who received only iron
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Vitamin B6 may also inhibit sickling of
erythrocytes in sickle-cell anemia (SCA), possibly increasing erythrocyte counts, Hb concentrations and Hct among SCA patients
Vitamin B6 deficiency is rare, but
treatment with B6 may be effective in
correcting the hematological abnormalities of sideroblastic anemia.
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The bone marrow aspirate from a patient with sideroblastic anemia in this photomicrograph was stained with Perl's Prussian blue. The arrow indicates a normoblast with a greenish halo of material stained by Perl's Prussian blue surrounding the nucleus. Electron microscopic examination would should these to be iron-laden mitochondria.
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Effect of Vitamin B6 on niacin synthesis
Kynureninase (PLP)XanthurenicAcid
TRYPTOPHAN
N-FORMYLKYNURENINE
KYNURENINE
3-OH-KYNURENINE
3-OH ANTHRANILIC ACID
QUINOLINIC ACID
NIACIN
acetyl CoA
acetoacetylCoA
Cobalamin & AnemiaCobalamin & Anemia
Anemia & VitaminsAnemia & Vitamins
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B12 deficiency Anemia
This picture shows large, dense, oversized, red blood cells (RBCs) that are seen in megaloblastic anemia. Megaloblastic anemia can occur when there is a deficiency of vitamin B-12.
Megaloblastic anemia - view of red blood cells
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CAUSES OF MACROCYTOSIS
ETOH
DRUGS
HEMOL
LIVERMDS
OTHER
B12/FOLATE
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Anemia & VitaminsVitamins & Cofactors
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Age of onset
0
5
10
15
20
25
30
35
'10-20 20-30 30-40 40-50 50-60 60-70 70-80 80-90 90-100
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Pernicious anemia Rare autoimmune disease
Failure to absorb B12 from food Very common in older patients
Drugs Metformin PPI
Dramatic reduction in B12 absorption
Causes
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Physiologic roles of vitamin B12
Conversion of propionyl-CoA to methylmalonyl CoA and finally to succinyl-CoA
Transfer of a methyl group from methyl-tetrahydrofolate (methyl-THF) via Cbl to homocysteine to form methionine — This reaction has two important effects: it reduces the plasma concentration of homocysteine which is probably toxic to endothelial cells; and, perhaps more importantly, it demethylates THF
Demethylation is a critical step in DNA synthesis
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Intense erythroid hyperplasia in the marrow but relative reticulocytopenia
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Symptoms
Loss of appetite Diarrhea Numbness and tingling of hands and feet Paleness Shortness of breath Fatigue Weakness Sore mouth and tongue Confusion or change in mental status in severe or advanced cases
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Exams and Tests
A physical exam may show problems with reflexes or positive Babinski reflex.
The following tests will be done: CBC Bone marrow examination LDH Vitamin B12 level Schilling test Antibody test Methylmalonic acid test
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Bone marrow aspiration
A small amount of bone marrow is removed during a bone marrow aspiration. The procedure is uncomfortable, but can be tolerated by both children and adults. The marrow can be studied to determine the cause of anemia, the presence of leukemia or other malignancy, or the presence of some "storage diseases" in which abnormal metabolic products are stored in certain bone marrow cells.
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Schilling test
The Schilling test is performed to evaluate vitamin B12 absorption. B12 helps in the formation of red blood cells, the maintenance of the central nervous system, and is important for metabolism. Normally, ingested vitamin B12 combines with intrinsic factor, which is produced by cells in the stomach. Intrinsic factor is necessary for vitamin B12 to be absorbed in the small intestine. Certain diseases, such as pernicious anemia, can result when absorption of vitamin B12 is inadequate.
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LDH
Alternative Names Lactate dehydrogenase; Lactic acid dehydrogenase
Definition
LDH is a blood test that measures the amount of lactate dehydrogenase (LDH).
How the Test is Performed The health care provider draws blood from a vein or from a heel, finger,
toe, or earlobe. The laboratory quickly spins (centrifuges) the blood to separate the serum (liquid portion) from the cells. The LDH test is done on the serum.
