fbpx
Wikipedia

Thalassemia

May 12, 2023

Thalassemias are inherited blood disorders that result in abnormal hemoglobin.[7] Symptoms depend on the type of thalassemia and can vary from none to severe.[1] Often there is mild to severe anemia (low red blood cells or hemoglobin) as thalassemia can affect the production of red blood cells and also affect how long the red blood cells live.[1] Symptoms of anemia include feeling tired and having pale skin.[1] Other symptoms of thalassemia include bone problems, an enlarged spleen, yellowish skin, pulmonary hypertension, and dark urine.[1] Slow growth may occur in children.[1] Symptoms and presentations of thalassemia can change over time.

Thalassemia
Other namesThalassaemia, Mediterranean anemia
Peripheral blood film from a person with delta-beta thalassemia
Pronunciation
SpecialtyHematology
SymptomsFeeling tired, pale skin, enlarged spleen, yellowish skin, dark urine[1]
CausesGenetic (autosomal recessive)[2]
Diagnostic methodBlood tests, genetic tests[3]
TreatmentBlood transfusions, iron chelation, folic acid[4]
Frequency280 million (2015)[5]
Deaths16,800 (2015)[6]

Thalassemias are genetic disorders.[2] There are two main types, alpha thalassemia and beta thalassemia.[7] The severity of alpha and beta thalassemia depends on how many of the four genes for alpha globin or two genes for beta globin are missing.[2] Diagnosis is typically by blood tests including a complete blood count, special hemoglobin tests, and genetic tests.[3] Diagnosis may occur before birth through prenatal testing.[8]

Treatment depends on the type and severity.[4] Treatment for those with more severe disease often includes regular blood transfusions, iron chelation, and folic acid.[4] Iron chelation may be done with deferoxamine, deferasirox or deferiprone.[4][9] Occasionally, a bone marrow transplant may be an option.[4] Complications may include iron overload from the transfusions with resulting heart or liver disease, infections, and osteoporosis.[1] If the spleen becomes overly enlarged, surgical removal may be required.[1] Thalassemia patients who do not respond well to blood transfusions can take hydroxyurea or thalidomide, and sometimes a combination of both.[10] Hydroxyurea is the only FDA approved drug for thalassemia. Patients who took 10 mg/kg of hydroxyurea every day for a year had significantly higher hemoglobin levels, and it was a well-tolerated treatment for patients who did not respond well to blood transfusions.[11] Another hemoglobin-inducer includes thalidomide, although it has not been tested in a clinical setting. The combination of thalidomide and hydroxyurea resulted in hemoglobin levels increasing significantly in transfusion-dependent and non-transfusion dependent patients [12]

As of 2015, thalassemia occurs in about 280 million people, with about 439,000 having severe disease.[13] It is most common among people of Greek, Italian, Middle Eastern, South Asian, and African descent.[7] Males and females have similar rates of disease.[14] It resulted in 16,800 deaths in 2015, down from 36,000 deaths in 1990.[6][15] Those who have minor degrees of thalassemia, similar to those with sickle-cell trait, have some protection against malaria, explaining why they are more common in regions of the world where malaria exists.[16] An estimated 1/3 of people with thalassemia have "non-transfusion dependent thalassemia" and do not depend on blood transfusions to maintain their survival.

Signs and symptoms

 
Left: Hand of a person with severe anemia. Right: Hand of a person without anemia.
 
A patient having thalassemia shows enlarged spleen.
  • Iron overload: People with thalassemia can get an overload of iron in their bodies, either from the disease itself or from frequent blood transfusions. Too much iron can result in damage to the heart, liver, and endocrine system, which includes glands that produce hormones that regulate processes throughout the body. The damage is characterized by excessive deposits of iron. Without adequate iron chelation therapy, almost all patients with beta-thalassemia accumulate potentially fatal iron levels.[17]
  • Infection: People with thalassemia have an increased risk of infection. This is especially true if the spleen has been removed.[18]
  • Bone deformities: Thalassemia can make the bone marrow expand, which causes bones to widen. This can result in abnormal bone structure, especially in the face and skull. Bone marrow expansion also makes bones thin and brittle, increasing the risk of broken bones.[19]
  • Enlarged spleen: The spleen aids in fighting infection and filters unwanted material, such as old or damaged blood cells. Thalassemia is often accompanied by the destruction of a large number of red blood cells and the task of removing these cells causes the spleen to enlarge. Splenomegaly can make anemia worse, and it can reduce the life of transfused red blood cells. Severe enlargement of the spleen may necessitate its removal.[20]
  • Slowed growth rates: anemia can cause the growth of a child to slow down. Puberty may also be delayed in children with thalassemia.[21]
  • Heart problems: Diseases, such as congestive heart failure and abnormal heart rhythms, may be associated with severe thalassemia.[22]

Hemoglobin structural biology

Normal human hemoglobins are tetrameric proteins composed of two pairs of globin chains, each of which contains one alpha-like (α-like) chain and one beta-like (β-like) chain. Each globin chain is associated with an iron-containing heme moiety. Throughout life, the synthesis of the alpha-like and the beta-like (also called non-alpha-like) chains is balanced so that their ratio is relatively constant and there is no excess of either type.[23]

The specific alpha and beta-like chains that are incorporated into Hb are highly regulated during development:

  • Embryonic Hbs are expressed as early as four to six weeks of embryogenesis and disappear around the eighth week of gestation as they are replaced by fetal Hb.[24][25] Embryonic Hbs include:
    • Hb Gower-1, composed of two ζ globins (zeta globins) and two ε globins (epsilon globins) (ζ2ε2)
    • Hb Gower-2, composed of two alpha globins and two epsilon globins (α2ε2)
    • Hb Portland, composed of two zeta globins and two gamma globins (ζ2γ2)
  • Fetal Hb (Hb F) is produced from approximately eight weeks of gestation through birth and constitutes approximately 80 percent of Hb in the full-term neonate. It declines during the first few months of life and, in the normal state, constitutes <1 percent of total Hb by early childhood. Hb F is composed of two alpha globins and two gamma globins (α2γ2).
  • Adult Hb (Hb A) is the predominant Hb in children by six months of age and onward; it constitutes 96-97% of total Hb in individuals without a hemoglobinopathy. It is composed of two alpha globins and two beta globins (α2β2).[citation needed]
  • Hb A2 is a minor adult Hb that normally accounts for approximately 2.5-3.5% of total Hb from six months of age onward. It is composed of two alpha globins and two delta globins (α2δ2).[citation needed]

Cause

 
Thalassemia has an autosomal recessive pattern of inheritance.

Both α- and β-thalassemias are often inherited in an autosomal recessive manner. Cases of dominantly inherited α- and β-thalassemias have been reported, the first of which was in an Irish family with two deletions of 4 and 11 bp in exon 3 interrupted by an insertion of 5 bp in the β-globin gene. For the autosomal recessive forms of the disease, both parents must be carriers for a child to be affected. If both parents carry a hemoglobinopathy trait, the risk is 25% for each pregnancy for an affected child.[26]

The genes involved in thalassemia control the production of healthy hemoglobin. Hemoglobin binds oxygen in the lungs and releases it when the red cells reach peripheral tissues, such as the liver. The binding and release of oxygen by hemoglobin are essential for survival.[citation needed]

Evolution

Having a single genetic variant for thalassemia may protect against malaria and thus can be an advantage.[27]

People diagnosed with heterozygous (carrier) β-thalassemia have some protection against coronary heart disease.[28]

Pathophysiology

Normally, the majority of adult hemoglobin (HbA) is composed of four protein chains, two α and two β-globin chains arranged into a heterotetramer. In thalassemia, patients have defects in either the α or β-globin chain, causing production of abnormal red blood cells.[citation needed]

The thalassemias are classified according to which chain of the hemoglobin molecule is affected. In α-thalassemias, production of the α-globin chain is affected, while in β-thalassemia, production of the β-globin chain is affected.[29]

The β-globin chains are encoded by a single gene on chromosome 11; α-globin chains are encoded by two closely linked genes on chromosome 16.[30] Thus, in a normal person with two copies of each chromosome, two loci encode the β chain, and four loci encode the α chain. Deletion of one of the α loci has a high prevalence in people of African or Asian descent, making them more likely to develop α-thalassemia. β-Thalassemias are not only common in Africans, but also in Greeks and Turks.[citation needed]

Alpha-thalassemias

Main article: Alpha-thalassemia

The α-thalassemias involve the genes HBA1[31] and HBA2,[32] inherited in a Mendelian recessive fashion. Two gene loci and so four alleles exist. Two genetic loci exist for α-globin, thus four alleles are in diploid cells. Two alleles are maternal and two alleles are paternal in origin. The severity of the α-thalassemias is correlated with the number of affected α-globin; alleles: the greater, the more severe will be the manifestations of the disease.[33] Alpha-thalassemias result in decreased alpha-globin production; therefore, fewer alpha-globin chains are produced, resulting in an excess of β chains in adults and excess γ chains in newborns. The excess β chains form unstable tetramers (called hemoglobin H or HbH of 4 beta chains), which have abnormal oxygen dissociation curves. Alpha thalassemias often are found in people from Southeast Asia, the Middle East, China, and in those of African descent.[34]

# of missing alleles Types of alpha thalassemia[33] Symptoms
1 Silent carrier No symptoms
2 Alpha thalassemia trait Minor anemia
3 Hemoglobin H disease Mild to moderate anemia; may lead normal life
4 Hydrops fetalis Death usually occurs in utero or at birth

Beta-thalassemia

Main article: Beta-thalassemia

Beta thalassemias are due to mutations in the HBB gene on chromosome 11,[35] also inherited in an autosomal, recessive fashion. The severity of the disease depends on the nature of the mutation and on the presence of mutations in one or both alleles.
Mutated alleles are called β+ when partial function is conserved (either the protein has a reduced function, or it functions normally but is produced in reduced quantity) or βo, when no functioning protein is produced.
The situation of both alleles determines the clinical picture:

  • β thalassemia major (Mediterranean anemia or Cooley anemia) is caused by a βoo genotype. No functional β chains are produced, and thus no hemoglobin A can be assembled. This is the most severe form of β-thalassemia;
  • β thalassemia intermedia is caused by a β+o or β++ genotype. In this form, some hemoglobin A is produced;
  • β thalassemia minor is caused by a β/βo or β/β+ genotype. Only one of the two β globin alleles contains a mutation, so β chain production is not terribly compromised and patients may be relatively asymptomatic.

