Hypochromic Anaemias

Hypochromic Anaemias Dr Mere Kende MBBS, MMED (Path), MAACB, MACTM, MACRRM LECTURER-SMHS

Anaemia LOW HEMOGLOBIN

Anaemia Definition: Hb <lower Limit of reference range for age Age 24hrs 120-160 2months 90 2-6months 95 6-24months 105 2-11years 115 LL of normal Range (g/l) >12 years girls 120 boys 130

Changes in Hb after Birth [Hb] at birth: 160-190g/L. Hb g/l 220 200 180 It rises transiently in the first 24 hours Slowly falls to as low as 95 g/l by the 9 th week. By 6 months, Hb stabilises at around 125 g/l, the lower end of the adult range, Then increases towards adolescence. 160 140 120 100 80 60 40 Birth 24hours 3months 6months adult

Age related References

Blood Film

Hypochromia Iron Deficiency Comment on this blood film from an elderly male complaining of undue tiredness.

Causes: Classification based on MCV

Iron Deficiency Thalassaemia Sideroblastic Anemia Lead Poisoning

Iron is Essential Component of Hb

Porphyrin Pathway Pyrrole ring

Iron Deficiency Iron deficiency is the most common cause of anemia worldwide. Aside from circulating red blood cells, the major location of iron in the body is the storage pool as ferritin or as hemosiderin and in macrophages.

Absorption: stomach, duodenum, and upper jejunum. Diet iron: heme is efficiently absorbed (10 20%), Nonheme iron less so (1 5%) Loss ---approximately 1 mg/d are normally lost through exfoliation of skin and mucosal cells. There is no physiologic mechanism for increasing normal body iron losses.

Menstrual blood loss -50 ml/month Women must absorb 3 4 mg of iron from the diet each day. Menorrhagia risk of iron deficiency; must supply extra iron

Causes of iron deficiency. Deficient diet (infants <1y cow milk) Decreased absorption (worm) Increased requirements Pregnancy Lactation Blood loss (common) Gastrointestinal (PUD/aspirin) Menstrual Blood donation Hemoglobinuria Iron sequestration Pulmonary hemosiderosis

Iron Deficiency Anaemia Commonest cause of anaemia throughout the world May be subclinical -role cognitive and psychomotor development Leads to anaemia in those with severe deficiency Present in 10-30% of children in high risk groups Most due to inadequate dietary intake Lost through cow milk provoked GIT loss in infants/worm infestation & menstruation in adolescent girls

Children at High Risk for iron Deficiency Anaemia Group/Age Additional Risk Factors mechanism <6months Prematurity Inadequate Stores LBW/Multiple Births Maternal iron deficiency 6-24months Exclusively Breastfed Inadequate Intake Delayed introduction of iron containing food Excessive Cow milks Adolescent Females Menstrual loss Poor Diet Rapid Growth Spurt Socially Disadvantaged Worm Infection Fad diets/ Vegeterians Poor diet Inadequate Intake

Clinical Findings Symptoms and Signs Anemic symptoms: easy fatigability, tachycardia, palpitations and tachypnea on exertion. Severe deficiency causes skin and mucosal changes, including a smooth tongue, Cheilosis (fissures at the corners of the mouth) koilonychia (spooning of the fingernails)/brittle nails. Dysphagia because of the formation of esophageal webs (Plummer Vinson syndrome) also occurs. Pica, craving for specific foods (ice chips, etc) often not rich in iron.

Koilonykia (spooning of nail)

Pallor

Pallor

Jaundice

Hemoglobinuria

Glossitis-Megaloblastic/Iron Deficiency

Cheilitis/Beefy Red Tongue

Laboratory Findings Iron deficiency develops in stages. Microcytic hypopchromic anemia Serum ferritin less than 30 mcg/l is a highly reliable indicator of iron deficiency. Elevated TIBC Elevated transferrin Decrease % saturation MCV low Severe cases: anisocytosis, poikilocytosis, target cells, pencil shaped cells Occasionally nucleated red cells Platelet count is commonly elevated Elevated soluble transferrin receptor

Blood Film/FBE hypochromic Microcytic Low MCV

Stages of Iron Deficiency

Differential Diagnosis Thalassemia (high iron/ferritin) Sideroblastic anemia. (increased iron/ferritin) Chronic Inflammatory Condition Myelodyspasia

