Haemoglobinopathies

Question 1

S/Bthal0

Answer 1

Can look just like SS, but would expect CBC to look thalassemic (low mcv, high rbc) and increaes A2

Question 2

Hemoglobin Barts

Answer 2

Four gamma chains, seen in alpha thal, migrates before the A on capillary electrophoresis

Question 3

Newborn Screen

Answer 3

Reports hemoglobins in order of greatest concentration: normal would be FA, SS would be FS
Babies produce start to make A2 months later after birth

Question 4

Sickle Cell Trait

Answer 4

Must ALWAYS have more A than S (41%). Without exception. If more S than A, consider transfused SS vs S/Bthal+

Question 5

Thalassemia was initially called

Answer 5

Cooley anemia

Question 6

The thalassemia results from mutations in the globin genes and are part of the spectrum of diseases known collectively as the hemoglobinopathies.

What are the 2 types

Answer 6

• Qualitative disorders: structural hemoglobin (Hb) variants are produced, such as sickle cell anemia, unstable Hbs, and methemoglobins
• Quantitative disorders : normal globin production is diminished or absent

Question 7

TRUE OR FALSE

The majority of qualitative mutations (structural hemoglobin (Hb) variants, sickle cell anemia, unstable Hbs, and methemoglobins), cause no significant change in Hb properties or clinical problems

Answer 7

TRUE

The majority of qualitative mutations (structural hemoglobin (Hb) variants, sickle cell anemia, unstable Hbs, and methemoglobins), cause no significant change in Hb properties or clinical problems

However, some mutations lead to a Hb variant that is also produced in reduced amounts, for example, HbE (β26 Glu→Lys), the most common β-thalassemia mutation in Southeast Asia

Question 8

The most common β-thalassemia mutation in Southeast Asia

Answer 8

HbE (β26 Glu→Lys)

Question 9

2 major forms of thalassemia

Answer 9

α-thalassemia and β-thalassemia

Rare: γ-thalassemia, δ-thalassemia, and εγδβ-thalassemia

Question 10

The clinical severity of thalassemia depends largely on the inherited __________.

Answer 10

Genotype

Question 11

Result from a large deletion in chromosome 11

Involve the β-LCR

Answer 11

εγδβ-thalassemia

Question 12

Difference between HPHF heterozygotes vs heterozygotes for δβ-thalassemia

Answer 12

HPFH heterozygotes: normal red cell indices, normal HbA2 levels, and HbF levels of 10% to 35%

δβ-thalassemia heterozygotes: hypochromic microcytic erythrocytes, HbA2 levels are also normal, but the HbF increases are less (5–15%)

The level of compensatory HbF increase is higher in HPFH compared to δβ-thalassemia

Question 13

TRUE OR FALSE

A deficiency of α-globin chain production affects Hb synthesis in both fetal and adult life

Answer 13

TRUE

As α-globin is an essential part of normal fetal (α2γ2) and normal adult (α2β2) Hb, a deficiency of α-globin chain production affects Hb synthesis in both fetal and adult life.

Question 14

α-globin genes are found in chromosome

Answer 14

Chromosome 16

α-globin and the rest of fetal hemoglbin

Question 15

β-globin gene cluster on the short arm of chromosome _____.

Answer 15

Chromosome 11

Question 16

α- thalassemia is most commonly caused by __________

Answer 16

Deletions

Question 17

α2β2

Answer 17

HbA

Question 18

α2δ2

Answer 18

HbA2

less than 3.5%

less than 2% of fetal Hb or HbF (heterodimer of α-globin and γ-globin, α2γ2

Question 19

Red cells are initially made in the _______ of the developing embryo and prior to week _____ of intrauterine life

Answer 19

yolk sac
8 weeks

Question 20

3 embryonic Hbs

Answer 20

Gower 1 (ξ2ε2)
Gower 2 (α2ε2)
Portland (ξ2 γ2)