Beta thalassemia most often occurs in people of Mediterranean origin. To a lesser extent, Chinese, other Asians, and African Americans can be affected.[34]

Delta-thalassemia

Main article: Delta-thalassemia

As well as alpha and beta chains present in hemoglobin, about 3% of adult hemoglobin is made of alpha and delta chains. Just as with beta thalassemia, mutations that affect the ability of this gene to produce delta chains can occur.[36][37]

Combination hemoglobinopathies

Thalassemia can coexist with other hemoglobinopathies. The most common of these are:

Diagnosis

Thalassemia can be diagnosed via a complete blood count, hemoglobin electrophoresis or high-performance liquid chromatography, and DNA testing.[39][40] Hemoglobin electrophoresis is not widely available in developing countries, but the Mentzer index can also be used for diagnosis of thalassemia; it is not a definitive test but it can suggest the possibility of thalassemia. The Mentzer index can be calculated from a complete blood count report.[41]

Management

Main article: Management of thalassemia

Given the range of severities, some people require no treatment (those who are asymptomatic) while some people require regular blood transfusions for survival.[42] People with severe thalassemia require medical treatment and the main treatment is usually a red blood cell transfusion.

Red blood cell transfusions

Blood transfusions are the main treatment approach for prolonging life.[43] The approach and frequency needed varies in each person depending on severity, age, if the person has stunted growth, presence of extramedullary erythropoiesis (pediatrics), if a person is pregnant, and heart health. Blood transfusions come with risks including making iron overload worse, the risk of infections, risk of red blood cell antibody formation, increased risk of the development of hypersensitivity reactions, and the risk of gall bladder inflammation (cholecystitis).[42]

Multiple blood transfusions may result in iron overload. The iron overload related to thalassemia may be treated by chelation therapy with the medications deferoxamine, deferiprone, or deferasirox.[44][45][46] These treatments have resulted in longer life expectancy for those with thalassemia major.[44] Deferoxamine is only effective as a daily injection, complicating its long-term use. However, it is inexpensive and safe. Adverse effects include primary skin reactions around the injection site and hearing loss.[44] Deferasirox and deferiprone are both oral medications, whose common side effects include nausea, vomiting and diarrhea. When comparing effectiveness, there is no evidence that deferasirox or deferiprone is superior, however, a long term comparison has not been performed.[46] Deferasirox is not effective for all patients and may not be suitable for those with significant cardiac issues related to iron overload, while deferiprone appears to be the most effective agent when the heart is involved. Furthermore, the cost of deferasirox is also significant.[44] Combining calcium channel blocker medications with iron chelation therapy is under study, however, the benefits are not clear from clinical trials conducted.[47]

Growth hormone therapy

There is some evidence that growth hormone replacement therapy may help to increase the rate at which children with thalassemia grow taller.[48]

Bone-marrow transplantation

Bone-marrow transplantation may offer the possibility of a cure in young people who have an HLA-matched donor.[49] Success rates have reached the 80–90% range.[49] Mortality from the procedure is about 3%.[50] There are no randomized controlled trials that have tested the safety and efficacy of non-identical donor bone-marrow transplantation in persons with β- thalassemia who are dependent on blood transfusion.[51]

Graft-versus-host diseases (GvHD) are one relevant side effect of bone-marrow transplantation. Further research is necessary to evaluate whether mesenchymal stromal cells can be used as prophylaxis or treatment for GvHD.[52]

If the person does not have an HLA-matched compatible donor, bone-marrow transplantation from haploidentical mother to child (mismatched donor) may be attempted. In a study of 31 people, the thalassemia-free survival rate was 70%, rejection 23% and mortality 7%. The most positive results tend to occur with very young people.[53]

Other treatments

Many treatments are being investigated with the goal of reducing the number of blood transfusions that a person requires. Foetal haemoglobin (HbF) inducer medications have been trialed with the goal of increasing hemoglobin and decreasing the person's reliance of a blood transfusion, however, the benefits are not clear and early results do not show a clinically meaningful benefit.[42] Hydroxyurea treatment with the goal of reactivating gamma‐genes to produce HbF also does not have any high quality evidence supporting its effectiveness.[54]

There is no evidence from randomized controlled trials to support zinc supplementation for those with thalassemia.[55] Computer programs or mobile applications have been suggested as tools to help people manage thalassemia and follow their therapies including iron chelation therapy. The effectiveness of these applications has not been well investigated.[56]

People with thalassemia are at a higher risk of osteoporosis.[57] Treatment options include bisphosphonates and sometimes the addition of hormonal therapy. Other treatments have been suggested including calcitonin, zinc, hydroxyurea, and calcium supplementation. The effectiveness of bisphosphonates and zinc is not clear and further studies are required.[57]

Dental care

Helping people with thalassemia with dental care and treating dental problems can be challenging due to the underlying condition. Overload of iron due to blood transfusions may lead to iron deposition in the teeth and discolouration, and there is an increased risk for infection.[58] Treatment options for people with thalassemia need to be modified to ensure that the needs of the person are considered and early detection and early management of any problems is strongly suggested in order to reduce the risk of the person needing more complicated dental treatments.[58] The evidence supporting the effectiveness of dental treatments on people with thalassemia is weak and higher quality clinical trials are needed.[58]

Mild thalassemia

People with thalassemia traits do not require medical or follow-up care after the initial diagnosis is made.[43] People with β-thalassemia trait should be warned that their condition can be misdiagnosed as the more common iron-deficiency anemia. They should avoid routine use of iron supplements, but iron deficiency may develop during pregnancy or from chronic bleeding.[59] Genetic counseling is indicated for all persons with genetic disorders, especially when the family is at risk of a severe form of disease that may be prevented.[60]

Prevention

The American College of Obstetricians and Gynecologists recommends all people thinking of becoming pregnant be tested to see if they have thalassemia.[61] Genetic counseling and genetic testing are recommended for families who carry a thalassemia trait.[26] Understanding the genetic risk, ideally before a family is started, would hopefully allow families to understand more about the condition and make an informed decision that is best for their family.[26]

A screening policy exists in Cyprus to reduce the rate of thalassemia, which, since the program's implementation in the 1970s (also including prenatal screening and abortion), has reduced the number of children born with the disease from one of every 158 births to almost zero.[62] Greece also has a screening program to identify people who are carriers.[63]

In Iran as a premarital screening, the man's red cell indices are checked first. If he has microcytosis (mean cell hemoglobin < 27 pg or mean red cell volume < 80 fl), the woman is tested. When both are microcytic, their hemoglobin A2 concentrations are measured. If both have a concentration above 3.5% (diagnostic of thalassemia trait) they are referred to the local designated health post for genetic counseling.[64]

Large-scale awareness campaigns are being organized in India[65] both by government and non-government organizations to promote voluntary premarital screening, with marriage between carriers strongly discouraged.

Epidemiology

The beta form of thalassemia is particularly prevalent among Mediterranean peoples, and this geographical association is responsible for its original name.[66] Thalassemia resulted in 25,000 deaths in 2013 down from 36,000 deaths in 1990.[15]

In Europe, the highest concentrations of the disease are found in Greece, coastal regions in Turkey (particularly the Aegean Region such as İzmir, Balıkesir, Aydın, Muğla, and Mediterranean Region such as Antalya, Adana, Mersin), in southern Spain, in parts of Italy, particularly southern Italy. With the exception of the Balearics, the major Mediterranean Islands, such as Sicily, Sardinia, Malta, Corsica, Cyprus, and Crete are heavily affected. Other Mediterranean peoples, as well as those in the vicinity of the Mediterranean, also have high rates of thalassemia, including people from North Africa and West Asia. Far from the Mediterranean, South Asians are also affected, with the world's highest concentration of carriers (16–18% of the population) in the Maldives.[67]

The disease is also found in populations living in Africa, the Americas, and in Tharu people in the Terai region of Nepal and India.[68] It is believed to account for much lower rates of malaria illnesses and deaths,[69] accounting for the historic ability of Tharus to survive in areas with heavy malaria infestation while others could not. Thalassemias are particularly associated with people of Mediterranean origin, Arabs (especially Palestinians and people of Palestinian descent), and Asians.[70] The estimated prevalence is 16% in people from Cyprus, 1%[71] in Thailand, and 3–8% in populations from Bangladesh, China, India, Malaysia and Pakistan.

Estimates suggest that approximately 1.5% of the global population (80 – 90 million people) are β-thalassemia carriers.[72] However, exact data on carrier rates in many populations are lacking, particularly in developing areas of the world known or expected to be heavily affected.[73][74] Because of the prevalence of the disease in countries with little knowledge of thalassemia, access to proper treatment and diagnosis can be difficult.[75] While there are some diagnostic and treatment facilities in developing countries, in most cases these are not provided by government services and are available only to patients who can afford them. In general, poorer populations only have access to limited diagnostic facilities and blood transfusions. In some developing countries, there are virtually no facilities for diagnosis or management of thalassemia.[75]

Etymology and synonym

The word thalassemia (/θælɪˈsmiə/) derives from the Greek thalassa (θάλασσα), "sea",[76] and Neo-Latin -emia (from the Greek compound stem -aimia (-αιμία), from haima (αἷμα), "blood").[77] It was coined because the condition called "Mediterranean anemia" was first described in people of Mediterranean ethnicities. "Mediterranean anemia" was renamed thalassemia major once the genetics were better understood. The word thalassemia was first used in 1932.[66]: 877 [78]

Research

Gene therapy

Gene therapy is being studied for thalassemia.[79] The procedure involves collecting hematopoietic stem cells (HSCs) from the affected person's blood. The HSCs then have a beta-globin gene added using a lentiviral vector. After destroying the affected person's bone marrow with a dose of chemotherapy (a myeloablative conditioning regimen), the altered HSCs are infused back into the affected person where they become engrafted in the bone marrow where they proliferate. This potentially results in a progressive increase in hemoglobin A2 synthesis in all subsequent developing red blood cells, with resultant resolution of the anemia.[80]

While one person with beta thalassemia has no longer required blood transfusions following treatment within a research trial, it is not an approved treatment as of 2018.[79][81]

HbF induction

HbF induction is an attempt to reactivate fetal globin gene transcription.[82] Efforts involve trying to disrupt the fetal globin gene promoter.[82]

