HAEMATOLOGY - ANAEMIA Flashcards

Question 1

Q

What is anaemia?

Answer

A

A condition in which the number of RBC or Hb concentration within them is lower than normal, outside the reference range for that individual
Men - <13 g/dL Hb
Women <12g/dL Hb

‘A reduction in the quantity of haemoglobin in the blood’

Question 2

Q

What are microcytic anaemias?

Answer

A

Iron deficiency (can manifest first as normocytic)
Sideroblastic
Thalassaemia
Anaemia of chronic disease (usually starts normocytic)

Question 3

Q

What are macrocytic anaemia causes?

Answer

A

Megaloblastic - vitamin B12 and folate deficincies
Non-megaloblastic - alcoholism, hypothyroidism, drugs, reticulocytosis, liver disease, pregnancy, haemolytic anaemia

Question 4

Q

What are normocytic anaemia causes?

Answer

A

Haemolytic causes:
- hereditary spherocytosis
Paroxysmal nocturnal haemoglobinuria
G6PD deficiency
Sickle cell anaemia
HbC disease
Micro and microangiopathic haemolytic anaemia
Autoimmune haemolytic anaemia

Non-haemolytic causes:
Iron deficiency (in early stages before becoming microcytic)
Anaemia of chronic disease (in early stages before becoming microcytic)
CKD
Aplastic anaemia

Question 5

Q

What symptoms does anaemia present with?

Answer

A

Breathlessness
Fatigue + lethargy
Headaches
Palpitations
Faintness
Exacerbates cardio respiratory problems, especially in the elderly
Dysphagia

Question 6

Q

What are signs of anaemia?

Answer

A

Pallor
Tachycardia
Systolic flow murmurcardiac failure
Koilonychia - spoon shaped nails
Glossitis
Postural hypotension
Jaundice
Bone deformities
Leg ulcers
Angular stomatitis

Question 7

Q

In which anaemia would you find koilonychia?

Answer

A

Iron deficiency

Question 8

Q

In which anaemia would you see jaundice?

Answer

A

Haemolytic

Question 9

Q

In which anaemia would you see bone deformities?

Answer

A

Thalassaemia major

Question 10

Q

In which anaemia would you find leg ulcers?

Answer

A

Sickle cell disease

Question 11

Q

What MCV is microcytic anaemia?

Question 12

Q

What MCV is macrocytic anaemia?

Question 13

Q

What MCV is normocytic anaemia?

Question 14

Q

Using peripheral blood, what investigations should you do for anaemia?

Answer

A

Red cell indices
WCC
Platelet coun
Reticulocyte count
Blood film to see if abnormal red cell morphology is present
Ferritin levels

Question 15

Q

What does a dimorphic blood film mean?

Answer

A

Two populations of RBCs are seen e.g. in a combined iron and folate deficiency in coeliac disease

Question 16

Q

Using bone marrow, what investigations should you do for anaemia?

Answer

A

Aspiration to provide a film for microscopy of developing haemopoietic cells
The trephine provides an overall view of bone marrow architecture, cellulairty and abnormal infiltrates

Question 17

Q

Whats the WHO criteria for anaemia in men and women?

Answer

A

Men Hb <13g/dL
Women Hb <12g/dL

Question 18

Q

What ways is anaemia classified?

Answer

A

RBC size and morphology
Severity
Time coursE (acute or chronic)
Inheritance
Etiology (primary vs secondary)
RBC proliferation (hypo or hyper proliferative)

Question 19

Q

Whats the mechanism behind microcytic anaemia?

Answer

A

Insufficient Hb production

Question 20

Q

Whats the mechanism behind normoocytic anaemia?

Answer

A

Decreased blood volume and/or decreased erythropoeisis

Question 21

Q

Whats the mechanism behind macrocytic anaemia?

Answer

A

Insufficient nucleus maturation relative to cytoplasm expansion due to…
- defective DNA synthesis
- defective DNA repair

Question 22

Q

What is mild anaemia?

Answer

A

Hb level below normal range based on age and sex but >10-11g/dL

Question 23

Q

What is moderate anaemia?

Answer

A

Hb level below normal range based on age and sex but 7-10g/dL

Question 24

Q

What is severe anaemia?

Answer

A

Hb level below normal range based on age and sex but <7g/dL

Question 25

Q

How can you remember the causes of microcytic anaemia?

Answer

A

TAILS
Thalassaemia
Anaemia of chronic disease
Iron deficiency
Lead poisoning
Sideroblastic

Question 26

Q

What are the subcategories in normocytic anaemia and give examples?