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Antibodies test
Your doctor may draw a sample of your blood to check for antibodies to intrinsic factor. In the majority of cases, vitamin B-12 deficiency is due to a lack of intrinsic factor — a protein secreted by the stomach necessary for the absorption of vitamin B-12. The presence of antibodies to intrinsic factor indicates pernicious anemia.
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Methylmalonic acid test
You may undergo a blood and urine test to measure the presence of a substance called methylmalonic acid. The level of this substance is higher in people with vitamin B-12 deficiency.
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Treatment
Treatment depends on the specific cause of B12 deficiency anemia.
Pernicious anemia requires lifelong vitamin B12 injections. Those with anemia due to a lack of vitamin B12 may be told to take vitamin supplements and to follow a more balanced diet. It may be treated initially with vitamin B12 injections.
Anemia caused by malabsorption is treated with vitamin B12 injections until the condition improve
Outlook (Prognosis) Treatment for this form of anemia is usually effective
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Prevention
Anemia caused by a lack of vitamin B12 can be prevented by following a well-balanced diet. B12 injections can prevent anemia after surgeries known to cause vitamin B12 deficiency. Early diagnosis and prompt treatment can limit the severity and complications of this anemia.
Folic Acid & AnemiaFolic Acid & Anemia
Anemia & VitaminsAnemia & Vitamins
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Folate-deficiency anemia
Folate-deficiency anemia is a decrease in red blood cells (anemia) caused by folate deficiency.
The hematologic manifestations of folate deficiency are similar to those of Cbl deficiency but neurologic abnormalities do not occur
Symptoms Tiredness Headache Sore mouth and tongue Pallor
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Causes
Nutritional deficiency Substance abuse ,Alcoholism Poor dietary intake ,Overcooked foods ,Depressed patients, Nursing homes
Malabsorption Sprue, Inflammatory bowel disease Infiltrative bowel disease,Short bowel syndrome
Drugs (various mechanisms) Methotrexate, Trimethoprim, Ethanol, Phenytoin
Increased requirements Pregnancy, lactation, Chronic hemolysis, Exfoliative dermatitis
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Folate metabolism
METHYL THF
THF
THF PG
DHF PG
5,10 METHYLENE
THF PG
dUMP
dTMP
DNA
HOMOCYSTEINE
METHIONINE
METHIONINE SYNTHASE
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Exams and Tests
Low red blood cell folate level. A complete blood count (CBC) shows anemia and large red
blood cells. A bone marrow examination is rarely necessary, but shows
megaloblasts.
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Treatment
The goal is to treat the cause of the anemia, which may be poor diet or a malabsorption disease.
Oral or intravenous folic acid supplements may be taken on a short-term basis until the anemia has been corrected, or -- in the case of poor absorption by the intestine -- replacement therapy may be lifelong.
Dietary treatment consists of increasing the intake of green, leafy vegetables and citrus fruits.
Outlook (Prognosis)
Anemia usually responds well to treatment within 2 months.
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Possible Complications
Symptoms of anemia can cause discomfort. In a pregnant woman, folate deficiency has been associated with neural tube or spinal defects (such as spina bifida) in the infant.
Vitamin A & AnemiaVitamin A & Anemia
Anemia & VitaminsAnemia & Vitamins
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Vitamin A & anemia
In many developing countries vitamin A deficiency (VAD) is considered to be a major public health problem and concurrently the prevalence of anemia is high in populations affected by VAD.
190-255 millions preschool-aged children throughout the world are vitamin A deficient, with some 3–5 million having xerophthalmia, and 500 000 becoming blind and dying each year. Vitamin A deficiency may be responsible for 25–35% of all early childhood deaths in high risk regions of the developing world, attributed to increased severity of infection in a deficient state.
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Animal studies
Vitamin A-deficient rats indicate:
Losses of hematopoietic tissue in bone marrow. Splenic accumulation of hemosiderin.
Adding of vitamin A to the rats diet:
Regeneration of the bone marrow. Disappearance of hemosiderin from the spleen. Enhanced erythroblastic activity.
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Human studies
In human studies:
Positive correlation between serum retinol concentration and Hb level.
The findings suggest that adequate vitamin A status can help maintain adequacy of plasma iron to supply body tissues.