References

  1. ^ a b c d e f g h "What Are the Signs and Symptoms of Thalassemias?". NHLBI. 3 July 2012. from the original on 16 September 2016. Retrieved 5 September 2016.
  2. ^ a b c "What Causes Thalassemias?". NHLBI. 3 July 2012. from the original on 26 August 2016. Retrieved 5 September 2016.
  3. ^ a b "How Are Thalassemias Diagnosed?". NHLBI. 3 July 2012. from the original on 16 September 2016. Retrieved 5 September 2016.
  4. ^ a b c d e "How Are Thalassemias Treated?". NHLBI. 3 July 2012. from the original on 16 September 2016. Retrieved 5 September 2016.
  5. ^ GBD 2015 Disease and Injury Incidence and Prevalence (8 October 2016). "Global, regional, and national incidence, prevalence, and years lived with disability for 310 diseases and injuries, 1990–2015: a systematic analysis for the Global Burden of Disease Study 2015". Lancet. 388 (10053): 1545–1602. doi:10.1016/S0140-6736(16)31678-6. PMC 5055577. PMID 27733282.
  6. ^ a b GBD 2015 Mortality and Causes of Death (8 October 2016). "Global, regional, and national life expectancy, all-cause mortality, and cause-specific mortality for 249 causes of death, 1980–2015: a systematic analysis for the Global Burden of Disease Study 2015". Lancet. 388 (10053): 1459–1544. doi:10.1016/s0140-6736(16)31012-1. PMC 5388903. PMID 27733281.
  7. ^ a b c "What Are Thalassemias?". NHLBI. 3 July 2012. from the original on 26 August 2016. Retrieved 5 September 2016.
  8. ^ "How Can Thalassemias Be Prevented?". NHLBI. 3 July 2012. from the original on 16 September 2016. Retrieved 5 September 2016.
  9. ^ "Iron Chelation". Retrieved 15 July 2020.
  10. ^ Shah, Sandip; Sheth, Radhika; Shah, Kamlesh; Patel, Kinnari (February 2020). "Safety and effectiveness of thalidomide and hydroxyurea combination in β‐thalassaemia intermedia and major: a retrospective pilot study". British Journal of Haematology. 188 (3): e18–e21. doi:10.1111/bjh.16272. ISSN 0007-1048. PMID 31710694. S2CID 207940189.
  11. ^ Keikhaei, Bijan (2015). "Clinical and Haematological Effects of Hydroxyurea in β -Thalassemia Intermedia Patients". Journal of Clinical and Diagnostic Research. 9 (10): OM01-3. doi:10.7860/JCDR/2015/14807.6660. PMC 4625280. PMID 26557561.
  12. ^ Masera, Nicoletta; Tavecchia, Luisa; Capra, Marietta; Cazzaniga, Giovanni; Vimercati, Chiara; Pozzi, Lorena; Biondi, Andrea; Masera, Giuseppe (2010). "Optimal response to thalidomide in a patient with thalassaemia major resistant to conventional therapy". Blood Transfusion. 8 (1): 63–5. doi:10.2450/2009.0102-09. ISSN 1723-2007. PMC 2809513. PMID 20104280.
  13. ^ Global Burden of Disease Study 2013 (22 August 2015). "Global, regional, and national incidence, prevalence, and years lived with disability for 301 acute and chronic diseases and injuries in 188 countries, 1990–2013: a systematic analysis for the Global Burden of Disease Study 2013". Lancet. 386 (9995): 743–800. doi:10.1016/s0140-6736(15)60692-4. PMC 4561509. PMID 26063472.
  14. ^ Clin. Methods in Ped. Jaypee Brothers Publishers. 2005. p. 21. ISBN 9788171798087.[permanent dead link]
  15. ^ a b GBD 2013 Mortality and Causes of Death (17 December 2014). "Global, regional, and national age-sex specific all-cause and cause-specific mortality for 240 causes of death, 1990–2013: a systematic analysis for the Global Burden of Disease Study 2013". The Lancet. 385 (9963): 117–71. doi:10.1016/S0140-6736(14)61682-2. hdl:11655/15525. PMC 4340604. PMID 25530442.
  16. ^ Weatherall, D. J. (2015). "The Thalassemias: Disorders of Globin Synthesis". Williams Hematology (9th ed.). McGraw Hill Professional. p. 725. ISBN 9780071833011.
  17. ^ Cianciulli P (October 2008). "Treatment of iron overload in thalassemia". Pediatr Endocrinol Rev. 6 (Suppl 1): 208–13. PMID 19337180.
  18. ^ "Thalassemia – Symptoms and causes". Mayo Clinic. from the original on 20 November 2016. Retrieved 4 April 2017.
  19. ^ Vogiatzi, Maria G; Macklin, Eric A; Fung, Ellen B; Cheung, Angela M; Vichinsky, Elliot; Olivieri, Nancy; Kirby, Melanie; Kwiatkowski, Janet L; Cunningham, Melody; Holm, Ingrid A; Lane, Joseph; Schneider, Robert; Fleisher, Martin; Grady, Robert W; Peterson, Charles C; Giardina, Patricia J (March 2009). "Bone Disease in Thalassemia: A Frequent and Still Unresolved Problem". Journal of Bone and Mineral Research. 24 (3): 543–557. doi:10.1359/jbmr.080505. ISSN 0884-0431. PMC 3276604. PMID 18505376.
  20. ^ "Symptoms and causes – Enlarged spleen (splenomegaly) – Mayo Clinic". www.mayoclinic.org. from the original on 19 November 2016. Retrieved 2 February 2017.
  21. ^ Soliman, Ashraf T; Kalra, Sanjay; De Sanctis, Vincenzo (1 November 2014). "Anemia and growth". Indian Journal of Endocrinology and Metabolism. 18 (7): S1–5. doi:10.4103/2230-8210.145038. PMC 4266864. PMID 25538873.
  22. ^ "Thalassemia Complications". Thalassemia. Open Publishing. from the original on 3 October 2011. Retrieved 27 September 2011.
  23. ^ Weatherall DJ. The New Genetics and Clinical Practice, Oxford University Press, Oxford 1991.
  24. ^ Huisman TH. The structure and function of normal and abnormal haemoglobins. In: Bailliere's Clinical Haematology, Higgs DR, Weatherall DJ (Eds), W.B. Saunders, London 1993. p.1.
  25. ^ Natarajan K, Townes TM, Kutlar A. Disorders of hemoglobin structure: sickle cell anemia and related abnormalities. In: Williams Hematology, 8th ed, Kaushansky K, Lichtman MA, Beutler E, et al. (Eds), McGraw-Hill, 2010. p.ch.48.
  26. ^ a b c Hussein, Norita; Henneman, Lidewij; Kai, Joe; Qureshi, Nadeem (11 October 2021). Cochrane Cystic Fibrosis and Genetic Disorders Group (ed.). "Preconception risk assessment for thalassaemia, sickle cell disease, cystic fibrosis and Tay-Sachs disease". Cochrane Database of Systematic Reviews. 2021 (10). doi:10.1002/14651858.CD010849.pub4. PMC 8504980. PMID 34634131.
  27. ^ Wambua S; Mwangi, Tabitha W.; Kortok, Moses; Uyoga, Sophie M.; Macharia, Alex W.; Mwacharo, Jedidah K.; Weatherall, David J.; Snow, Robert W.; Marsh, Kevin; Williams, Thomas N. (May 2006). "The Effect of α +-Thalassaemia on the Incidence of Malaria and Other Diseases in Children Living on the Coast of Kenya". PLOS Medicine. 3 (5): e158. doi:10.1371/journal.pmed.0030158. PMC 1435778. PMID 16605300.
  28. ^ Tassiopoulos S; Deftereos, Spyros; Konstantopoulos, Kostas; Farmakis, Dimitris; Tsironi, Maria; Kyriakidis, Michalis; Aessopos, Athanassios (2005). "Does heterozygous beta-thalassemia confer a protection against coronary artery disease?". Annals of the New York Academy of Sciences. 1054: 467–70. doi:10.1196/annals.1345.068. PMID 16339699. S2CID 71993591.
  29. ^ Herbert l. Muncie, Jr; Campbell, James S. (15 August 2009). "Alpha and Beta Thalassemia". American Family Physician. 80 (4): 339–344. PMID 19678601.
  30. ^ Robbins Basic Pathology, Page No:428
  31. ^ Online Mendelian Inheritance in Man (OMIM): Hemoglobin—Alpha locus 1; HBA1 - 141800
  32. ^ Online Mendelian Inheritance in Man (OMIM): Hemoglobin—Alpha locus 2; HBA2 - 141850
  33. ^ a b Galanello, Renzo; Cao, Antonio (5 January 2011). "Alpha-thalassemia". Genetics in Medicine. 13 (2): 83–88. doi:10.1097/GIM.0b013e3181fcb468. ISSN 1098-3600. PMID 21381239.
  34. ^ a b "The Basics of Anemia". WebMD. Retrieved 9 May 2019.
  35. ^ Online Mendelian Inheritance in Man (OMIM): Hemoglobin—Beta Locus; HBB - 141900
  36. ^ "Delta-beta-thalassemia". Orphanet. Orphanet. Retrieved 16 September 2016.
  37. ^ "HBD - hemoglobin subunit delta". Orphanet. Orphanet. Retrieved 17 September 2016.
  38. ^ Torres Lde S (March 2015). "Hemoglobin D-Punjab: origin, distribution and laboratory diagnosis". Revista Brasileira de Hematologia e Hemoterapia. 37 (2): 120–126. doi:10.1016/j.bjhh.2015.02.007. PMC 4382585. PMID 25818823.
  39. ^ "How Are Thalassemias Diagnosed? – NHLBI, NIH". www.nhlbi.nih.gov. from the original on 28 July 2017. Retrieved 6 September 2017.
  40. ^ Keohane, E; Smith, L; Walenga, J (2015). Rodak's Hematology: Clinical Principles and Applications (5 ed.). Elsevier Health Sciences. pp. 467–9. ISBN 978-0-323-23906-6.
  41. ^ Kottke-Marchant, K; Davis, B (2012). Laboratory Hematology Practice (1 ed.). John Wiley & Sons. p. 569. ISBN 978-1-4443-9857-1.
  42. ^ a b c Foong, Wai Cheng; Loh, C Khai; Ho, Jacqueline J; Lau, Doris SC (13 January 2023). Cochrane Cystic Fibrosis and Genetic Disorders Group (ed.). "Foetal haemoglobin inducers for reducing blood transfusion in non-transfusion-dependent beta-thalassaemias". Cochrane Database of Systematic Reviews. 2023 (1). doi:10.1002/14651858.CD013767.pub2. PMC 9837847. PMID 36637054.
  43. ^ a b Pediatric Thalassemia~treatment at eMedicine
  44. ^ a b c d Neufeld, EJ (2010). "Update on Iron Chelators in Thalassemia". Hematology. 2010: 451–5. doi:10.1182/asheducation-2010.1.451. PMID 21239834.
  45. ^ Fisher, Sheila A.; Brunskill, Susan J.; Doree, Carolyn; Chowdhury, Onima; Gooding, Sarah; Roberts, David J. (21 August 2013). "Oral deferiprone for iron chelation in people with thalassaemia". The Cochrane Database of Systematic Reviews (8): CD004839. doi:10.1002/14651858.CD004839.pub3. ISSN 1469-493X. PMID 23966105.