Question 21

Adult counterparts:
ξ-globin
ε-globin

Answer 21

ξ-globin : α-globin and β-globin
ε-globin : γ-globin, and δ-globin chains

Question 22

α2γ2

Answer 22

HbF

As the embryo develops into the fetus, erythropoiesis moves to the liver and spleen; there is an orderly switch from ξ-globin to α-globin chain and from ε-globin to γ-globin chain production

Question 23

HbF

At birth, the ratio of molecules containing Gγ-globin chains to those containing Aγ-globin chains is approximately______

Answer 23

3:1

The ratio of Gγ-globin chains to Aγ-globin chains in the trace amounts of HbF in normal adults’ switches from a ratio of 3:1 to approximately 1:3.

Question 24

Toward the ____________, the marrow becomes active in erythropoiesis

Answer 24

End of the second trimester

Question 25

**Hb switching**, occurs between ________of age

Answer 25

6 and 12 months ## Footnote Postnatally, γ-globin chain production (HbF) is replaced by β-globin chain production (HbA), commonly referred to as Hb switching

Question 26

The **physiologic nadir of infancy**—at a Hb level of **90–100 g/L**—usually occurs by _______

Answer 26

8 weeks

Question 27

**β-Globin synthesis** commences early during fetal life, at approximately_______ of gestation

Answer 27

8–10 weeks

Question 28

The **production of γ-globin chain** persists at very low levels in adults, and the small amount of HbF is confined to an erythrocyte population called _______

Answer 28

F cells

Question 29

Identified as a key **repressor of the γ-globin gene** and a critical mediator in the switch from fetal to adult Hb expression

Answer 29

BCL11A

Question 30

**Fetal Hb synthesis** is higher in this hematologic malignancy

Answer 30

Juvenile myelomonocytic leukemia

Question 31

The vast majority of mutations causing **β-thalassemia** are ____________

Answer 31

Nondeletional ## Footnote β-Thalassemia is rarely caused by deletions.

Question 32

This condition often is characterized by the presence of **inclusion bodies in the red cell precursors**, it has been called **inclusion-body β-thalassemia**

Answer 32

Dominantly Inherited β-Thalassemia

Question 33

The causative mutation in **X-linked thrombocytopenia** and **β-thalassemia**

Answer 33

Amino finger of erythroid-specific **GATA-1**

Question 34

Gene mutations seen on patients with **trichothiodystrophy** and **β-thalassemia trait**.

Answer 34

Xeroderma pigmentosa (XPD) protein

Question 35

These disorders consist of a range of disorders characterized by **decreased or absent HbA** production and a variable **compensatory increase in HbF** synthesis

Answer 35

δβ-Thalassemia and HPFH

Question 36

Contains **normal α-globin chains and non–α-globin chains** that consist of the first 50–80 amino acid residues of the δ-globin chains and the last 60–90 residues of the normal C-terminal amino acid sequence of the β chains.

Answer 36

HbLepore δβ+-Thalassemia

Question 37

Rare conditions and result from **large deletions of the β-globin gene cluster**, which involve the **β-LCR**.

Answer 37

εγδβ-Thalassemia ## Footnote * **Group I**: removes all, or a greater part of the complex, including the β-globin gene and the β-LCR, and * **Group II**: removes extensive upstream regions, including the β-LCR but leaving the β-globin gene itself intact

Question 38

The most common forms of α+-thalassemia

Answer 38

Deletion : –α3.7 and –α4.2

Question 39

Five mutations that affect **termination of translation** and give rise to **elongated α-globin** chains have been identified:

Answer 39

HbConstant Spring, HbIcaria, HbKoya Dora, HbSeal Rock, and HbPakse | (Non-deletion)

Question 40

4 phenotypes of α-Thalassemia

Answer 40

(a) normal (b) conditions characterized by mild hematologic changes but no clinical abnormality (c) HbH disease (d) HbBart’s hydrops fetalis syndrome

Question 41

HbH occurs most frequently in : ## Footnote Usually results from the **compound heterozygous state for α0-thalassemia** and either **deletion or nondeletion α+-thalassemia**