Intake of fortified food items with vitamin A has been resulted in elevation serum iron levels,transferrin saturation and serum ferritin levels.
Result: increasing iron availability to tissues.
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Vitamin A appears to be involved in the pathogenesis of anemia through diverse biological mechanisms, such as: The enhancement of growth and differentiation of erythrocyte
progenitor cells Potentiation of immunity to infection Reduction of the anemia of infection Mmobilization of iron stores from tissues.
Epidemiological surveys show that the prevalence of anemia is high in populations affected by vitamin A deficiency in developing countries. Improvement of vitamin A status has generally been shown to reduce anemia.
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A combination of vitamin A with iron and zinc is more effective than with iron alone.
This could reflect Zn association with increases in plasma vitamin A and retinol-binding protein.
The effect of vitamin A on risk of anemia appears to be more variable in pregnancy than childhood.
Haemoconcentration associated with low vitamin A status can mask anemia.
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It has been reported that supplementation with vitamin A increases hemoglobin levels and packed cell volumes in humans with low vitamin A status, thereby contributing to the control of nutritional anemia; furthermore, a synergistic interaction exists between vitamin A and iron in combined therapy (Suharno et al., 1993). Some important effects of vitamin A are to support erythropoiesis in the bone marrow and to mobilise iron from body stores (Bloem, 1995; Roodenburg et al., 1996; Semba and Bloem, 2002). However, in rats and chickens vitamin A deficiency (VAD) is accompained by imbalances in water regulation, in particular a decrease in extracellular water, which may lead to hemoconcentration as the VAD proceeds (Sure et al., 1929; McLaren et al., 1965; Nockels and Kienholz, 1967; Corey and Hayes, 1972; Mejı´a et al., 1979a; Roodenburg et al., 1994, 1996).
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Possibly mechanism of vitamin A deficiency anemia
Vitamin A deficiency may induce anemia by:
Impairing the differentiation and proliferations of pluripotent haematopoietic cells.
Disturbing renal and hepatic erythropoietin synthesis.
Disturbing GI absorption.
Reducing mobilization of body iron stores..
Vitamin K & AnemiaVitamin K & Anemia
Anemia & VitaminsAnemia & Vitamins
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Vitamin K and hemolytic anemia
Vitamin K is necessary for synthesis in the liver of factor II (prothrombin), factor VII (proconvertin), factor IX (thromboplastin), and factor X. Deficiency of vitamin K or disturbances of liver function may lead to deficiencies of these factors. When the prothrombin level falls to about 10 to 15% of normal, even slight trauma may cause bleeding; when the level is below 10%, spontaneous hemorrhage may occur, in the form of hematoma, hematemesis, hematuria or melena. The mechanism by which vitamin K promotes formation in the liver of clotting factors II, VII, IX, and X is not known.
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Newborns should be observed for vitamin K deficiency. The incidence of vitamin K deficiency is higher in breast-fed infants.
In newborns, particularly premature infants, hyperbilirubinemia and hemolytic anemia have been reported. The risk is much less with phytonadione than other vitamin K preparations unless high doses (10 to 20 mg) are given.
In infants (particularly premature babies), excessive doses of vitamin K analogs during the first few days of life may cause hyperbilirubinemia; this in turn may result in severe hemolytic anemia, hemoglobinuria, kernicterus, leading to brain damage or even death.
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Hemorrhagic Disease of the Newborn: Prophylaxis: In its 1997 clinical practice guidelines on vitamin K
administration, the Canadian Paediatric Society recommends that vitamin K1 be given as a single i.m. injection to all newborns within 6 hours of birth, at a dose of 1 mg for infants with a birthweight of >1 500 g and 0.5 mg if birthweight is £1 500 g.
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Vitamin K deficiency
Vitamin K deficiency may occur in patients with biliary obstruction or other conditions limiting absorption of vitamin K such as celiac disease, ulcerative colitis, sprue, regional enteritis, cystic fibrosis, intestinal resection, and in patients receiving drugs that may affect liver function or intestinal flora.