Essentials of Diagnosis Serum ferritin < 12 mcg/l. Caused by bleeding in adults unless proved otherwise. Responds to iron therapy

Treatment Therapeutic trial of iron replacement. Identify & Treat cause especially a source of occult blood loss Oral iron tablets IM injection response in 2 months Continue treatment for 3-6 months to replenish stores

Thalassemia

Hemoglobinopathies Thalassaemia Sickle Cell Disease Unstable Haemoglobins

Thalasaemia Normal HbA1 ( 2 2) <2% HbA2 ( 2 2) Individuals inherit one beta gene from each parents compared to 2 alpha genes Alpha thalassemia- alpha chain defect/gene deletion - Thalassemia-beta chain defect/reduced beta chain amount/qantitative defect

Thalassaemia Inheritance Chrom 6 & 11

Alpha Thalassaemia Syndromes -Globin Syndromes Haematocrit MCV genes 4 Normal Normal 3 Silent carrier Normal 2 Thalassemia minor 28 40% 60 75 fl 1 Hb H disease ( 2 2) 22 32% 60 70 fl 0 Hydrops fetalis/hb Barts stillbirths

Thalassaemia Major (inadequate -chain) Marked relative excess of alpha chain Uncommon in 1 st world due to increased antenatal screen & prenatal termination Present during second 6 months of life [switch of HbF ( 2 2) - HbA1 ( 2 2) at 1 st 6months] Presentation: severe hemolytic anaemia, slow growth, skeletal deformities, hepatosplenomegaly (always), heart failure hypochromic, microcytic anaemia, PCV <20%

Gamma to Beta switch

Beta Thalassemia syndromes. -Globin Genes Hb A Hb A 2 Hb F Normal Homozygous 97 99% 1 3% < 1% T. Major Homozygous 0 0% 4 10% 90 96% T. Major Homozygous + 0 10% 4 10% 90 96% T. Intermedia Homozygous + 0 30% 0 10% 6 100% T. Minor Heterozygous 0 80 95% 4 8% 1 5% Heterozygous + 80 95% 4 8% 1 5%

Marked erythroblastosis & bizzare RBC forms on Blood Film Increased HbF ( 2 2) and 2-fold increase in HbA2 ( 2 2) Depend on transfusion Reduced life expectancy Iron Overload Genetic Counselling/Antenatal diagnosis Bone Marrow Transplant

Thalassemia minor /thalassemia trait very common Rarely show significant anaemia and symptoms Causes microcytic, hypochromic Anaemia Clues on FBE include elevated RBC count/marked microcytosis Diagnosis: Hb electrophoresis- elevated HBA2 Often treated unnecessarily with iron HbA2 levels may be corrected with iron therapy obscuring the dx

AT /Trait is 1 or 2 gene deletions relatively common in Asian populations Asymptomatic throughout life Microcytosis /target cells may be seen Hb electrophoresis normal except decreased HbA2

HbH 3 gene deletions microcytic but asymptomatic when well May develop anaemia when stressed Heinz Body seen Hb Barts -4 alpha gene deletions hydrops fetalis at birth Incompatible with life

Prenatal Diagnosis (DNA analysis)- CVS/AFS

Essentials of Diagnosis of Thalassaemia Microcytosis out of proportion to the degree of anemia. Positive family history or lifelong personal history of microcytic anemia. Abnormal red blood cell morphology with microcytes, acanthocytes, and target cells. In -thalassemia, elevated levels of hemoglobin A 2 or F.

Differential Diagnosis Iron deficiency Low Iron Low Ferritin Blood Film not strikingly abnormal (less target cells, acanthocytes etc) Hb electrophoresis-normal

Hb Electrophoresis -Globin Genes Hb A Hb A 2 Hb F Normal Homozygous 97 99% 1 3% < 1% T. Major Homozygous 0 0% 4 10% 90 96% T. Major Homozygous + 0 10% 4 10% 90 96% T. Intermedia Homozygous + 0 30% 0 10% 6 100% T. Minor Heterozygous 0 80 95% 4 8% 1 5% Heterozygous + 80 95% 4 8% 1 5%

Microcytic (Low MCV) Serum Ferritin Normal Hb Electrophoresis Low Iron Deficiency Thalassaemia minor

References Current Medical Diagnosis and Treatment 2008 LG. Gomella, SA. Haist; Clinicians Pocket Reference 11 th Edition 2007 Harrison s Text of Medicine 17 th Edition