  46. ^ a b Bollig, Claudia; Schell, Lisa K.; Rücker, Gerta; Allert, Roman; Motschall, Edith; Niemeyer, Charlotte M.; Bassler, Dirk; Meerpohl, Joerg J. (15 August 2017). "Deferasirox for managing iron overload in people with thalassaemia". The Cochrane Database of Systematic Reviews. 8 (8): CD007476. doi:10.1002/14651858.CD007476.pub3. ISSN 1469-493X. PMC 6483623. PMID 28809446.
  47. ^ Sadaf, Alina; Hasan, Babar; Das, Jai K; Colan, Steven; Alvi, Najveen (12 July 2018). Cochrane Cystic Fibrosis and Genetic Disorders Group (ed.). "Calcium channel blockers for preventing cardiomyopathy due to iron overload in people with transfusion-dependent beta thalassaemia". Cochrane Database of Systematic Reviews. 2018 (7). doi:10.1002/14651858.CD011626.pub2. PMC 6513605. PMID 29998494.
  48. ^ Ngim, CF; Lai, NM; Hong, JY; Tan, SL; Ramadas, A; Muthukumarasamy, P; Thong, MK (28 May 2020). "Growth hormone therapy for people with thalassaemia". The Cochrane Database of Systematic Reviews. 2020 (5): CD012284. doi:10.1002/14651858.CD012284.pub3. PMC 7387677. PMID 32463488.
  49. ^ a b Gaziev, J; Lucarelli, G (June 2011). "Hematopoietic stem cell transplantation for thalassemia". Current Stem Cell Research & Therapy. 6 (2): 162–9. doi:10.2174/157488811795495413. PMID 21190532.
  50. ^ Sabloff, M; Chandy, M; Wang, Z; Logan, BR; Ghavamzadeh, A; Li, CK; Irfan, SM; Bredeson, CN; et al. (2011). "HLA-matched sibling bone marrow transplantation for β-thalassemia major". Blood. 117 (5): 1745–50. doi:10.1182/blood-2010-09-306829. PMC 3056598. PMID 21119108.
  51. ^ Sharma, Akshay; Jagannath, Vanitha A.; Puri, Latika (21 April 2021). "Hematopoietic stem cell transplantation for people with β-thalassaemia". The Cochrane Database of Systematic Reviews. 2021 (4): CD008708. doi:10.1002/14651858.CD008708.pub5. ISSN 1469-493X. PMC 8078520. PMID 33880750.
  52. ^ Fisher, Sheila A; Cutler, Antony; Doree, Carolyn; Brunskill, Susan J; Stanworth, Simon J; Navarrete, Cristina; Girdlestone, John (30 January 2019). Cochrane Haematological Malignancies Group (ed.). "Mesenchymal stromal cells as treatment or prophylaxis for acute or chronic graft-versus-host disease in haematopoietic stem cell transplant (HSCT) recipients with a haematological condition". Cochrane Database of Systematic Reviews. 1 (1): CD009768. doi:10.1002/14651858.CD009768.pub2. PMC 6353308. PMID 30697701.
  53. ^ Sodani, P; Isgrò, A; Gaziev, J; Paciaroni, K; Marziali, M; Simone, MD; Roveda, A; De Angelis, G; et al. (2011). "T cell-depleted hla-haploidentical stem cell transplantation in thalassemia young patients". Pediatric Reports. 3 (Suppl 2): e13. doi:10.4081/pr.2011.s2.e13. PMC 3206538. PMID 22053275.
  54. ^ Ansari, Saqib H; Lassi, Zohra S; Khowaja, Salima M; Adil, Syed Omair; Shamsi, Tahir S (16 March 2019). Cochrane Cystic Fibrosis and Genetic Disorders Group (ed.). "Hydroxyurea (hydroxycarbamide) for transfusion-dependent β-thalassaemia". Cochrane Database of Systematic Reviews. doi:10.1002/14651858.CD012064.pub2. PMC 6421980. PMID 30882896.
  55. ^ Kye Mon Min Swe (2013). "Zinc supplements for treating thalassaemia and sickle cell disease". Cochrane Database of Systematic Reviews. 2013 (6): CD009415. doi:10.1002/14651858.CD009415.pub2. PMID 23807756.
  56. ^ Mulimani, Priti; Abas, Adinegara BL; Karanth, Laxminarayan; Colombatti, Raffaella; Kulkarni, Palna (2 August 2019). Cochrane Cystic Fibrosis and Genetic Disorders Group (ed.). "Treatment of dental and orthodontic complications in thalassaemia". Cochrane Database of Systematic Reviews. doi:10.1002/14651858.CD012969.pub2. PMC 6699676. PMID 31425614.
  57. ^ a b Bhardwaj, Amit; Swe, Kye Mon Min; Sinha, Nirmal K.; Osunkwo, Ifeyinwa (10 March 2016). "Treatment for osteoporosis in people with ß-thalassaemia". The Cochrane Database of Systematic Reviews. 3: CD010429. doi:10.1002/14651858.CD010429.pub2. ISSN 1469-493X. PMID 26964506.
  58. ^ a b c Mulimani, Priti; Abas, Adinegara BL; Karanth, Laxminarayan; Colombatti, Raffaella; Kulkarni, Palna (2 February 2023). Cochrane Cystic Fibrosis and Genetic Disorders Group (ed.). "Treatment of dental and orthodontic complications in thalassaemia". Cochrane Database of Systematic Reviews. 2023 (2). doi:10.1002/14651858.CD012969.pub3. PMC 9893875. PMID 36732291.
  59. ^ Burdick CO; Ntaios, G.; Rathod, D. (March 2009). . Am. J. Clin. Pathol. 131 (3): 444, author reply 445. doi:10.1309/AJCPC09VRAXEASMH. PMID 19228649. Archived from the original on 22 September 2014.
  60. ^ Harrison's Principles of Internal Medicine (17th ed.). McGraw-Hill medical. September 2008. p. 776. ISBN 978-0-07-164114-2.
  61. ^ "Carrier Screening in the Age of Genomic Medicine – ACOG". www.acog.org. from the original on 25 February 2017. Retrieved 24 February 2017.
  62. ^ Leung TN; Lau TK; Chung TKh (April 2005). "Thalassaemia screening in pregnancy". Current Opinion in Obstetrics and Gynecology. 17 (2): 129–34. doi:10.1097/01.gco.0000162180.22984.a3. PMID 15758603. S2CID 41877258.
  63. ^ Loukopoulos, D (October 2011). "Haemoglobinopathies in Greece: prevention programme over the past 35 years". The Indian Journal of Medical Research. 134 (4): 572–6. PMC 3237258. PMID 22089622.
  64. ^ Samavat A, Modell B (November 2004). "Iranian national thalassaemia screening programme". BMJ (Clinical Research Ed.). 329 (7475): 1134–7. doi:10.1136/bmj.329.7475.1134. PMC 527686. PMID 15539666.
  65. ^ Petrou, Mary (1 January 2010). "Screening for beta thalassaemia". Indian Journal of Human Genetics. 16 (1): 1–5. doi:10.4103/0971-6866.64934. PMC 2927788. PMID 20838484.[permanent dead link]
  66. ^ a b Greer, John P.; Arber, Daniel A.; Glader, Bertil; List, Alan F.; Means, Jr., Robert T.; Paraskevas, Frixos; Rodgers, George M.; Foerster, John (2013). Wintrobe's Clinical Hematology. ISBN 9781451172683.
  67. ^ Waheed, Fazeela; Fishter, Colleen; Awofeso, AwoNiyi; Stanley, David (July 2016). "Carrier screening for beta-thalassemia in the Maldives: perceptions of parents of affected children who did not take part in screening and its consequences". Journal of Community Genetics. 7 (3): 243–253. doi:10.1007/s12687-016-0273-5. PMC 4960032. PMID 27393346.
  68. ^ Modiano, G.; Morpurgo, G; Terrenato, L; Novelletto, A; Di Rienzo, A; Colombo, B; Purpura, M; Mariani, M; et al. (1991). "Protection against malaria morbidity: Near-fixation of the α-thalassemia gene in a Nepalese population". American Journal of Human Genetics. 48 (2): 390–7. PMC 1683029. PMID 1990845.
  69. ^ Terrenato, L; Shrestha, S; Dixit, KA; Luzzatto, L; Modiano, G; Morpurgo, G; Arese, P (February 1988). "Decreased malaria morbidity in the Tharu people compared to sympatric populations in Nepal". Annals of Tropical Medicine and Parasitology. 82 (1): 1–11. doi:10.1080/00034983.1988.11812202. PMID 3041928.
  70. ^ E. Goljan, Pathology, 2nd ed. Mosby Elsevier, Rapid Review Series.[page needed]
  71. ^ (in Thai). Department of Medical Sciences. September 2011. Archived from the original on 25 September 2011.
  72. ^ Galanello, Renzo; Origa, Raffaella (2010). "Beta-thalassemia". Orphanet Journal of Rare Diseases. 5 (1): 11. doi:10.1186/1750-1172-5-11. PMC 2893117. PMID 20492708.
  73. ^ Galanello, Renzo; Origa, Raffaella (2010). "Beta-thalassemia". Orphanet Journal of Rare Diseases. 5 (1): 11. doi:10.1186/1750-1172-5-11. PMC 2893117. PMID 20492708.
  74. ^ Vichinsky, Elliott P. (1 November 2005). "Changing Patterns of Thalassemia Worldwide". Annals of the New York Academy of Sciences. 1054 (1): 18–24. Bibcode:2005NYASA1054...18V. doi:10.1196/annals.1345.003. ISSN 1749-6632. PMID 16339647. S2CID 26329509.
  75. ^ a b Weatherall, David J. (November 2005). "Keynote Address: The Challenge of Thalassemia for the Developing Countries". Annals of the New York Academy of Sciences. 1054 (1): 11–17. Bibcode:2005NYASA1054...11W. doi:10.1196/annals.1345.002. PMID 16339646. S2CID 45770891.
  76. ^ θάλασσα. Liddell, Henry George; Scott, Robert; A Greek–English Lexicon at the Perseus Project.
  77. ^ αἷμα in Liddell and Scott.
  78. ^ Whipple, GH; Bradford, WI (1932). "Racial or Familial Anemia of Children Associated With Fundamental Disturbances of Bone and Pigment Metabolism (Cooley-Von Jaksch)". American Journal of Diseases of Children. 44: 336–365. doi:10.1001/archpedi.1932.01950090074009.
  79. ^ a b Negre, Olivier; Eggimann, Anne-Virginie; Beuzard, Yves; Ribeil, Jean-Antoine; Bourget, Philippe; Borwornpinyo, Suparerk; Hongeng, Suradej; Hacein-Bey, Salima; Cavazzana, Marina; Leboulch, Philippe; Payen, Emmanuel (February 2016). "Gene Therapy of the β-Hemoglobinopathies by Lentiviral Transfer of the β – Gene". Human Gene Therapy. 27 (2): 148–165. doi:10.1089/hum.2016.007. PMC 4779296. PMID 26886832.
  80. ^ Biffi, A (19 April 2018). "Gene Therapy as a Curative Option for β-Thalassemia". The New England Journal of Medicine. 378 (16): 1551–1552. doi:10.1056/NEJMe1802169. PMID 29669229.
  81. ^ Lidonnici, MR; Ferrari, G (May 2018). "Gene therapy and gene editing strategies for hemoglobinopathies". Blood Cells, Molecules & Diseases. 70: 87–101. doi:10.1016/j.bcmd.2017.12.001. PMID 29336892.
  82. ^ a b Wienert, B; Martyn, GE; Funnell, APW; Quinlan, KGR; Crossley, M (1 October 2018). "Wake-up Sleepy Gene: Reactivating Fetal Globin for β-Hemoglobinopathies". Trends in Genetics. 34 (12): 927–940. doi:10.1016/j.tig.2018.09.004. PMID 30287096. S2CID 52921922.