Vitamin E & AnemiaVitamin E & Anemia
Anemia & VitaminsAnemia & Vitamins
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Vitamin E & hemolytic anemia
Hemolytic anemia results from the deficiency of the enzyme glucose-6-phosphate dehydrogenase or of glutathione synthetase. Red blood cells become more sensitive to attack by free radicals, because they cannot form lipids in which vitamins can be stored. Increasing the blood level of vitamin E has been found to be useful in this disease.
Function :
as an antioxidant, scavenging highly reactive free radicals and protecting the PUFAs of cellular membranes from oxidative destruction.
Anemia & VitaminsVitamins & Cofactors
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Vitamin E and membrane lipid oxidation As part of the antioxidant network, a-tocopherol (a-OH) forms a tocopheroxyl radical (a-TO·) when it intercepts a peroxyl radical (ROO·) in a cell membrane. In the absence of vitamin E, these ROO· can abstract a hydrogen from PUFA (RH) and generate both a hydroperoxide (ROOH) and another carbon-centered radical (R·), which in the presence of oxygen (O2) will form a ROO· and thus a lipid peroxidation chain reac-tion occurs. If a-tocopherol (a-TOH) is present it intercepts the radical 1000 times faster than the radical reacts with PUFA, and both a ROOH and an a-TO· are formed. This a-TO· radical can be detoxified and a-TOH regenerated by intracellular antioxidants including vitamin C, glutathione, and reducing equivalents (NAD(P)H) derived from oxidative metabolism.
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 87April 11, 2023
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 88April 11, 2023
Animal studies
Animal studies have observed:
The development of severe anemia in primates.
Morphological abnormalities of the bone marrow among primates.
Treatment with vitamin E improved blood parameters among these animals.
Anemia & VitaminsVitamins & Cofactors
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Human studies
Pre term and LBW infants are born with low serum and tissue concentration of vit E.
Vit E deficiency induced anemia in infants has been characterized by red blood hemolysis and oedema that resolves promptly following vit E treatment.
Vit E is routinly given to preterm infants in developed country to protect against the potential oxidative caused by iron supplementation
Increasing tocopherol to PUFA ratio to lower oxidant agents such as iron in infant formula.
Anemia & VitaminsVitamins & Cofactors
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Anemia & VitaminsVitamins & Cofactors
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Vitamin E & fanconi anemia
a-Tocopherol (AT) decreased the frequency of chromosomal damage (under basal and inhibited G2 repair conditions) and the duration of G2 in FA cells. This antioxidant protective effect, expressed as the decrease in chromatid breaks, was greater in FA cells (50.8%) than in controls (25%).
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 92April 11, 2023
Effects of vitamin E on heme synthesis
Vitamin E has a stimulatory effect on heme synthesis, apparently through its action on ALAD and on 5-aminolevulinic acid synthetase (ALAS).
Addition of vitamin E to the diets of lead-intoxicated rabbits coused a diminution in the anemia and coproporphyrinuria, which had resulted from plumbism.(Nair et al. , deRosa)
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 93April 11, 2023
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 94April 11, 2023
Vitamin E deficiency
Vitamin E deficiency can result from a low intake of fresh fruit and vegetables and other foods rich in vitamin E Deficiency can also occur in those individuals who cannot absorb fat. In addition, damage to the pancreas, bile duct, liver, and surgical removal of the major portion of the digestive tract can cause vitamin E deficiency. The plasma level of vitamin E in normal adults is about 10 mcg/ml; a plasma level of 5 mcg/ml or less is considered and indication of vitamin E deficiency.
Vitamin C & AnemiaVitamin C & Anemia
Anemia & VitaminsAnemia & Vitamins
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 96April 11, 2023
Vitamin C effects on anaemia
Vitamin C defciency has been associated with various forms of anemia, but it is still unclear whether vitamin C (ascorbate) is directly involved in hematopoiesis or if anemia arises indirectly through the interactions of vitamin C with folate and iron metabolism. In its role as a reducing agent, vitamin C can facilitate iron absorption from the gastrointestinal tract and enable its mobilization from storage.
Iron and ascorbate form an iron chelate complex that is more soluble in the alkaline environment of the small intestine and, as a result, more easily taken up.