Answer 41

Southeast Asia (–SEA–/–α3.7) and the Mediterranean region (usually –MED–/–α3.7)

Question 42

Usually results from the **homozygous state for α0-thalassemia**

Answer 42

HbBart’s hydrops fetalis syndrome ## Footnote Most commonly –SEA–/–SEA– or –MED–/–MED–

Question 43

**α-thalassemia** associated with **mental retardation** suggested the lesions involving the α-globin gene locus were acquired in the ________ germ cell

Answer 43

Paternal germ cell ATR-X ## Footnote α-thalassemia results from deficiency of a trans-activating factor involved in regulation of the α-globin genes

Question 44

Mutations involving this gene exlplains hematologic findings of **HbH disease or mild α-thalassemia** are occasionally observed in elderly patients with **primary myelofibrosis** or the **myelodysplastic syndrome**

Answer 44

ATR-X

Question 45

# TRUE OR FALSE Thalassemias, in general, are syndromes of ineffective erythropoiesis.

Answer 45

TRUE Thalassemias, in general, are **syndromes of ineffective erythropoiesis.**

Question 46

# α or β-thalassemia **Ineffective erythropoiesis** is markedly greater in ___________ and contributes much more to the manifestations of the disease

Answer 46

β-thalassemia

Question 47

3 major components of ineffective erythropoiesis in β-thalassemia:

Answer 47

* (a) ineffective erythropoiesis with intramedullary apoptosis of a variable proportion of the developing red cell precursors; * (b) hemolysis resulting from destruction of mature red cells containing α-globin chain inclusions that have shorter life spans because of the formation of hemichromes and iron-related oxidative damage * (c) the hypochromic and microcytic red cells that result from the overall reduction in Hb synthesis

Question 48

Major cause of anemia in α-thalassemia

Answer 48

Hemolysis and poorly hemoglobinized red cells ## Footnote The excess γ-globin and β-globin chains produce **soluble homotetramers, HbBart’s and HbH** *There is less ineffective erythropoiesis than in β-thalassemia*

Question 49

γ4-homotetramers

Answer 49

HbBart’s ## Footnote HbBart’s is more stable than HbH and does not form large inclusions.

Question 50

β4-homotetramers

Answer 50

HbH ## Footnote β4 tetramers precipitate as red cells age, with the formation of **inclusion bodies**, which leads to a shortened survival of red cells mainly taking place in the microvasculature of the spleen

Question 51

# α-thalassemia Deficient fetal oxygenation probably is responsible for the: ## Footnote Both HbBart’s and HbH show no heme–heme cooperative interaction and have almost hyperbolic oxygen dissociation curves with very **high oxygen affinities**. Thus, they are not able to effectively release oxygen effectively at physiologic tissue tensions making them very poor oxygen carriers .

Answer 51

* (a) hypertrophied placentas * (b) the severe erythroblastosis * (c) the gross hydropic state of the fetus as a result of increased capillary permeability and possibly for * (d) the associated developmental abnormalities that occur with the severe forms of intrauterine α-thalassemia

Question 52

In **β-thalassemia**, excess α-globin chains result in mechanical instability and oxidative damage primarily to ______________

Answer 52

Protein 4.1 ## Footnote However, in α-thalassemia, the membranes are **hyperstable**, and there is no evidence of oxidation or dysfunction of protein 4.1 Furthermore, accumulation of excess β-globin chains in α-thalassemia results in **increased hydration of the cells**.