External links

  • Thalassemia at Curlie
  • Learning About Thalassemia published by the National Human Genome Research Institute.

May 12, 2023
thalassemia, inherited, blood, disorders, that, result, abnormal, hemoglobin, symptoms, depend, type, thalassemia, vary, from, none, severe, often, there, mild, severe, anemia, blood, cells, hemoglobin, thalassemia, affect, production, blood, cells, also, affe. Thalassemias are inherited blood disorders that result in abnormal hemoglobin 7 Symptoms depend on the type of thalassemia and can vary from none to severe 1 Often there is mild to severe anemia low red blood cells or hemoglobin as thalassemia can affect the production of red blood cells and also affect how long the red blood cells live 1 Symptoms of anemia include feeling tired and having pale skin 1 Other symptoms of thalassemia include bone problems an enlarged spleen yellowish skin pulmonary hypertension and dark urine 1 Slow growth may occur in children 1 Symptoms and presentations of thalassemia can change over time ThalassemiaOther namesThalassaemia Mediterranean anemiaPeripheral blood film from a person with delta beta thalassemiaPronunciation 8 ae l ɪ ˈ s iː m i e SpecialtyHematologySymptomsFeeling tired pale skin enlarged spleen yellowish skin dark urine 1 CausesGenetic autosomal recessive 2 Diagnostic methodBlood tests genetic tests 3 TreatmentBlood transfusions iron chelation folic acid 4 Frequency280 million 2015 5 Deaths16 800 2015 6 Thalassemias are genetic disorders 2 There are two main types alpha thalassemia and beta thalassemia 7 The severity of alpha and beta thalassemia depends on how many of the four genes for alpha globin or two genes for beta globin are missing 2 Diagnosis is typically by blood tests including a complete blood count special hemoglobin tests and genetic tests 3 Diagnosis may occur before birth through prenatal testing 8 Treatment depends on the type and severity 4 Treatment for those with more severe disease often includes regular blood transfusions iron chelation and folic acid 4 Iron chelation may be done with deferoxamine deferasirox or deferiprone 4 9 Occasionally a bone marrow transplant may be an option 4 Complications may include iron overload from the transfusions with resulting heart or liver disease infections and osteoporosis 1 If the spleen becomes overly enlarged surgical removal may be required 1 Thalassemia patients who do not respond well to blood transfusions can take hydroxyurea or thalidomide and sometimes a combination of both 10 Hydroxyurea is the only FDA approved drug for thalassemia Patients who took 10 mg kg of hydroxyurea every day for a year had significantly higher hemoglobin levels and it was a well tolerated treatment for patients who did not respond well to blood transfusions 11 Another hemoglobin inducer includes thalidomide although it has not been tested in a clinical setting The combination of thalidomide and hydroxyurea resulted in hemoglobin levels increasing significantly in transfusion dependent and non transfusion dependent patients 12 As of 2015 thalassemia occurs in about 280 million people with about 439 000 having severe disease 13 It is most common among people of Greek Italian Middle Eastern South Asian and African descent 7 Males and females have similar rates of disease 14 It resulted in 16 800 deaths in 2015 down from 36 000 deaths in 1990 6 15 Those who have minor degrees of thalassemia similar to those with sickle cell trait have some protection against malaria explaining why they are more common in regions of the world where malaria exists 16 An estimated 1 3 of people with thalassemia have non transfusion dependent thalassemia and do not depend on blood transfusions to maintain their survival Contents 1 Signs and symptoms 2 Hemoglobin structural biology 3 Cause 3 1 Evolution 4 Pathophysiology 4 1 Alpha thalassemias 4 2 Beta thalassemia 4 3 Delta thalassemia 4 4 Combination hemoglobinopathies 5 Diagnosis 6 Management 6 1 Red blood cell transfusions 6 2 Growth hormone therapy 6 3 Bone marrow transplantation 6 4 Other treatments 6 5 Dental care 6 6 Mild thalassemia 7 Prevention 8 Epidemiology 9 Etymology and synonym 10 Research 10 1 Gene therapy 10 2 HbF induction 11 References 12 External linksSigns and symptoms Edit Left Hand of a person with severe anemia Right Hand of a person without anemia A patient having thalassemia shows enlarged spleen Iron overload People with thalassemia can get an overload of iron in their bodies either from the disease itself or from frequent blood transfusions Too much iron can result in damage to the heart liver and endocrine system which includes glands that produce hormones that regulate processes throughout the body The damage is characterized by excessive deposits of iron Without adequate iron chelation therapy almost all patients with beta thalassemia accumulate potentially fatal iron levels 17 Infection People with thalassemia have an increased risk of infection This is especially true if the spleen has been removed 18 Bone deformities Thalassemia can make the bone marrow expand which causes bones to widen This can result in abnormal bone structure especially in the face and skull Bone marrow expansion also makes bones thin and brittle increasing the risk of broken bones 19 Enlarged spleen The spleen aids in fighting infection and filters unwanted material such as old or damaged blood cells Thalassemia is often accompanied by the destruction of a large number of red blood cells and the task of removing these cells causes the spleen to enlarge Splenomegaly can make anemia worse and it can reduce the life of transfused red blood cells Severe enlargement of the spleen may necessitate its removal 20 Slowed growth rates anemia can cause the growth of a child to slow down Puberty may also be delayed in children with thalassemia 21 Heart problems Diseases such as congestive heart failure and abnormal heart rhythms may be associated with severe thalassemia 22 Hemoglobin structural biology EditNormal human hemoglobins are tetrameric proteins composed of two pairs of globin chains each of which contains one alpha like a like chain and one beta like b like chain Each globin chain is associated with an iron containing heme moiety Throughout life the synthesis of the alpha like and the beta like also called non alpha like chains is balanced so that their ratio is relatively constant and there is no excess of either type 23 The specific alpha and beta like chains that are incorporated into Hb are highly regulated during development Embryonic Hbs are expressed as early as four to six weeks of embryogenesis and disappear around the eighth week of gestation as they are replaced by fetal Hb 24 25 Embryonic Hbs include Hb Gower 1 composed of two z globins zeta globins and two e globins epsilon globins z2e2 Hb Gower 2 composed of two alpha globins and two epsilon globins a2e2 Hb Portland composed of two zeta globins and two gamma globins z2g2 Fetal Hb Hb F is produced from approximately eight weeks of gestation through birth and constitutes approximately 80 percent of Hb in the full term neonate It declines during the first few months of life and in the normal state constitutes lt 1 percent of total Hb by early childhood Hb F is composed of two alpha globins and two gamma globins a2g2 Adult Hb Hb A is the predominant Hb in children by six months of age and onward it constitutes 96 97 of total Hb in individuals without a hemoglobinopathy It is composed of two alpha globins and two beta globins a2b2 citation needed Hb A2 is a minor adult Hb that normally accounts for approximately 2 5 3 5 of total Hb from six months of age onward It is composed of two alpha globins and two delta globins a2d2 citation needed Cause Edit Thalassemia has an autosomal recessive pattern of inheritance Both a and b thalassemias are often inherited in an autosomal recessive manner Cases of dominantly inherited a and b thalassemias have been reported the first of which was in an Irish family with two deletions of 4 and 11 bp in exon 3 interrupted by an insertion of 5 bp in the b globin gene For the autosomal recessive forms of the disease both parents must be carriers for a child to be affected If both parents carry a hemoglobinopathy trait the risk is 25 for each pregnancy for an affected child 26 The genes involved in thalassemia control the production of healthy hemoglobin Hemoglobin binds oxygen in the lungs and releases it when the red cells reach peripheral tissues such as the liver The binding and release of oxygen by hemoglobin are essential for survival citation needed Evolution Edit Having a single genetic variant for thalassemia may protect against malaria and thus can be an advantage 27 People diagnosed with heterozygous carrier b thalassemia have some protection against coronary heart disease 28 Pathophysiology EditNormally the majority of adult hemoglobin HbA is composed of four protein chains two a and two b globin chains arranged into a heterotetramer In thalassemia patients have defects in either the a or b globin chain causing production of abnormal red blood cells citation needed The thalassemias are classified according to which chain of the hemoglobin molecule is affected In a thalassemias production of the a globin chain is affected while in b thalassemia production of the b globin chain is affected 29 The b globin chains are encoded by a single gene on chromosome 11 a globin chains are encoded by two closely linked genes on chromosome 16 30 Thus in a normal person with two copies of each chromosome two loci encode the b chain and four loci encode the a chain Deletion of one of the a loci has a high prevalence in people of African or Asian descent making them more likely to develop a thalassemia b Thalassemias are not only common in Africans but also in Greeks and Turks citation needed Alpha thalassemias Edit Main article Alpha thalassemia The a thalassemias involve the genes HBA1 31 and HBA2 32 inherited in a Mendelian recessive fashion Two gene loci and so four alleles exist Two genetic loci exist for a globin thus four alleles are in diploid cells Two alleles are maternal and two alleles are paternal in origin The severity of the a thalassemias is correlated with the number of affected a globin alleles the greater the more severe will be the manifestations of the disease 33 Alpha thalassemias result in decreased alpha globin production therefore fewer alpha globin chains are produced resulting in an excess