Answer

A

Haemolytic
- intrinsic - haemoglobinopathies, enzyme deficiencies, membrane defects
- extrinsic - haemolytic anaemias, infections, mechanical destruction

Non-haemolytic - blood loss, aplastic, (anaemia of chronic disease and iron deficiency in early stages)

Question 27

Q

What haemoglobinopathies cause haemolytic anaemia?

Answer

A

Sickle cell
HbC disease
Thalassaemia

Question 28

Q

What enzyme deficiencies cause haemolytic anaemia?

Answer

A

Pyruvate kinase deficiency
G6PD deficiency

Question 29

Q

What membrane defects can cause haemolytic anaemia?

Answer

A

Paroxysmal nocturnal haemoglobinuria
Hereditary spherocytosis
Hereditary elliptocytosis

Question 30

Q

What are the subcategories of macrocytic anaemia and give examples?

Answer

A

Megaloblastic - vitamin B12 and folate deficiencies, medications
Non-Megaloblastic anaemia - liver disease, alcohol use, diamond-blackfan anaemia, myelodysplastic syndrome, multiple myeloma, hypothyroidism

Question 31

Q

What medications can cause Megaloblastic macrocytic anaemia?

Answer

A

Phenytoin - inhibits folate
Sulfa drugs - inhibits folate
Trimethoprim - inhibits folate
MTX - inhibits folate
Hydroxyurea - inhibits DNA synthesis
6-mercaptopurine - interferes with DNA synthesis

Question 32

Q

How do you initially evaluate anaemia diagnostically?

Answer

A

For stable patients check FBC to confirm anaemia and assess severity
Classify anaemia by morphology and MCV to narrow down cause
Blood film, ferritin, iron studies, B12, folate, reticulocyte count, direct antigen test, haemoglobinopathy screen

In unstable patients treat acute blood loss anaemia immediately

Question 33

Q

How should you investigate microcytic anaemia?

Answer

A

Obtain iron panel to screen for IDA

Question 34

Q

How should you investigate macrocytic anaemia?

Answer

A

Check serum B12 and folate
Measure reticulocyte count

Question 35

Q

What does an increased reticulocyte count in macrocytic anaemia mean?

Answer

A

Haemolysis or blood loss

Question 36

Q

What does an decreased reticulocyte count in macrocytic anaemia mean?

Answer

A

Drug or alcohol toxicity, MYELODYSPLASTIC syndromes or pure red cell aphasia

Question 37

Q

How should you investigate normocytic anaemia?

Answer

A

Measure reticulocyte count
High - reassess for blood loss
Low - indicates hypoproliferative anaemia

Question 38

Q

What are some causes of iron deficiency anaemia?

Answer

A

Blood loss e.g. GI bleed, menorrhagia, hookworm,haemorrhagic gastritis
Poor diet/reduced intake (mostly children)
Malabsorption
Increased demand

Question 39

Q

What are some causes of anaemia of chronic disease?

Answer

A

Chronic infections e.g. TB or infective endocarditis
Chronic inflammation e.g. RA, SLE, crohns
Maliganncy

Question 40

Q

What are some causes of sideroblastic anaemia?

Answer

A

Inherited (most commonly x-linked but can be autosomal recessive or maternal)
Or acquired…
Examples include:
Excessive alcohol (mitochondrial damage)
lead poisoning (denatures enzymes important in haem synthesis)
vitamin B6 deficiency e.g. isoniazid treatment (affects mitochondria ability to form haem)
Myelodysplasia

Question 41

Q

What are the causes of vitamin B12 deficiency?

Answer

A

Impaired absorption e.g. pernicious anaemia, gastrectomy as no IF from terminal ileum, ideal disease, coeliac disease

Vegan diet
Tapeworm
?? PPI and contraceptive pill

Question 42

Q

Whats the cause of pernicious anaemia?

Answer

A

Autoimmune condition where antibodies form against the intrinsic factor or parietal cells. A lack of intrinsic factor prevents the absorption of vitamin B12 and the patient becomes B12 deficient

Question 43

Q

What are the causes of folate deficiency?

Answer

A

Poor intake
Malabsorption e.g. coeliac disease and tropical sprue
Excess utilisation e.g. pregnancy, chronic haemolytic anaemia, malignant and inflammatory diseases or dialysis
Drugs e.g. trimethoprim or methotrexate

Question 44

Q

What can cause aplastic anaemia?

Answer

A

Primary: inherited or idiopathic
Secondary: benzene, drugs (chemo, antibiotics, Carbimazole and azathioprine), insecticides, ionising radiation, infections, miscellaneous e.g pregnancy

Question 45

Q

What cause thalassaemia?