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 97April 11, 2023
Vitamin C may counteract the inhibition of iron absorption by dietary phytates and tannins.
Ascorbic acid also activates the enzyme folic acid reductase to form THF ,the active form of folate which prevent megaloblastic anemia.
Vitamin C possibly prevent hemolysis resulting from compromised celluar antioxidant defence mechanism.
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 98April 11, 2023
Vitamin C mechanism
Ultimately Vitamin C may:
improve absorption of non-heme iron
protect against oxidative damage
counteract the effects of iron absorption inhibitors.
increase serum iron , ferritin and Hb concentrations among children and non-pregnant subjects.
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 99April 11, 2023
Vitamin C deficiency
Vitamin C deficiency is evident when serum ascorbate falls below 11.4 mmol /1. Groups that have been identifed as being at risk of vitamin C deficiency include pregnant and lactating women, infants fed exclusively cow's milk, elderly men and smokers.
Anemia & VitaminsVitamins & Cofactors
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Anemia & VitaminsVitamins & Cofactors
Total slides : 120 101April 11, 2023
Biotin & AnemiaBiotin & Anemia
Anemia & VitaminsAnemia & Vitamins
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 103April 11, 2023
Biotin is one of the least-studied vitamins, particularly in
relation to mitochondrial function and the extent of its nutritional deficiency in humans.
The most important function of Biotin is to ensure proper growth. Not only does it help produce DNA fatty acids and other essential nucleic acids, it also helps the cells grow and replicate. It also plays a vital role in the production of bone marrow and thus the tissues of the central nervous system and muscles benefit from this vitamin. Vitamin H is also known to be involved in the process that helps transfer carbon dioxide.
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 104April 11, 2023
Effects of biotin on heme synthesis
Biotin is a coenzyme in 5 different biotin-dependent
carboxylases (BDC), which catalyze carboxylation reactions :
pyruvate carboxylase (PC), propionyl-CoA carboxylase (PCC), 3-methylcrotonyl-CoA carboxylase (MCC), acetyl-CoA carboxylase (ACC)-2, and ACC-1. The first 4 are located in the mitochondria. PC, PCC, and MCC catalyze anaplerotic reactions and replenish tricarboxylic acid (TCA) cycle intermediates .
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 105April 11, 2023
Effects of biotin on heme synthesis
BD has a detrimental effect on the level of TCA cycle intermediates. A deficiency in PC directly decreases production of oxaloacetate. A deficiency in PCC decreases production of succinyl-CoA and causes propionyl-CoA to accumulate, which interacts via a side reaction with oxaloacetate to form methylcitrate. Additionally, low activity of MCC causes methylcrotonyl-CoA to accumulate in the mitochondria where it reacts with glycine and potentially
depletes this amino acid from the mitochondrial matrix.
Succinyl-CoA from the TCA cycle and glycine are the precursors for heme biosynthesis. Heme synthesis starts in the mitochondria by condensing succinyl-CoA with glycine to form -aminolevulinate, the first metabolite committed to heme synthesis
Anemia & VitaminsVitamins & Cofactors
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Anemia & VitaminsVitamins & Cofactors
Total slides : 120 107April 11, 2023
Results
Heme level and synthesis were markedly decreased in BD cells , indicating that adequate heme synthesis requires biotin and that BD can cause heme deficiency. Thus, biotin should be considered the 8th member of the group of vitamins and minerals required for adequate heme synthesis . The decrease in iron uptake in BD cells is unexpected, because heme deficiency
should be expected to cause a compensatory increase in iron uptake . A possible explanation for the lack of an increase in iron uptake in BD cells is that the heme deficiency caused by BD is due to a decrease in succinyl-CoA, which lowers the production of porphyrins. Porphyrins are intermediates in the biosynthesis of heme. These results suggest that optimal uptake of iron requires that the mechanisms for iron assimilation into heme remain intact. Adequate levels of biotin appear to be essential for adequate iron uptake. Thus, for correcting iron deficiency in humans, it may be important to ensure biotin adequacy.