of b chains in adults and excess g chains in newborns The excess b chains form unstable tetramers called hemoglobin H or HbH of 4 beta chains which have abnormal oxygen dissociation curves Alpha thalassemias often are found in people from Southeast Asia the Middle East China and in those of African descent 34 of missing alleles Types of alpha thalassemia 33 Symptoms1 Silent carrier No symptoms2 Alpha thalassemia trait Minor anemia3 Hemoglobin H disease Mild to moderate anemia may lead normal life4 Hydrops fetalis Death usually occurs in utero or at birthBeta thalassemia Edit Main article Beta thalassemia Beta thalassemias are due to mutations in the HBB gene on chromosome 11 35 also inherited in an autosomal recessive fashion The severity of the disease depends on the nature of the mutation and on the presence of mutations in one or both alleles Mutated alleles are called b when partial function is conserved either the protein has a reduced function or it functions normally but is produced in reduced quantity or bo when no functioning protein is produced The situation of both alleles determines the clinical picture b thalassemia major Mediterranean anemia or Cooley anemia is caused by a bo bo genotype No functional b chains are produced and thus no hemoglobin A can be assembled This is the most severe form of b thalassemia b thalassemia intermedia is caused by a b bo or b b genotype In this form some hemoglobin A is produced b thalassemia minor is caused by a b bo or b b genotype Only one of the two b globin alleles contains a mutation so b chain production is not terribly compromised and patients may be relatively asymptomatic Beta thalassemia most often occurs in people of Mediterranean origin To a lesser extent Chinese other Asians and African Americans can be affected 34 Delta thalassemia Edit Main article Delta thalassemia As well as alpha and beta chains present in hemoglobin about 3 of adult hemoglobin is made of alpha and delta chains Just as with beta thalassemia mutations that affect the ability of this gene to produce delta chains can occur 36 37 Combination hemoglobinopathies Edit Thalassemia can coexist with other hemoglobinopathies The most common of these are Hemoglobin E thalassemia common in Cambodia Thailand and parts of India it is clinically similar to b thalassemia major or thalassemia intermedia citation needed Hemoglobin S thalassemia common in African and Mediterranean populations it is clinically similar to sickle cell anemia with the additional feature of splenomegaly citation needed Hemoglobin C thalassemia common in Mediterranean and African populations hemoglobin C bo thalassemia causes a moderately severe hemolytic anemia with splenomegaly hemoglobin C b thalassemia produces a milder disease citation needed Hemoglobin D thalassemia common in the northwestern parts of India and Pakistan Punjab region 38 Diagnosis EditThalassemia can be diagnosed via a complete blood count hemoglobin electrophoresis or high performance liquid chromatography and DNA testing 39 40 Hemoglobin electrophoresis is not widely available in developing countries but the Mentzer index can also be used for diagnosis of thalassemia it is not a definitive test but it can suggest the possibility of thalassemia The Mentzer index can be calculated from a complete blood count report 41 Management EditMain article Management of thalassemia Given the range of severities some people require no treatment those who are asymptomatic while some people require regular blood transfusions for survival 42 People with severe thalassemia require medical treatment and the main treatment is usually a red blood cell transfusion Red blood cell transfusions Edit Blood transfusions are the main treatment approach for prolonging life 43 The approach and frequency needed varies in each person depending on severity age if the person has stunted growth presence of extramedullary erythropoiesis pediatrics if a person is pregnant and heart health Blood transfusions come with risks including making iron overload worse the risk of infections risk of red blood cell antibody formation increased risk of the development of hypersensitivity reactions and the risk of gall bladder inflammation cholecystitis 42 Multiple blood transfusions may result in iron overload The iron overload related to thalassemia may be treated by chelation therapy with the medications deferoxamine deferiprone or deferasirox 44 45 46 These treatments have resulted in longer life expectancy for those with thalassemia major 44 Deferoxamine is only effective as a daily injection complicating its long term use However it is inexpensive and safe Adverse effects include primary skin reactions around the injection site and hearing loss 44 Deferasirox and deferiprone are both oral medications whose common side effects include nausea vomiting and diarrhea When comparing effectiveness there is no evidence that deferasirox or deferiprone is superior however a long term comparison has not been performed 46 Deferasirox is not effective for all patients and may not be suitable for those with significant cardiac issues related to iron overload while deferiprone appears to be the most effective agent when the heart is involved Furthermore the cost of deferasirox is also significant 44 Combining calcium channel blocker medications with iron chelation therapy is under study however the benefits are not clear from clinical trials conducted 47 Growth hormone therapy Edit There is some evidence that growth hormone replacement therapy may help to increase the rate at which children with thalassemia grow taller 48 Bone marrow transplantation Edit Bone marrow transplantation may offer the possibility of a cure in young people who have an HLA matched donor 49 Success rates have reached the 80 90 range 49 Mortality from the procedure is about 3 50 There are no randomized controlled trials that have tested the safety and efficacy of non identical donor bone marrow transplantation in persons with b thalassemia who are dependent on blood transfusion 51 Graft versus host diseases GvHD are one relevant side effect of bone marrow transplantation Further research is necessary to evaluate whether mesenchymal stromal cells can be used as prophylaxis or treatment for GvHD 52 If the person does not have an HLA matched compatible donor bone marrow transplantation from haploidentical mother to child mismatched donor may be attempted In a study of 31 people the thalassemia free survival rate was 70 rejection 23 and mortality 7 The most positive results tend to occur with very young people 53 Other treatments Edit Many treatments are being investigated with the goal of reducing the number of blood transfusions that a person requires Foetal haemoglobin HbF inducer medications have been trialed with the goal of increasing hemoglobin and decreasing the person s reliance of a blood transfusion however the benefits are not clear and early results do not show a clinically meaningful benefit 42 Hydroxyurea treatment with the goal of reactivating gamma genes to produce HbF also does not have any high quality evidence supporting its effectiveness 54 There is no evidence from randomized controlled trials to support zinc supplementation for those with thalassemia 55 Computer programs or mobile applications have been suggested as tools to help people manage thalassemia and follow their therapies including iron chelation therapy The effectiveness of these applications has not been well investigated 56 People with thalassemia are at a higher risk of osteoporosis 57 Treatment options include bisphosphonates and sometimes the addition of hormonal therapy Other treatments have been suggested including calcitonin zinc hydroxyurea and calcium supplementation The effectiveness of bisphosphonates and zinc is not clear and further studies are required 57 Dental care Edit Helping people with thalassemia with dental care and treating dental problems can be challenging due to the underlying condition Overload of iron due to blood transfusions may lead to iron deposition in the teeth and discolouration and there is an increased risk for infection 58 Treatment options for people with thalassemia need to be modified to ensure that the needs of the person are considered and early detection and early management of any problems is strongly suggested in order to reduce the risk of the person needing more complicated dental treatments 58 The evidence supporting the effectiveness of dental treatments on people with thalassemia is weak and higher quality clinical trials are needed 58 Mild thalassemia Edit People with thalassemia traits do not require medical or follow up care after the initial diagnosis is made 43 People with b thalassemia trait should be warned that their condition can be misdiagnosed as the more common iron deficiency anemia They should avoid routine use of iron supplements but iron deficiency may develop during pregnancy or from chronic bleeding 59 Genetic counseling is indicated for all persons with genetic disorders especially when the family is at risk of a severe form of disease that may be prevented 60 Prevention EditThe American College of Obstetricians and Gynecologists recommends all people thinking of becoming pregnant be tested to see if they have thalassemia 61 Genetic counseling and genetic testing are recommended for families who carry a thalassemia trait 26 Understanding the genetic risk ideally before a family is started would hopefully allow families to understand more about the condition and make an informed decision that is best for their family 26 A screening policy exists in Cyprus to reduce the rate of thalassemia which since the program s implementation in the 1970s also including prenatal screening and abortion has reduced the number of children born with the disease from one of every 158 births to almost zero 62 Greece also has a screening program to identify people who are carriers 63 In Iran as a premarital screening the man s red cell indices are checked first If he has microcytosis mean cell hemoglobin lt 27 pg or mean red cell volume lt 80 fl the woman is tested When both are microcytic their hemoglobin A2 concentrations are measured If both have a concentration above 3 5 diagnostic of thalassemia trait they are referred to the local designated health post for genetic counseling 64 Large scale awareness campaigns are being organized in India 65 both by government and non government organizations