Hemoglobinopathy: Difference between revisions

	Hemoglobinopathy Main page
Overview
Classification
Epidemiology and Demographics
Diagnostic approach

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Revision as of 16:36, 10 September 2018

Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]; Associate Editor(s)-in-Chief: Sogand Goudarzi, MD [2]

Overview

Hemoglobinopathy is a kind of genetic defect that results in abnormal structure of one of the globin chains of the hemoglobin molecule. Most common hemoglobinopathies include sickle-cell disease.The renge of clinical manifestations of the hemoglobinopathies are from mild hypochromic anemia to moderate hematological disease to severe.

Classification

Hemoglobinopathy be classified according to genetic and structure of hemoglobin into two main groups:^[1]

Hemoglobinopathy classification

Quantititive disorders of globulin chain synthesis

Qualitative disorders of globulin structure

α-thalassemia

β-thalassemia

De novo and acquired α-thalassemia

Sickle cell disorders

Hemoglobins with decreased stability (unstable hemoglobin variants)

Hemoglobins with altered oxygen affinity

Methemoglobin

Posttranslational modifications

Deletion of α globin
• one gene: α⁺ athalassemia
• two gene in cis: α⁰ thalassemia
• two gene in trans: homozygous α⁺ thalassemia (phenotype α⁰ thalassemia)
• Three gene: HbH disease
• Four genes: Hydrops fetalis with Hb Bart's

α-Thalassemia with mental retardation syndrome (ATR):
• Due to large deletions on chromosome 16 involving the α-globin genes
• Due to mutations of the ATRX transcription factor gene on chromosome X
• α-Thalassemia associated with myelodysplastic

SA, sickle cell trait

Mutants causing congenital Heinz body hemolytic anemia

High/increased oxygen affinity stateso
• Fetal red cells
• Decreased RBC 2,3 BPG
• Carboxyhemoglobinemia, HbCO
• Structural variants

Congenital methemoglobinemia
• Structural variants
• Cytochrome b5 reductase deficiency

Nonenzymatic glycosylation

Low/decreased oxygen affinity states
• 2,3 BPG
• Structural variants

Acquired (toxic) methemoglobinemia

Amino-terminal acetylation

Nondeletion mutants
• Hb Constnt Spring
• Other

α-Thalassemia associated with myelodysplastic syndromes (ATMDS)
• Due to mutations of the ATRX gene

SS, sickle cell anemia/disease

Acquired instability—oxidant hemolysis
• Drug-induced
• G6PD deficiency

Amino-terminal carbamylation

SC, HbSC disease

Deamidation

S/β thal, sickle β-thalassemia disease

S with other Hb variants: D, O-Arab, other

SF, Hb S/HPFH

Clinical classification

Biochemical/genetic classification

Structural variants with β-thalassemia phenotype

Minor/trait

Intermediate

Major

β0 thalassemia

δ thalassemia

γ thalassemia

Lepore fusion gene

HbS/β-thalassemia

HbE/β-thalassemia

Other

δβ-Thalassemia

εγδβ-Thalassemia

HPFH

The range of clinical manifestations of the hemoglobinopathies are from mild hypochromic anemia to moderate hematological disease to severe.

Epidemiology and Demographics

Prevalence

In 2008, the prevalence of hemoglobinopathy was estimated to be 7% of the worldwide population being carrier.^[2]
The most prevalance of hemoglobinopathy gene carriers in the world's are in South-East Asia(up to 70%) and Arab nations(up to 60).^[2]
In Russia is seen rare^[2]
Recent years it is increased in Germany.^[3]

Race

α-thalassemias

It occure cur mainly in Africa, Arab nations, and, more frequently and South-East Asia.^[4]

β-thalassemias

It occure cur mainly in Mediterranean countries, South-East Europe, Arab nations and Asia.^[5]

Diagnosis

Hemoglobin testing(hemoglobin electrophoresi or chromatography) , red blood cell count, hemoglobin pattern, cardinal symptoms^[6]

History & clinical symptoms

Blood test

hemolysate

Diagnosis of abnormal hemoglobins

Diagnisis of β-thalassemia

Dignisis of α-thalassemia

Alkaline electrophoresis
• acid electrophoresis
•HPLC

Electrophoresis HPLC
• HbA2,Hbf

Electrophoresis HPLC
• DNA testing

Evidence of abnormality,comparison of mobility with that of known abnormalities, if HBS suspected: solubility test

