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When was the last time you actively thought about the vital role blood plays in our survival? In India, approximately 12,000 babies born every year have an inherited blood disorder leading to significant health complications. Inherited blood disorders, also known as hemoglobinopathies, are a group of inherited blood disorders that affect the production of normal hemoglobin. Hemoglobin is a protein found in red blood cells (RBCs) that carries oxygen from the lungs to tissues and carbon dioxide from tissues back to the lungs.

Thalassemia, one of the hemoglobinopathies, is a genetic condition in which abnormal production of hemoglobin results in varying degree of health concerns. Thalassemia is common in many parts of the world including India, Southeast Asia, Central Asia, Mediterranean countries and Africa.

In India, about 3-30% (on an average every 1 in 25) Indians are carriers of beta-thalassemia.

In order to understand the different forms of thalassemia, let us first understand the structure of hemoglobin. Adult hemoglobin is made of two alpha and two beta chains. These chains have small pockets that can contain an iron molecule that in turn binds to oxygen. Depending on which chain is damaged in the protein, Thalassemia can be of two different forms, alpha and beta thalassemia.

Abnormally formed alpha chains of hemoglobin cause alpha thalassemia. It is characterized by low amounts of alpha-hemoglobin resulting in reduced levels of hemoglobin. Alpha thalassemia is clinically classified into two forms: Hydrops fetalis syndrome/ Hb Bart Syndrome/ Alpha Thalassemia major

Due to the complications in various organs, babies may be stillborn or pass away soon after birth. Pregnant mothers may also be at risk of complications in pregnancy due to hypertension, premature delivery, and abnormal bleeding. HbH disease

• When hydrops fetalis is suspected and confirmed by prenatal diagnosis, early termination is considered as an option due to possible complications in the pregnancy. More studies are being conducted on therapies including intrauterine transfusions and hematopoietic stem cell transplant.

• Most individuals with HbH disease may not require any treatment. However, children and adults should be closely monitored to assess growth and normal hemoglobin levels. In extremely rare cases, individuals with severe anemia require blood transfusions.

We all have two copies each, of the HBA1 and the HBA2 gene. For both these genes, we receive one copy from our mom and one copy from our dad. All four copies are involved in the production of the alpha-hemoglobin chain. Loss of some or all of these copies results in various forms of alpha-thalassemia:

Beta thalassemia is characterized by low amounts of beta-hemoglobin chains that causes hypochromic anemia and reduced amounts of hemoglobin. The severity of the disease depends on the extent of imbalance between the alpha-globin chain and non-alpha globin chain. Beta thalassemia can be further classified into two types based on the severity of symptoms: Thalassemia major or Cooley’s anemia

• Bone marrow transplantation from an HLA-identical (genetically matched) sibling may eliminate the need for iron chelation therapy since iron accumulation can be managed by repeated phlebotomy (blood donation). The outcome of bone marrow transplant is based on prior risk factors such as iron load, liver fibrosis, and hepatomegaly. Children without such risk factors have higher than 90% disease-free survival rate. However, there is a small risk of rejection of transplantation.

• A possible cure can be cord blood transplantation from a related donor. It is also associated with lower risk of transplantation rejection. Couples who had a child with thalassemia can choose to have prenatal identification of HLA compatibility between the child and unaffected pregnancy. If compatible, parents may opt for the collection of placental blood at delivery for cord blood transplantation.

Around age 10-11 years, children with thalassemia major are at risk of developing severe complications due to iron overload in the absence of iron chelation therapy. Iron overload can be monitored by regular serum ferritin concentration and in some cases, a liver biopsy. Untreated iron overload can lead to:

Beta-thalassemia is an inherited condition caused due to disease-causing changes in the HBB gene that makes the beta-globin chain. Beta-thalassemia is inherited in an autosomal-recessive manner. We all have two copies of the HBB gene. We inherit one from our dad and one from our mom. When a parent has a disease-causing change in one copy of the HBB gene, they are referred to as carriers or as having thalassemia minor. Individuals with thalassemia minor usually have no symptoms.

Carrier screening is a genetic test that allows the couple to learn if they are carriers for alpha-thalassemia (silent carriers or alpha-thalassemia trait) or beta-thalassemia (beta-thalassemia minor). When both parents are carriers, their children are at risk of having complications due to thalassemia.

Despite the high prevalence of disease in India, being diagnosed with thalassemia may be isolating for many due to lack of accessible resources. In addition, financial costs associated with treatments and need for life-long surveillance can be challenging for many families. Speaking with a genetic counselor can help you to better understand possible underlying genetic causes and discuss emotional and medical implications for yourself and your family members. A genetic counselor is a specialized health care professional who has expertise in medical genetics and psychological counseling. If you would like to set up a genetic counseling appointment CALL US on 1800 102 4595 (toll-free) or 040-66986700or WRITE TO US at info@mapmygenome.in

Neeraja Reddy is a board-certified genetic counselor (American Board of Genetic Counseling). She is a genetic counselor at Mapmygenome. Neeraja completed her Masters in Genetic Counseling from Brandeis University, Waltham, MA. She had earlier worked with University of Pennsylvania, Telegenetics Program.

Pooja Ramchandran is a pioneer in the field of genetic counseling in India and Director of Genetic Counseling at Mapmygenome. She has been practicing clinical genetic counseling in India since graduating from Johns Hopkins University in 2008. She is a much sought-after expert in a niche profession and, being the first genetic counselor in the country with a formal degree in genetic counseling, she is committed to establishing the genetic counseling profession in India.