to promote voluntary premarital screening with marriage between carriers strongly discouraged Epidemiology EditThe beta form of thalassemia is particularly prevalent among Mediterranean peoples and this geographical association is responsible for its original name 66 Thalassemia resulted in 25 000 deaths in 2013 down from 36 000 deaths in 1990 15 In Europe the highest concentrations of the disease are found in Greece coastal regions in Turkey particularly the Aegean Region such as Izmir Balikesir Aydin Mugla and Mediterranean Region such as Antalya Adana Mersin in southern Spain in parts of Italy particularly southern Italy With the exception of the Balearics the major Mediterranean Islands such as Sicily Sardinia Malta Corsica Cyprus and Crete are heavily affected Other Mediterranean peoples as well as those in the vicinity of the Mediterranean also have high rates of thalassemia including people from North Africa and West Asia Far from the Mediterranean South Asians are also affected with the world s highest concentration of carriers 16 18 of the population in the Maldives 67 The disease is also found in populations living in Africa the Americas and in Tharu people in the Terai region of Nepal and India 68 It is believed to account for much lower rates of malaria illnesses and deaths 69 accounting for the historic ability of Tharus to survive in areas with heavy malaria infestation while others could not Thalassemias are particularly associated with people of Mediterranean origin Arabs especially Palestinians and people of Palestinian descent and Asians 70 The estimated prevalence is 16 in people from Cyprus 1 71 in Thailand and 3 8 in populations from Bangladesh China India Malaysia and Pakistan Estimates suggest that approximately 1 5 of the global population 80 90 million people are b thalassemia carriers 72 However exact data on carrier rates in many populations are lacking particularly in developing areas of the world known or expected to be heavily affected 73 74 Because of the prevalence of the disease in countries with little knowledge of thalassemia access to proper treatment and diagnosis can be difficult 75 While there are some diagnostic and treatment facilities in developing countries in most cases these are not provided by government services and are available only to patients who can afford them In general poorer populations only have access to limited diagnostic facilities and blood transfusions In some developing countries there are virtually no facilities for diagnosis or management of thalassemia 75 Etymology and synonym EditThe word thalassemia 8 ae l ɪ ˈ s iː m i e derives from the Greek thalassa 8alassa sea 76 and Neo Latin emia from the Greek compound stem aimia aimia from haima aἷma blood 77 It was coined because the condition called Mediterranean anemia was first described in people of Mediterranean ethnicities Mediterranean anemia was renamed thalassemia major once the genetics were better understood The word thalassemia was first used in 1932 66 877 78 Research EditGene therapy Edit Gene therapy is being studied for thalassemia 79 The procedure involves collecting hematopoietic stem cells HSCs from the affected person s blood The HSCs then have a beta globin gene added using a lentiviral vector After destroying the affected person s bone marrow with a dose of chemotherapy a myeloablative conditioning regimen the altered HSCs are infused back into the affected person where they become engrafted in the bone marrow where they proliferate This potentially results in a progressive increase in hemoglobin A2 synthesis in all subsequent developing red blood cells with resultant resolution of the anemia 80 While one person with beta thalassemia has no longer required blood transfusions following treatment within a research trial it is not an approved treatment as of 2018 79 81 HbF induction Edit HbF induction is an attempt to reactivate fetal globin gene transcription 82 Efforts involve trying to disrupt the fetal globin gene promoter 82 References Edit a b c d e f g h What Are the Signs and Symptoms of Thalassemias NHLBI 3 July 2012 Archived from the original on 16 September 2016 Retrieved 5 September 2016 a b c What Causes Thalassemias NHLBI 3 July 2012 Archived from the original on 26 August 2016 Retrieved 5 September 2016 a b How Are Thalassemias Diagnosed NHLBI 3 July 2012 Archived from the original on 16 September 2016 Retrieved 5 September 2016 a b c d e How Are Thalassemias Treated NHLBI 3 July 2012 Archived from the original on 16 September 2016 Retrieved 5 September 2016 GBD 2015 Disease and Injury Incidence and Prevalence 8 October 2016 Global regional and national incidence prevalence and years lived with disability for 310 diseases and injuries 1990 2015 a systematic analysis for the Global Burden of Disease Study 2015 Lancet 388 10053 1545 1602 doi 10 1016 S0140 6736 16 31678 6 PMC 5055577 PMID 27733282 a b GBD 2015 Mortality and Causes of Death 8 October 2016 Global regional and national life expectancy all cause mortality and cause specific mortality for 249 causes of death 1980 2015 a systematic analysis for the Global Burden of Disease Study 2015 Lancet 388 10053 1459 1544 doi 10 1016 s0140 6736 16 31012 1 PMC 5388903 PMID 27733281 a b c What Are Thalassemias NHLBI 3 July 2012 Archived from the original on 26 August 2016 Retrieved 5 September 2016 How Can Thalassemias Be Prevented NHLBI 3 July 2012 Archived from the original on 16 September 2016 Retrieved 5 September 2016 Iron Chelation Retrieved 15 July 2020 Shah Sandip Sheth Radhika Shah Kamlesh Patel Kinnari February 2020 Safety and effectiveness of thalidomide and hydroxyurea combination in b thalassaemia intermedia and major a retrospective pilot study British Journal of Haematology 188 3 e18 e21 doi 10 1111 bjh 16272 ISSN 0007 1048 PMID 31710694 S2CID 207940189 Keikhaei Bijan 2015 Clinical and Haematological Effects of Hydroxyurea in b Thalassemia Intermedia Patients Journal of Clinical and Diagnostic Research 9 10 OM01 3 doi 10 7860 JCDR 2015 14807 6660 PMC 4625280 PMID 26557561 Masera Nicoletta Tavecchia Luisa Capra Marietta Cazzaniga Giovanni Vimercati Chiara Pozzi Lorena Biondi Andrea Masera Giuseppe 2010 Optimal response to thalidomide in a patient with thalassaemia major resistant to conventional therapy Blood Transfusion 8 1 63 5 doi 10 2450 2009 0102 09 ISSN 1723 2007 PMC 2809513 PMID 20104280 Global Burden of Disease Study 2013 22 August 2015 Global regional and national incidence prevalence and years lived with disability for 301 acute and chronic diseases and injuries in 188 countries 1990 2013 a systematic analysis for the Global Burden of Disease Study 2013 Lancet 386 9995 743 800 doi 10 1016 s0140 6736 15 60692 4 PMC 4561509 PMID 26063472 Clin Methods in Ped Jaypee Brothers Publishers 2005 p 21 ISBN 9788171798087 permanent dead link a b GBD 2013 Mortality and Causes of Death 17 December 2014 Global regional and national age sex specific all cause and cause specific mortality for 240 causes of death 1990 2013 a systematic analysis for the Global Burden of Disease Study 2013 The Lancet 385 9963 117 71 doi 10 1016 S0140 6736 14 61682 2 hdl 11655 15525 PMC 4340604 PMID 25530442 Weatherall D J 2015 The Thalassemias Disorders of Globin Synthesis Williams Hematology 9th ed McGraw Hill Professional p 725 ISBN 9780071833011 Cianciulli P October 2008 Treatment of iron overload in thalassemia Pediatr Endocrinol Rev 6 Suppl 1 208 13 PMID 19337180 Thalassemia Symptoms and causes Mayo Clinic Archived from the original on 20 November 2016 Retrieved 4 April 2017 Vogiatzi Maria G Macklin Eric A Fung Ellen B Cheung Angela M Vichinsky Elliot Olivieri Nancy Kirby Melanie Kwiatkowski Janet L Cunningham Melody Holm Ingrid A Lane Joseph Schneider Robert Fleisher Martin Grady Robert W Peterson Charles C Giardina Patricia J March 2009 Bone Disease in Thalassemia A Frequent and Still Unresolved Problem Journal of Bone and Mineral Research 24 3 543 557 doi 10 1359 jbmr 080505 ISSN 0884 0431 PMC 3276604 PMID 18505376 Symptoms and causes Enlarged spleen splenomegaly Mayo Clinic www mayoclinic org Archived from the original on 19 November 2016 Retrieved 2 February 2017 Soliman Ashraf T Kalra Sanjay De Sanctis Vincenzo 1 November 2014 Anemia and growth Indian Journal of Endocrinology and Metabolism 18 7 S1 5 doi 10 4103 2230 8210 145038 PMC 4266864 PMID 25538873 Thalassemia Complications Thalassemia Open Publishing Archived from the original on 3 October 2011 Retrieved 27 September 2011 Weatherall DJ The New Genetics and Clinical Practice Oxford University Press Oxford 1991 Huisman TH The structure and function of normal and abnormal haemoglobins In Bailliere s Clinical Haematology Higgs DR Weatherall DJ Eds W B Saunders London 1993 p 1 Natarajan K Townes TM Kutlar A Disorders of hemoglobin structure sickle cell anemia and related abnormalities In Williams Hematology 8th ed Kaushansky K Lichtman MA Beutler E et al Eds McGraw Hill 2010 p ch 48 a b c Hussein Norita Henneman Lidewij Kai Joe Qureshi Nadeem 11 October 2021 Cochrane Cystic Fibrosis and Genetic Disorders Group ed Preconception risk assessment for thalassaemia sickle cell disease cystic fibrosis and Tay Sachs disease Cochrane Database of Systematic Reviews 2021 10 doi 10 1002 14651858 CD010849 pub4 PMC 8504980 PMID 34634131 Wambua S Mwangi Tabitha W Kortok Moses Uyoga Sophie M Macharia Alex W Mwacharo Jedidah K Weatherall David J Snow Robert W Marsh Kevin Williams Thomas N May 2006 The Effect of a Thalassaemia on the Incidence of Malaria and Other Diseases in Children Living on the Coast of Kenya PLOS Medicine 3 5 e158 doi 10 1371 journal pmed 0030158 PMC 1435778 PMID 16605300 Tassiopoulos S Deftereos Spyros Konstantopoulos Kostas Farmakis Dimitris Tsironi Maria Kyriakidis Michalis Aessopos Athanassios 2005 Does heterozygous beta thalassemia confer a protection against coronary artery disease Annals of the New York Academy of Sciences 1054 467 70 doi 10 1196 annals 1345 068 PMID 16339699 S2CID 71993591 Herbert l Muncie Jr Campbell James S 15 August 2009 Alpha and Beta Thalassemia American Family Physician 80 4 339 344 PMID 19678601 Robbins Basic Pathology Page No 428 Online Mendelian Inheritance in Man OMIM Hemoglobin Alpha locus 1 HBA1 141800 Online Mendelian Inheritance in Man OMIM Hemoglobin Alpha locus 2 HBA2 141850 a b Galanello Renzo Cao Antonio 5 January 2011 Alpha thalassemia Genetics in Medicine 13 2 83 88 doi 10 1097 GIM 0b013e3181fcb468 ISSN 1098 3600 PMID 21381239 