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  Oct 17, 2018
Thalassemia Pathophysiology
Thalassemia Pathophysiology
  Oct 17, 2018

Thalassemia is a blood disorder that is caused by DNA mutations in cells that are responsible for producing haemoglobin. This leads to a reduction in the number and ability of the red blood cells to carry oxygen throughout the body and can cause sufferers to feel symptoms such as fatigue.

Haemoglobin is made up of a heme ring of iron and four globin chains, two alpha chains and two beta (or gamma) chains. The classification of the type of thalassemia depends on the number of gene mutations and the section of the haemoglobin molecule – alpha or beta – that is affected.

Alpha-Thalassemia

Alpha-thalassemia arises due to insufficient synthesis of alpha-haemoglobin chains and an excess of beta chains. There are four genes on chromosome 16 that are required to produce the alpha region of haemoglobin, two of which are inherited from each parent of an individual. The number of gene mutations corresponds to the severity of the condition as follows:

  • One gene mutation: no signs or symptoms but may pass the disease on to children as a silent carrier
  • Two gene mutations: mild signs and symptoms, referred to as alpha-thalassemia minor or alpha-thalassemia trait
  • Three gene mutations: moderate to severe symptoms, referred to as alpha-thalassemia intermedia or haemoglobin H disease
  • Four gene mutations: often fatal before or shortly after childbirth, referred to as alpha-thalassemia major or hydrops fetalis.

Beta-Thalassemia

Beta-thalassemia occurs due to insufficient synthesis of beta-haemoglobin chains and an excess of alpha chains. There are two genes on chromosome 11 that are required to produce the beta region of the haemoglobin chain, each of which is inherited from one parent. The number of gene mutations corresponds to the severity of the condition as follows:

  • One gene mutation: mild signs or symptoms, referred to as beta-thalassemia minor or alpha-thalassemia trait
  • Two gene mutations: moderate to severe symptoms, referred to as beta-thalassemia major or Cooley’s anaemia

Progression to Symptoms

When an individual is affected by gene mutation, the ability to produce normal haemoglobin cells in inhibited. Depending on the type of gene mutation, either the alpha or the beta part of the cell cannot be formed as usual, which leads to a change in the way function of the haemoglobin cell.

Of particular note, the ability of the haemoglobin to transport oxygen to cells throughout the body is reduced, which leads to symptoms of anaemia. These symptoms may include fatigue, weakness and shortness of breath.

Autosomal Recessive Inheritance Pattern

The DNA mutations related to thalassemia are inherited from parents with the condition, which follows an autosomal recessive pattern. If both parent posses one gene mutation, any children will have a 25% chance of inheriting a gene mutation, regardless of whether the parents are symptomatic. If one or both parent possess multiple gene mutations, the risk of gene inheritance increases and the child is more likely to experience symptoms.

As it thalassemia is an inherited condition, individuals with a family history of the condition are more likely to be affected. Additionally, some particular ethnicities are associated with the condition more often, including people with Italian, Greek, Middle Eastern, Asian and African heritage.

References