Question 53

The **extramedullary hematopoiesi**s and **bone lesions** are particularly prominent in _________-thalassemia. ## Footnote Quiescent hematopoietic stem cells (HSCs) in the liver and spleen are activated, resulting in extramedullary hematopoiesis that may result in tumor-like formation in those sites and in other tissue locations, similar to what is seen in primary myelofibrosis

Answer 53

HbE β-thalassemia

Question 54

The **iron overload** in thalassemia causes ________ **erythroferrone**, the product of marrow erythroid precursors, _______ hepcidin production through the bone morphogenetic protein/Sma-related and Mad-related protein signaling pathway

Answer 54

Increased erythroferrone Reduces hepcidin ## Footnote * Leads to increased iron absorption and impaired iron sequestration * These changes are less common in α-thalassemia

Question 55

A refined method for assessing iron overload

Answer 55

Magnetic resonance imaging (MRI)

Question 56

Risks for vascular disease in thalassemia is highest among

Answer 56

* Nontransfused patients with severe ineffective erythropoiesis * Post-Splenectomy

Question 57

The procoagulant effect of thalassemia cells results from increased expression of ____________ on the red cell surface

Answer 57

Anionic phospholipids ## Footnote * These aminophospholipids are moved to the outer leaflet, thus providing a surface on which coagulation can be activated * Release of **Hb and arginase**, resulting in *impaired nitric oxide availability and endothelial dysfunction* with progressive pulmonary hypertension.

Question 58

Classification of thalassemia based on **genotype**:

Answer 58

* **Thalassemia minor** (including 1 or 2 α-globin gene defects and a single β-globin gene defect), * **Thalassemia intermedia** (3 α-globin gene defects, HbH disease, other nondeletional forms of α-thalassemia such as HbHConstant Spring, non–β0/β0-thalassemia, including β+/β0, β+/ β+, or HbE/β+-thalassemia, and dominant β-thalassemia) * **Thalassemia major** (α0-thalassemia, severe HbHConstant Spring, β0/β0-thalassemia, E/β0-thalassemia)

Question 59

The major factor determining the **severity of thalassemia**

Answer 59

Degree of globin-chain imbalance

Question 60

Transfusion volumes are usually approximately _____ mL/kg of packed red cells in **children**

Answer 60

15 mL/kg

Question 61

Typically, **adults** usually receive _____ U of packed red cells each time, with intervals of **2, 3, or 4 weeks**, depending on body size

Answer 61

2 U

Question 62

After approximately _____ transfusions, it is predicted that the **liver iron concentration will have more than doubled** and **iron chelation will be initiated**

Answer 62

12–15

Question 63

Radiologic findings in thalassemia

Answer 63

The **diploe widens**, with a **“hair on end” or “sunray”** appearance and a **lacy trabeculation** of the long bones and phalanges.

Question 64

If iron chelation is not begun appropriately for transfusional iron overload, **iron-induced endocrinopathies** can develop, usually after approximately ______years of age

Answer 64

10 years of age

Question 65

If the anemia is not treated, **heart failure** may develop, resulting in death, usually within the first ______ years of life.

Answer 65

2-5 years ## Footnote Toward the end of the **second decade**, **iron-induced cardiac complications** arise, and **death** usually occurs in the **second or third decade** as a result of intractable heart failure or ventricular arrhythmias from cardiac siderosis.

Question 66

# Hemoglobin Bart’s Hydrops Fetalis Syndrome Embryos with homozygous **α0-thalassemia (a thalassemia major)** will begin to have manifestations of anemia in the_______trimester

Answer 66

Second trimester ## Footnote * With worsening anemia, there is heart failure and anasarca, leading to enlargement of the placenta and to a hydropic fetus * If detected prenatally, **intrauterine transfusions** may be administered with a good rate of success * The reason for placental hypertrophy is unknown, although severe **intrauterine hypoxia** is suspected

Question 67

# Forms of α-Thalassemia The **homozygous** states for the **chain-termination mutant** have the characteristic phenotype of **thalassemia intermedia** with **moderate hemolytic anemia with splenomegaly** | *non-deletional

Answer 67

HbConstant Spring

Question 68

# α-Thalassemia and Mental Retardation **Shorter deletions** have **α-thalassemia and mental retardation** but when the deletion is ________kb or longer, it may involve genes that, when deleted, are responsible for _______and _______________

