Advances in Human Biology (Jan 2023)
Haematopoietic stem cell transplantation in thalassaemia major: A narrative review
Abstract
Thalassaemia constitutes an especially prevalent human monogenic illness caused by a lack of synthesis of the α- or β-globin chains. The clinical impact of β-thalassaemia is worse since it consists of the same pair gene configuration, thalassaemia major, causing significant health discouragement and loss of life due to life threateningly insufficient haemoglobin (Hb) levels. Only a few nations have successfully reduced the prevalence of β-thalassaemia major, even though comprehensive screening, group counselling, pre-natal detection and public education can all be used. Since over ½ century ago, the fundamental elements of treatment for thalassaemia major have been iron chelation and hypertransfusion. The globin chain that makes up the adult Hb molecule is missing or synthesised at a reduced rate in β-thalassemia. The aberrant buildup of the α-globin chain and faulty formation of red blood cells (RBCs) leading to RBC haemolysis are the outcomes of this genetic abnormality. Since allogeneic haematopoietic stem cell transplantation (Allo-HSCT) has been a well-established gene replacement therapy for individuals with thalassaemia major for several years, it has had very successful outcomes for patients with access to it. Over the past 20 years, the consequences for more susceptible patients have also steadily improved, leading to 80%–90% longer-term life expectancy amongst this group of patients. However, providing Allo-HSCT as a treatment for these patients globally presents numerous difficulties. Replacing genes in autologous HSCs employing viral vectors has been possible in recent years.
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