Separation/quantification

Evalution of all data and findings

Diagnisis of β-thalassemia

Dignisis of α-thalassemia

DNA sequencing if needed

DNA sequencing if needed(thalassemia major, thalassemia intermedia

Evaluation of all data and findings(including blood count ethnic and origin

Diagnosis of hemoglobinopathy

References

↑ Forget BG, Bunn HF (February 2013). "Classification of the disorders of hemoglobin". Cold Spring Harb Perspect Med. 3 (2): a011684. doi:10.1101/cshperspect.a011684. PMC 3552344. PMID 23378597.
↑ ^2.0 ^2.1 ^2.2 Kohne E (August 2011). "Hemoglobinopathies: clinical manifestations, diagnosis, and treatment". Dtsch Arztebl Int. 108 (31–32): 532–40. doi:10.3238/arztebl.2011.0532. PMC 3163784. PMID 21886666.
↑ Cario H, Stahnke K, Sander S, Kohne E (January 2000). "Epidemiological situation and treatment of patients with thalassemia major in Germany: results of the German multicenter beta-thalassemia study". Ann. Hematol. 79 (1): 7–12. PMID 10663615.
↑ Kohne E (August 2011). "Hemoglobinopathies: clinical manifestations, diagnosis, and treatment". Dtsch Arztebl Int. 108 (31–32): 532–40. doi:10.3238/arztebl.2011.0532. PMC 3163784. PMID 21886666.
↑ Kohne E (August 2011). "Hemoglobinopathies: clinical manifestations, diagnosis, and treatment". Dtsch Arztebl Int. 108 (31–32): 532–40. doi:10.3238/arztebl.2011.0532. PMC 3163784. PMID 21886666.
↑ Herklotz R, Risch L, Huber AR (January 2006). "[Hemoglobinopathies--clinical symptoms and diagnosis of thalassemia and abnormal hemoglobins]". Ther Umsch (in German). 63 (1): 35–46. doi:10.1024/0040-5930.63.1.35. PMID 16450733.

Template:WikiDoc Sources

[pmid233785972-1] Forget BG, Bunn HF (February 2013). "Classification of the disorders of hemoglobin". Cold Spring Harb Perspect Med. 3 (2): a011684. doi:10.1101/cshperspect.a011684. PMC 3552344. PMID 23378597.

[pmid21886666-2] 2.0 ^2.1 ^2.2 Kohne E (August 2011). "Hemoglobinopathies: clinical manifestations, diagnosis, and treatment". Dtsch Arztebl Int. 108 (31–32): 532–40. doi:10.3238/arztebl.2011.0532. PMC 3163784. PMID 21886666.

[pmid10663615-3] Cario H, Stahnke K, Sander S, Kohne E (January 2000). "Epidemiological situation and treatment of patients with thalassemia major in Germany: results of the German multicenter beta-thalassemia study". Ann. Hematol. 79 (1): 7–12. PMID 10663615.

[pmid218866662-4] Kohne E (August 2011). "Hemoglobinopathies: clinical manifestations, diagnosis, and treatment". Dtsch Arztebl Int. 108 (31–32): 532–40. doi:10.3238/arztebl.2011.0532. PMC 3163784. PMID 21886666.

[pmid218866663-5] Kohne E (August 2011). "Hemoglobinopathies: clinical manifestations, diagnosis, and treatment". Dtsch Arztebl Int. 108 (31–32): 532–40. doi:10.3238/arztebl.2011.0532. PMC 3163784. PMID 21886666.

[pmid16450733-6] Herklotz R, Risch L, Huber AR (January 2006). "[Hemoglobinopathies--clinical symptoms and diagnosis of thalassemia and abnormal hemoglobins]". Ther Umsch (in German). 63 (1): 35–46. doi:10.1024/0040-5930.63.1.35. PMID 16450733.