Answer 68

2000 kb or longer Tuberous sclerosis and polycystic kidney disease ## Footnote * When there are mutations of the **ATR-X gene**, the syndrome is broader and includes **skeletal abnormalities, dysmorphic face, neonatal hypotonus, genital abnormalities**

Question 69

# TRUE OR FALSE A marrow examination is not required for diagnosis OF Homozygous β0-Thalassemia

Answer 69

TRUE A marrow examination is not required for diagnosis OF Homozygous β0-Thalassemia ## Footnote But if performed, shows marked erythroid hyperplasia with a maturation arrest, stippling, and inclusions in the red cell precursors, as well as an increased iron content High-performance liquid chromatography (HPLC) or Hb electrophoresis shows **no HbA** in β0 homozygotes, with **HbF** comprising the majority of the Hb, and a relative **increase in HbA2** as a proportion of total Hb.

Question 70

2 main classes of **“normal HbA2 β-thalassemia”**

Answer 70

**Type 1** is the “silent” form of β- thalassemia; no hematologic changes **Type 2** is heterogeneous, compound heterozygous state for β-thalassemia and δ-thalassemia severe transfusion-dependent β-thalassemia

Question 71

The most clinically important associations of β-thalassemia with β structural Hb variants are:

Answer 71

* HbS/β-thalassemia (sickle–β-thalassemia) * HbC/β-thalassemia, and * HbE/β-thalassemia

Question 72

# Sickle–β-thalassemia The clinical consequences of carrying 1 gene for HbS and 1 gene for β-thalassemia depend entirely on the type of ___________ mutation.

Answer 72

β-thalassemia mutation

Question 73

Occurs at a high frequency in the eastern half of the **Indian** subcontinent and throughout S**outheast Asia**, is *one of the most important hemoglobinopathies in the world population*

Answer 73

HbE/β-thalassemia ## Footnote When HbE is inherited with β-thalassemia—and most often this is a **β0-thalassemia or severe β+-thalassemia** mutation in **Southeast Asia and India**—a marked deficit of β-globin chain production results, with the clinical picture of **severe β-thalassemia**

Question 74

Incubation of the red cells with brilliant cresyl blue results in multiple **ragged inclusion bodies** in almost all cells resembling **golf balls**.

Answer 74

Hemoglobin H Disease

Question 75

# TRUE OR FALSE The homozygous state for nondeletion forms of α-thalassemia involving the dominant (α2) globin gene causes a more severe deficit of α-globin chains than do the deletion forms of α+-thalassemia.

Answer 75

TRUE The **homozygous state for nondeletion forms of α-thalassemia** involving the dominant (α2) globin gene causes a **more severe deficit** of α-globin chains than do the deletion forms of α+-thalassemia. ## Footnote In some cases, the homozygous state produces **HbH disease.**

Question 76

# Homozygous State for Nondeletion Types of α-Thalassemia In the **homozygous** state for _____________________ , the blood picture shows **mild thalassemic changes** with normal-size red cells with an associated **moderately severe hemolytic anemia**.

Answer 76

HbConstant Spring or other chain-termination mutations ## Footnote * The Hb consists of approximately **5% to 6% HbConstant Spring**, **normal HbA2 levels**, and **trace amounts of HbBart’s**. The remainder is HbA. *For unclear reasons, no HbH is present but small amounts of HbBart’s may persist into adult life.* The heterozygous state for HbConstant Spring shows no hematologic abnormality.

Question 77

The goals of treatment for the thalassemia syndromes are to:

Answer 77

* (a) maintain optimal levels of Hb for growth and development in children, and appropriate activity at all ages; * (b) minimize the complications related to ineffective erythropoiesis, by adequately suppressing patient’s own (endogenous) marrow activity; * (c) prevent complications related to the therapy of the disease; and * (d) improve longevity while maintaining a good quality of life

Question 78

The only currently available curative therapy for thalassemia

Answer 78

HSC transplantation

Question 79

Hgb target range supports near-normal activity, growth and development, and suppression of ineffective erythropoiesis

Answer 79

95–105 g/L Hypertransfusion regimen

Question 80

Amount of tratransfusion in children and in adults

Answer 80

* Children: **15 mL/kg** to increase to a full unit when the child weighs approximately 15 kg. * Adults: **2 U of packed red blood cells every 2–4 weeks** ## Footnote Split units are not recommended because they do not afford the benefit of the full amount, and yet expose the recipient to another donor.