a b The Basics of Anemia WebMD Retrieved 9 May 2019 Online Mendelian Inheritance in Man OMIM Hemoglobin Beta Locus HBB 141900 Delta beta thalassemia Orphanet Orphanet Retrieved 16 September 2016 HBD hemoglobin subunit delta Orphanet Orphanet Retrieved 17 September 2016 Torres Lde S March 2015 Hemoglobin D Punjab origin distribution and laboratory diagnosis Revista Brasileira de Hematologia e Hemoterapia 37 2 120 126 doi 10 1016 j bjhh 2015 02 007 PMC 4382585 PMID 25818823 How Are Thalassemias Diagnosed NHLBI NIH www nhlbi nih gov Archived from the original on 28 July 2017 Retrieved 6 September 2017 Keohane E Smith L Walenga J 2015 Rodak s Hematology Clinical Principles and Applications 5 ed Elsevier Health Sciences pp 467 9 ISBN 978 0 323 23906 6 Kottke Marchant K Davis B 2012 Laboratory Hematology Practice 1 ed John Wiley amp Sons p 569 ISBN 978 1 4443 9857 1 a b c Foong Wai Cheng Loh C Khai Ho Jacqueline J Lau Doris SC 13 January 2023 Cochrane Cystic Fibrosis and Genetic Disorders Group ed Foetal haemoglobin inducers for reducing blood transfusion in non transfusion dependent beta thalassaemias Cochrane Database of Systematic Reviews 2023 1 doi 10 1002 14651858 CD013767 pub2 PMC 9837847 PMID 36637054 a b Pediatric Thalassemia treatment at eMedicine a b c d Neufeld EJ 2010 Update on Iron Chelators in Thalassemia Hematology 2010 451 5 doi 10 1182 asheducation 2010 1 451 PMID 21239834 Fisher Sheila A Brunskill Susan J Doree Carolyn Chowdhury Onima Gooding Sarah Roberts David J 21 August 2013 Oral deferiprone for iron chelation in people with thalassaemia The Cochrane Database of Systematic Reviews 8 CD004839 doi 10 1002 14651858 CD004839 pub3 ISSN 1469 493X PMID 23966105 a b Bollig Claudia Schell Lisa K Rucker Gerta Allert Roman Motschall Edith Niemeyer Charlotte M Bassler Dirk Meerpohl Joerg J 15 August 2017 Deferasirox for managing iron overload in people with thalassaemia The Cochrane Database of Systematic Reviews 8 8 CD007476 doi 10 1002 14651858 CD007476 pub3 ISSN 1469 493X PMC 6483623 PMID 28809446 Sadaf Alina Hasan Babar Das Jai K Colan Steven Alvi Najveen 12 July 2018 Cochrane Cystic Fibrosis and Genetic Disorders Group ed Calcium channel blockers for preventing cardiomyopathy due to iron overload in people with transfusion dependent beta thalassaemia Cochrane Database of Systematic Reviews 2018 7 doi 10 1002 14651858 CD011626 pub2 PMC 6513605 PMID 29998494 Ngim CF Lai NM Hong JY Tan SL Ramadas A Muthukumarasamy P Thong MK 28 May 2020 Growth hormone therapy for people with thalassaemia The Cochrane Database of Systematic Reviews 2020 5 CD012284 doi 10 1002 14651858 CD012284 pub3 PMC 7387677 PMID 32463488 a b Gaziev J Lucarelli G June 2011 Hematopoietic stem cell transplantation for thalassemia Current Stem Cell Research amp Therapy 6 2 162 9 doi 10 2174 157488811795495413 PMID 21190532 Sabloff M Chandy M Wang Z Logan BR Ghavamzadeh A Li CK Irfan SM Bredeson CN et al 2011 HLA matched sibling bone marrow transplantation for b thalassemia major Blood 117 5 1745 50 doi 10 1182 blood 2010 09 306829 PMC 3056598 PMID 21119108 Sharma Akshay Jagannath Vanitha A Puri Latika 21 April 2021 Hematopoietic stem cell transplantation for people with b thalassaemia The Cochrane Database of Systematic Reviews 2021 4 CD008708 doi 10 1002 14651858 CD008708 pub5 ISSN 1469 493X PMC 8078520 PMID 33880750 Fisher Sheila A Cutler Antony Doree Carolyn Brunskill Susan J Stanworth Simon J Navarrete Cristina Girdlestone John 30 January 2019 Cochrane Haematological Malignancies Group ed Mesenchymal stromal cells as treatment or prophylaxis for acute or chronic graft versus host disease in haematopoietic stem cell transplant HSCT recipients with a haematological condition Cochrane Database of Systematic Reviews 1 1 CD009768 doi 10 1002 14651858 CD009768 pub2 PMC 6353308 PMID 30697701 Sodani P Isgro A Gaziev J Paciaroni K Marziali M Simone MD Roveda A De Angelis G et al 2011 T cell depleted hla haploidentical stem cell transplantation in thalassemia young patients Pediatric Reports 3 Suppl 2 e13 doi 10 4081 pr 2011 s2 e13 PMC 3206538 PMID 22053275 Ansari Saqib H Lassi Zohra S Khowaja Salima M Adil Syed Omair Shamsi Tahir S 16 March 2019 Cochrane Cystic Fibrosis and Genetic Disorders Group ed Hydroxyurea hydroxycarbamide for transfusion dependent b thalassaemia Cochrane Database of Systematic Reviews doi 10 1002 14651858 CD012064 pub2 PMC 6421980 PMID 30882896 Kye Mon Min Swe 2013 Zinc supplements for treating thalassaemia and sickle cell disease Cochrane Database of Systematic Reviews 2013 6 CD009415 doi 10 1002 14651858 CD009415 pub2 PMID 23807756 Mulimani Priti Abas Adinegara BL Karanth Laxminarayan Colombatti Raffaella Kulkarni Palna 2 August 2019 Cochrane Cystic Fibrosis and Genetic Disorders Group ed Treatment of dental and orthodontic complications in thalassaemia Cochrane Database of Systematic Reviews doi 10 1002 14651858 CD012969 pub2 PMC 6699676 PMID 31425614 a b Bhardwaj Amit Swe Kye Mon Min Sinha Nirmal K Osunkwo Ifeyinwa 10 March 2016 Treatment for osteoporosis in people with ss thalassaemia The Cochrane Database of Systematic Reviews 3 CD010429 doi 10 1002 14651858 CD010429 pub2 ISSN 1469 493X PMID 26964506 a b c Mulimani Priti Abas Adinegara BL Karanth Laxminarayan Colombatti Raffaella Kulkarni Palna 2 February 2023 Cochrane Cystic Fibrosis and Genetic Disorders Group ed Treatment of dental and orthodontic complications in thalassaemia Cochrane Database of Systematic Reviews 2023 2 doi 10 1002 14651858 CD012969 pub3 PMC 9893875 PMID 36732291 Burdick CO Ntaios G Rathod D March 2009 Separating thalassemia trait and iron deficiency by simple inspection Am J Clin Pathol 131 3 444 author reply 445 doi 10 1309 AJCPC09VRAXEASMH PMID 19228649 Archived from the original on 22 September 2014 Harrison s Principles of Internal Medicine 17th ed McGraw Hill medical September 2008 p 776 ISBN 978 0 07 164114 2 Carrier Screening in the Age of Genomic Medicine ACOG www acog org Archived from the original on 25 February 2017 Retrieved 24 February 2017 Leung TN Lau TK Chung TKh April 2005 Thalassaemia screening in pregnancy Current Opinion in Obstetrics and Gynecology 17 2 129 34 doi 10 1097 01 gco 0000162180 22984 a3 PMID 15758603 S2CID 41877258 Loukopoulos D October 2011 Haemoglobinopathies in Greece prevention programme over the past 35 years The Indian Journal of Medical Research 134 4 572 6 PMC 3237258 PMID 22089622 Samavat A Modell B November 2004 Iranian national thalassaemia screening programme BMJ Clinical Research Ed 329 7475 1134 7 doi 10 1136 bmj 329 7475 1134 PMC 527686 PMID 15539666 Petrou Mary 1 January 2010 Screening for beta thalassaemia Indian Journal of Human Genetics 16 1 1 5 doi 10 4103 0971 6866 64934 PMC 2927788 PMID 20838484 permanent dead link a b Greer John P Arber Daniel A Glader Bertil List Alan F Means Jr Robert T Paraskevas Frixos Rodgers George M Foerster John 2013 Wintrobe s Clinical Hematology ISBN 9781451172683 Waheed Fazeela Fishter Colleen Awofeso AwoNiyi Stanley David July 2016 Carrier screening for beta thalassemia in the Maldives perceptions of parents of affected children who did not take part in screening and its consequences Journal of Community Genetics 7 3 243 253 doi 10 1007 s12687 016 0273 5 PMC 4960032 PMID 27393346 Modiano G Morpurgo G Terrenato L Novelletto A Di Rienzo A Colombo B Purpura M Mariani M et al 1991 Protection against malaria morbidity Near fixation of the a thalassemia gene in a Nepalese population American Journal of Human Genetics 48 2 390 7 PMC 1683029 PMID 1990845 Terrenato L Shrestha S Dixit KA Luzzatto L Modiano G Morpurgo G Arese P February 1988 Decreased malaria morbidity in the Tharu people compared to sympatric populations in Nepal Annals of Tropical Medicine and Parasitology 82 1 1 11 doi 10 1080 00034983 1988 11812202 PMID 3041928 E Goljan Pathology 2nd ed Mosby Elsevier Rapid Review Series page needed Thalassemia in Thai Department of Medical Sciences September 2011 Archived from the original on 25 September 2011 Galanello Renzo Origa Raffaella 2010 Beta thalassemia Orphanet Journal of Rare Diseases 5 1 11 doi 10 1186 1750 1172 5 11 PMC 2893117 PMID 20492708 Galanello Renzo Origa Raffaella 2010 Beta thalassemia Orphanet Journal of Rare Diseases 5 1 11 doi 10 1186 1750 1172 5 11 PMC 2893117 PMID 20492708 Vichinsky Elliott P 1 November 2005 Changing Patterns of Thalassemia Worldwide Annals of the New York Academy of Sciences 1054 1 18 24 Bibcode 2005NYASA1054 18V doi 10 1196 annals 1345 003 ISSN 1749 6632 PMID 16339647 S2CID 26329509 a b Weatherall David J November 2005 Keynote Address The Challenge of Thalassemia for the Developing Countries Annals of the New York Academy of Sciences 1054 1 11 17 Bibcode 2005NYASA1054 11W doi 10 1196 annals 1345 002 PMID 16339646 S2CID 45770891 8alassa Liddell Henry George Scott Robert A Greek English Lexicon at the Perseus Project aἷma in Liddell and Scott Whipple GH Bradford WI 1932 Racial or Familial Anemia of Children Associated With Fundamental Disturbances of Bone and Pigment Metabolism Cooley Von Jaksch American Journal of Diseases of Children 44 336 365 doi 10 1001 archpedi 1932 01950090074009 a b Negre Olivier Eggimann Anne Virginie Beuzard Yves Ribeil Jean Antoine Bourget Philippe Borwornpinyo Suparerk Hongeng Suradej Hacein Bey Salima Cavazzana Marina Leboulch Philippe Payen Emmanuel February 2016 Gene Therapy of the b Hemoglobinopathies by Lentiviral Transfer of the b Gene Human Gene Therapy 27 2 148 165 doi 10 1089 hum 2016 007 PMC 4779296 PMID 26886832 Biffi A 19 April 2018 Gene Therapy as a Curative Option for b Thalassemia The New England Journal of Medicine 378 16 1551 1552 doi 10 1056 NEJMe1802169 PMID 29669229 Lidonnici MR Ferrari G May 2018 Gene therapy and gene editing strategies for hemoglobinopathies Blood Cells Molecules amp Diseases 70 87 101 doi 10 1016 j bcmd 2017 12 001 PMID 29336892 a b Wienert B Martyn GE Funnell APW Quinlan KGR Crossley M 1 October 2018 Wake up Sleepy Gene Reactivating Fetal Globin for b Hemoglobinopathies Trends in Genetics 34 12 927 940 doi 10 1016 j tig 2018 09 004 PMID 30287096 S2CID 52921922 External links EditThalassemia at Curlie Learning About Thalassemia published by the National Human Genome Research Institute Retrieved from https en wikipedia org w index php title Thalassemia amp oldid 1153826348, wikipedia, wiki, book, books, library,

article

, read, download, free, free download, mp3, video, mp4, 3gp, jpg, jpeg, gif, png, picture, music, song, movie, book, game, games.