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@@ Line 18: / Line 18: @@
 {{familytree | |!| | | | | |!| |!| | | | | |!| | | | | |!| | | | | |!| | | | | |!| | | | | | |!| | |}}
 {{familytree | |!| | | | | |!| |!| | | | | |!| | | | | |!| | | | | |!| | | | | |!| | | | | | |!| | |}}
-{{familytree |boxstyle=text-align: left; | |)| E01 | | |!| |)| E04 | | |)| E07 | | |)| E13 | | |)| E17 | | |)| E19 | | | |)| E20 | |E01=Deletion of α [[globin]]<br>• one gene: α<sup>+</sup> [[Thalassemi|athalassemia]]<br>• two [[gene]] in [[Cis-trans isomerism|''cis'']]: α<sup>0</sup> [[Thalassemia|thalassemia]] <br>• two [[gene]] in [[Cis-trans isomerism|''trans'']]: [[Homozygous|homozygous]] α<sup>+</sup> [[Thalassemia|thalassemia]] ([[Phenotype|phenotype]] α<sup>0</sup> [[Thalassemia|thalassemia]])<br>• Three [[gene]]: HbH disease<br>• Four [[genes]]: [[Hydrops fetalis|Hydrops fetalis]] with Hb [[Hemoglobin Barts|Bart's]] |E04=[[Thalassemi|α-Thalassemia]] with [[Mental retardation|mental retardation]] [[Syndrome|syndrome]] (ATR): <br>• Due to large deletions on [[Chromosome|chromosome]] 16 involving the α-[[globin]] [[genes]] <br>• Due to [[mutations]] of the [[ATRX|ATRX]] [[Transcription factor|transcription factor]] [[gene]] on [[chromosome]] X <br>• [[Thalassemia|α-Thalassemia]] associated with
+{{familytree |boxstyle=text-align: left; | |)| E01 | | |!| |)| E04 | | |)| E07 | | |)| E13 | | |)| E17 | | |)| E19 | | | |)| E20 | |E01=Deletion of α [[globin]]<br>• one gene: α<sup>+</sup> [[Thalassemi|athalassemia]]<br>• two [[gene]] in [[Cis-trans isomerism|''cis'']]: α<sup>0</sup> [[Thalassemia|thalassemia]] <br>• two [[gene]] in [[Cis-trans isomerism|''trans'']]: [[Homozygous|homozygous]] α<sup>+</sup> [[Thalassemia|thalassemia]] ([[Phenotype|phenotype]] α<sup>0</sup> [[Thalassemia|thalassemia]])<br>• Three [[gene]]: [[Thalassemia pathophysiology|HbH disease]]<br>• Four [[genes]]: [[Hydrops fetalis|Hydrops fetalis]] with [[Hemoglobin|Hb]] [[Hemoglobin Barts|Bart's]] |E04=[[Thalassemi|α-Thalassemia]] with [[Mental retardation|mental retardation]] [[Syndrome|syndrome]] (ATR): <br>• Due to large deletions on [[Chromosome|chromosome]] 16 involving the α-[[globin]] [[genes]] <br>• Due to [[mutations]] of the [[ATRX|ATRX]] [[Transcription factor|transcription factor]] [[gene]] on [[chromosome]] X <br>• [[Thalassemia|α-Thalassemia]] associated with
-[[Myelodysplastic syndrome|myelodysplastic]] | E07=SA, [[Sickle cell trait|sickle cell trait]] | E13=[[Mutants]] causing [[congenital]] [[Heinz body|Heinz body]] [[hemolytic anemia]] |E17=High/increased oxygen affinity stateso<br>• Fetal red cells<br>• Decreased RBC 2,3 BPG<br>• Carboxyhemoglobinemia, HbCO<br>• Structural variants |E19=Congenital methemoglobinemia<br>• Structural variants<br>• Cytochrome b5 reductase deficiency |E20=Nonenzymatic glycosylation | | |}}
+[[Myelodysplastic syndrome|myelodysplastic]] | E07=SA, [[Sickle cell trait|sickle cell trait]] | E13=[[Mutants]] causing [[congenital]] [[Heinz body|Heinz body]] [[hemolytic anemia]] |E17=High/increased oxygen [[Chemical affinity|affinity]] stateso<br>• [[Fetal]] [[red cells]]<br>• Decreased [[RBC]]
+[[2,3-Bisphosphoglycerate|2,3 BPG]]<br>• [[Carboxyhemoglobin|Carboxyhemoglobinemia]], [[Myoglobin|HbCO]]<br>• Structural variants |E19=[[Congenital]] [[Methemoglobinemia|methemoglobinemia]]<br>• Structural variants<br>• [[Cytochrome b5 reductase|Cytochrome b5 reductase]] [[Deficiency|deficiency]] |E20=Nonenzymatic [[Glycosylation|glycosylation]] | | |}}
 {{familytree | |!| | | | | |!| |!| | | | | |!| | | | | |!| | | | | |!| | | | | |!| | | | | | |!|}}
-{{familytree |boxstyle=text-align: left; | |!| | | | | |!| |!| | | | | |!| | | | | |!| | | | | |`| E18 | | |`| E24 | | | |)| E21 |E18=Low/decreased oxygen affinity states<br>• Increased RBC 2,3 BPG<br>• Structural variants |E21=Amino-terminal acetylation |E24=Acquired (toxic) methemoglobinemia | |}}
+{{familytree |boxstyle=text-align: left; | |!| | | | | |!| |!| | | | | |!| | | | | |!| | | | | |`| E18 | | |`| E24 | | | |)| E21 |E18=Low/decreased oxygen affinity states<br>• [[2,3-Bisphosphoglycerate|2,3 BPG]]<br>• Structural variants |E21=Amino-terminal acetylation |E24=Acquired (toxic) methemoglobinemia | |}}
 {{familytree | |!| | | | | |!| |!| | | | | |!| | | | | |!| | | | | | | | | | | | | | | | | | |!|}}
 {{familytree |boxstyle=text-align: left; | |`| E02 | | |!| |`| E05 | | |)| E08 | | |`| E14 | | | | | | | | | | | | | | | |)| E22 | | |E02=Nondeletion mutants<br>• Hb Constnt Spring<br>• Other |E05=α-Thalassemia associated with myelodysplastic syndromes (ATMDS) <br>• Due to mutations of the ATRX gene|E08=SS, sickle cell anemia/disease |E14=Acquired instability—oxidant hemolysis<br>• Drug-induced<br>• G6PD deficiency|E22=Amino-terminal carbamylation | | |}}