Question 81

Indications for splenectomy in NTDT

Answer 81

* Massive splenic enlargement with risk of rupture and pain in the left upper quadrant * Dropping Hb level

Question 82

Presentation with **abdominal pain, diarrhea, and vomiting** should always suggest an infection with a member of the ___________ class of bacteria

Answer 82

Yersinia class of bacteria

Question 83

A noninvasive estimation of myocardial iron

Answer 83

T2* MRI

Question 84

Initiate chelation in thalassemia patients when the serum ferritin reached _____ mcg/dL

Answer 84

1000 mcg/dL ## Footnote Because we can quantify the rate of iron loading, knowing the volume of blood transfused and its iron content, a *serum ferritin of 1000 mcg/dL is not a reasonable starting point.*

Question 85

Chelation should be initiated after the patient has received approximately _____ transfusions (by which time the liver iron would be estimated to be approximately _____mg/g dry weight).

Answer 85

15 transfusions 6–8 mg/g dry weight

Question 86

Liver MRIs are recommended _______.

Answer 86

Annually

Question 87

In children treated with iron chelation, **cardiac imaging** is usually not performed until the child is older than _______ years

Answer 87

older than 10 years ## Footnote In addition, regular monitoring of **endocrine functions**, including that of the pituitary, endocrine pancreas, thyroid, parathyroid, adrenals and gonads, as these organs also may be severely affected by iron overload, should begin around **10 years of age.**

Question 88

First chelating agent of proven long-term value for treatment of iron overload in thalassemia.

Answer 88

Deferoxamine (desferrioxamine)

Question 89

Must be given by SQ infusion over 8–12 hours, preferably daily, but at least 5–6 times per week

Answer 89

Deferoxamine (desferrioxamine)

Question 90

Long-term side effects of deferoxamine

Answer 90

* Ototoxicity (high-frequency hearing loss and tinnitus) * Ocular toxicity (visual failure, night and color blindness, and field loss) ## Footnote Can also cause **bone changes and growth retardation**, and is sometimes associated with **bone pain**, particularly when used in the absence of significant iron overload

Question 91

An oral, once-daily iron chelator

Answer 91

Deferasirox

Question 92

A first-line drug for the management of transfusional iron overload

Answer 92

Deferasirox

Question 93

Toxicities of Deferasirox

Answer 93

* Nonprogressive elevation of the serum creatinine * Elevation of liver enzymes

Question 94

Oral iron chelator with short half-life, must be taken **3 times a day**

Answer 94

Deferiprone

Question 95

Has good efficacy at purging iron from the myocardium, and is often used in combination with other chelators in patients with lower cardiac T2* values

Answer 95

Deferiprone

Question 96

The most concerning side effect of Deferiprone

Answer 96

Neutropenia, and occasionally agranulocytosis

Question 97

**Butyrate analogues** and **hydroxyurea** did not show very positive results, except in homozygotes for _________

Answer 97

HbLepore

Question 98

Therapies that focus on Augmentation of Fetal Hemoglobin Production by Editing the **BCL11A Gene**

Answer 98

* (a) targeting protein–DNA interactions using either **transcription activator-like effector nucleases** or **zinc finger nucleases**, and * (b) targeting RNA–DNA interactions using **CRISPR-Cas-9**

Question 99

A recombinant fusion protein containing a modified extracellular domain of **ActRIIB**, which binds **GDF11** and other **transforming growth factor-β** superfamily ligands, i**nhibits Smad2/3** signaling, and **promotes red cell differentiation/ maturation**

Answer 99

Luspatercept

Question 100

Prevention can be achieved in 2 ways:

Answer 100

Genetic counseling and prenatal screening