Orotic acid & AnemiaOrotic acid & Anemia
Anemia & VitaminsAnemia & Vitamins
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 109April 11, 2023
Orotic acid plays a central role in the metabolism of folic acid and vitamin B-12, and may enhance the transportation of minerals across cell membranes.
Orotic acid and folate are also involved in DNA synthesis. Many of the vitamin-like effects of orotic acid are undoubtedly due to its role in RNA and DNA synthesis. Our bodies produce OA as an intermediate in the manufacture of the pyrimidine bases uracil, cytosine, and thymine. Together, these pyrimidines constitute half of the bases needed for RNA/DNA, the other half coming from the purine bases adenine and guanine which are synthesized independently of orotic acid.
Anemia & VitaminsVitamins & Cofactors
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Anemia & VitaminsVitamins & Cofactors
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Mechanism of OA action
The oral administration of the pyrimidine precursor orotic acid in doses of 3 to 6 Gm. daily to patients with pernicious anemia in relapse produced with some regularity Partial remissions in the manifestations of vitamin B12 deficiency.
The early effects of orotic acid in pernicious anemia resembled those of small amounts of B12. Reticulocytosis appeared 7 to
14 days after the start of therapy.
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 112April 11, 2023
B12 is concerned with pyrimidine biosynthesis.
The degree of remission that can be produced in patients with pernicious anemia in relapse by the administration of orotic acid suggests, that one major consequence of vitamin B12
deficiency in the human is a defect in pyrimidine biosynthesis and/or incorporation. Other processes, such as purine ring formation, may also be affected. The mechanism by which orotic acid induces partial remissions in pernicious anemia is unknown.
Mechanism of OA action
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 113April 11, 2023
It could serve merely as a metabolite which when supplied from exogenous sources would circumvent a block in its synthesis or in that of a precursor. Increasing the supply of orotic acid could possibly overcome by mass action a defect in the synthetic pathway at a later stage. In view of demonstrated feed-back regulatory mechanisms in pyrimidine synthesis,
Mechanism of OA action
Other vitamins & Anemia
Other vitamins & Anemia
Anemia & VitaminsAnemia & Vitamins
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 115April 11, 2023
Para-aminobenzoic acid, as part of the coenzyme tetrahydrofolic acid, aids in the metabolism and utilization of amino acids and is also supportive of blood cells, particularly the red blood cells. PABA supports folic acid production by the intestinal bacteria.
PABA
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 116April 11, 2023
Inositol
Usually considered part of the vitamin B complex. It is thought that along with choline, inositol is necessary for the formation of lecithin within the body. Involved in calcium mobilization.
IP6 regulates the oxygen capacity of red blood cells; it reduces both cholesterol and trigylcerides, as well as preventing heart damage during a heart attack.
Research has shown that IP6 can help prevent sikle cell anemia
Anemia has been reported as a clinical sign of inositol deficiency in salmonids (Halver, 1982). Waagbø et al. (1998) observed a positive correlation between blood hemoglobin concentrations and dietary levels of inositol in Atlantic salmon.
Anemia & VitaminsVitamins & Cofactors
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adenine
Acts as a co-enzyme with other vitamins to enhance metabolism.
Acts as a precursor for assimilation of other B-vitamins. Strengthens the immune system response. Promotes cell formation and normal growth. Prevents cellular mutation and free radical formation. Helps to balance blood sugar levels.
Deficiency of adenine associated whit blood and skin disorders
Anemia & VitaminsVitamins & Cofactors
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Vitamin D
Anemia & VitaminsVitamins & Cofactors
Total slides : 120 119April 11, 2023
The association of hypercalcemia and anemia suggested a neoplastic origin; this idea was rejected when results of additional examinations became available. High vitamin D levels could directly affect hematopoietic cells or act through high calcium levels, which inhibit erythroid colony formation in vitro and erythropoietin production in vitro and in vivo. That calcium is more important than vitamin D itself is supported by the course of our patient, whose anemia subsided after normalization of calcium levels, despite high vitamin D levels.
In addition to the danger of extemporaneous formulations, which carry a higher risk for error than factory-made pills, anemia is another potential complication of vitamin D intoxication.
Anemia & VitaminsVitamins & Cofactors
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Laetrile
Relationship between laetrile and anemia…
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