Microcytic Anaemia

Anaemia caused by deficient haemoglobin synthesis (cytoplasmic defect)

Aetiology

Haem deficiency

Lack of iron for erythropoiesis

Iron deficiency - most common cause of microcytic anaemia
Anaemia of chronic disease - IL-6 is released due to chronic diseases and increases production of hepcidin, which subsequently down regulates ferroportin expression, reducing iron absorption and precipitating anaemia of chronic disease

Problems with porphyrin synthesis

Sideroblastic anaemia: excess iron buildup in mitochondria due to failure to incorportae iron into haem, can be hereditary (congenital sidoblastic anaemias) or aquired e.g. MDS, lead poisoning, alcohol excess

Globin deficiency

Thalassaemia (trait, intermedia, major)

Causes of iron deficiency

Insufficient intake to meed physiological need

More likely in women and children due to greater requirements
Dietary factors

Losing too much - bleeding

Causes of chronic blood loss: menorrhagia, gastrointestinal (tumours, ulcers, NSAIDs, parasitic infection), haematuria

Not absorbing enough - malabsorption e.g. coeliac disease (less common)

Pathophysiology

In microcytic anaemia, one of the building blocks needed to synthesize Hb in the cytoplasm is lacking

However the nuclear machinery is intact, so the cells can keep dividing

This results in microcytic (small) cells, and as they contain little Hb they are hypochromic (lacking in colour)

Iron metabolic pathway

‘Closed’ system - only able to absorb a small amount of iron, with a tiny amount in circulation moving to/from storage

Iron turnover in plasma pool is frast

Circulating iron is bound to transferrin, a protein which transports iron from donor tissues (macrophages, intestinal cells and hepatocytes) to tissues expressing transferrin receptors (especially erythroid marrow)

% saturation of transferrin with iron measures iron supply

Reduced in iron deficiency, but also in anaemia of chronic disease
Increased in genetic haemachromatosis

Iron is stored in ferritin mainly in the liver

Ferritin is a large spherical intracellular protein which stores up to 4000 ferric ions
Serum ferritin is an easily measured indirect measure of storage iron (reflects intracellular ferritin sythesis in response to iron status of the host)

Low ferritin means iron deficiency

Anaemia of chronic disease

Protective mechanism to reduce supply of iron to pathogens:

Inflammatory cytokines result in increased transcription of ferritin mRNA

Ferritin synthesis is increased

Inflammatory cytokines also result in increased plasma hepcidin - blocks ferroportin-mediated release of iron

Results in impaired iron supply to marrow erythroblasts and eventually hypochromic red cells

Sequential consequences of negative iron balance

Exhaustion of iron stores (ferritin falls)

Iron deficient erythropoiesis (MCV falls)

Microcytic anaemia develops

Epithelial changes (effects elsewhere) - skin, koilonychia, angular chelitis

Clinical presentation

Anaemia - breathlessness, fatigue, headaches, palpitations, faintness, pallor

Clinical features of iron deficiency are generally only seen in cases of very longstanding deficiency:

Brittle nails
Spoon-shaped nails (koilonychia)
Atrophy of the papillae of the tongue
Angular stomatitis
Brittle hair
Dysphagia and glottitis

Investigations

Blood count and film

Red cells are microcytic (MCV <80 fL) and hypochromic (mean corpuscular haemoglobin (MCH) <27 pg)
There is poikilocytosis (variation in shape) and anisocytosis (variation in size)

Teardrop Cell
Pencil Cell / Cigar Cell

Iron Profile

Parameter	Iron Deficiency Anemia (IDA)	Anemia of Chronic Disease (ACD)	Thalassemia Trait	Sideroblastic Anemia	Lead Poisoning
Serum Iron	↓ Low	↓ Low	Normal or ↑	↑ High	Normal or ↓
Ferritin	↓ Low	Normal or ↑	Normal or ↑	↑ High	Normal or ↑
TIBC	↑ High	↓ Low or Normal	Normal	Normal or ↓	Normal
Transferrin Saturation	↓ Low (<15%)	↓ Low	Normal or ↑	↑ High	Normal or ↓
Transferrin	↑ Increased	↓ Decreased	Normal	Normal	Normal
Bone Marrow Iron Stores	Absent	Present (↑ reticuloendothelial iron)	Normal	↑ Ring sideroblasts	Normal or ↑
RDW	↑ Increased	Normal or mildly ↑	Normal	↑ Increased	↑ Increased
MCV	↓↓	↓ or Normal	↓↓↓ (marked)	↓	↓
Pathophysiologic Hallmark	Absolute iron deficiency	Iron sequestration (↑ hepcidin)	Globin chain synthesis defect	Defective heme synthesis	Inhibition of heme synthesis enzymes

Others indicated by history and examination e.g. upper and/or lower GI investigations in all males and postmenopausal females

Management

Iron deficiency anaemia

Improve iron intake

Review diet

Increase iron intake
Avoid tea, coffee

Improve gastric acidity
Vitamin C may benefit

Review other medication e.g. anticoagulants, PPIs

Oral Iron (First-Line)

Indications

Mild–moderate IDA
Intact GI absorption
Hemodynamically stable

Preparations (elemental iron content)

Preparation	Elemental Iron
Ferrous sulfate 325 mg	~65 mg
Ferrous fumarate 300 mg	~107 mg
Ferrous gluconate 300 mg	~39 mg

Dose

150–200 mg elemental iron/day
Given once daily or alternate-day dosing (better absorption, fewer GI effects)

Administration Tips

Take on empty stomach
Vitamin C enhances absorption
Avoid concurrent tea, coffee, calcium, PPIs

Duration

Continue 3 months after Hb normalization to replenish stores

Expected Response

Reticulocytosis: 7–10 days
Hb rise: ~1–2 g/dL every 2–3 weeks

Parenteral (IV) Iron

Indications

Oral iron intolerance or noncompliance
Malabsorption (e.g., celiac disease, post-gastrectomy)
Severe anemia with need for rapid repletion
Ongoing blood loss
Chronic kidney disease (especially on ESA)

Common Preparations

Iron sucrose
Ferric carboxymaltose
Ferric derisomaltose

Advantages

Faster repletion
Bypasses GI tract

Risks

Hypersensitivity (rare with newer agents)
Hypophosphatemia (carboxymaltose)

Blood Transfusion (Supportive, Not Definitive)

Indications

Hb <7 g/dL (or <8 g/dL with cardiovascular disease)
Hemodynamic instability
Symptomatic severe anemia (angina, syncope, heart failure)

⚠️ Always follow with iron therapy—transfusion does not correct iron deficit.

Anaemia of chronic disease

Treat underlying cause