Answer

A

Multiple gene defects decrease the rate of production of globin chains. Defects in alpha-globin chains leads to alpha thalassaemia. Defects in the beta-globin chains leads to beta thalassaemia. This leads to cell damage or death of RBC precursors in bone marrow = haemolysis

Question 46

Q

Whats the cause of sickle cell anaemia?

Answer

A

caused by a mutation in the gene that encodes the beta-globin chain of the hemoglobin molecule = haemoglobin S which polymerizes in the deoxygenated state, resulting in physical deformation or sickling of erythrocytes. Sickle erythrocytes promote vaso-occlusion and hemolysis

Question 47

Q

Why do women have a lower Hb than men?

Answer

A

Because of the effect of menstrual blood loss on mean haemoglobin

Question 48

Q

What is RDW?

Answer

A

Red cell distribution width - measure of variety of shapes and sizes of RBCs in sample.

Question 49

Q

What do RBCs look like in iron deficiency anaemia on a blood film?

Answer

A

Hypochromic, microcytic RBCs

Question 50

Q

How do we investigate iron deficiency anaemia? And what’s the problem with this?

Answer

A

We measure ferritin and if its low then its iron deficiency
The problem is that ferritin is an acute phase protein so a normal level does not rule of IDA. Because of this, ferritin levels must be checked alongside a CRP to rule out an inflammatory response

Question 51

Q

Other than ferritin, what else can you look at for IDA diagnosis?

Answer

A

Iron - should be low
Transferrin - should be high
Transferrin saturation - should be low

Question 52

Q

What is hereditary haemochromatosis?

Answer

A

an inherited condition where a mutation in the HFE gene causes increased iron absorption

Question 53

Q

What would iron studies look like for haemochromatoiss?

Answer

A

High ferritin
High iron
Low transferrin
High transferrin saturation

Question 54

Q

What would iron studies look like in anaemia of chronic disease?

Answer

A

Ferritin - norm or high
Low iron
Low transferrin
Low transferrin saturation

Question 55

Q

What would iron studies look like in haemolytic anemia?

Answer

A

Ferritin high
Iron high
Normal/.low transferrin
High transferrin saturation

Question 56

Q

What would you see on a blood film of Megaloblastic anaemia?

Answer

A

Large RBCs oval shape (oval macrocytes)
Often see red cell precursors
Abnormal WBCs
Hypersegmented neutrophils
May be lecupenia and thrombocytopenia if severe

Question 57

Q

What would you see in the bone marrow in Megaloblastic anaemia?

Answer

A

giant metamyelocytes - twice the size of normal RBC and have twisted nuclei
Megaloblasts

Question 58

Q

What are the complications of vitamin B12 deficiency?

Answer

A

Neurological changes - vision, memory, paraesthesia, ataxia, peripheral neuropathy
Infertility
Stomach cancer
Neural tube defects in child

Question 59

Q

Why is LDH high in Megaloblastic anaemia?

Answer

A

an accelerated turnover of bone marrow cells implying the release of this enzyme from dividing and/or decaying cells

Question 60

Q

Whats the pathophysiology of B12 ans folate deficiency causing Megaloblastic anaemia?

Answer

A

Deficiency in folate reduces the supply of the coenzyme methylene tetrahydrofolate which is needed to methylate deoxyuridine monophosphgate, a step required to build DNA
Deficiency of vit B12 also reduces the supply by slowing the demethylation of methyl tetrahydrofolate

Question 61

Q

How is vitamin B12 transported and absorbed?

Answer

A

Vit B 12 is liberated from protein complexes in food by gastric enzymes and then binds to R binder derived from saliva. B12 is released from R binder by pancreatic enzymes and then becomes bound to intrinsic factor (secreted by gastric parietal cells). Intrinsic factor carries b12 to cubilin (a receptor on surface of mucousa of ileum) and it can enter ileal cells, leaving intrinsic factor in the lumen. Vit B12 is transported from enterocytes to other tissues by glycoprotein transcobalamin - this makes it active

Question 62

Q

What is pernicious anaemia?

Answer

A

an autoimmune disorder in which there is atrophic gastritis with loss of parietal cells in the gastric mucosa and consequent failure of intrinsic factor production and vitamin B12 malabsorption.

Question 63

Q

Which foods is folate found in?

Answer

A

Green vegetables and offal e.g. liver and kidney
Note: cooking these causes a loss of 60-90% of folate

Question 64

Q

Whats the main cause of
- vitamin B12 deficiency?
- folate deficiency?

Answer

A

B12 - pernicious anaemia
Folate - poor intake or malabsorption or antifolate drugs e.g. methotrexate

Answer 62

A

Neuropathy

Answer 63

A

Hydroxycobalamin can be given IM for 2 weeks

Answer 64

A

Folic acid daily for 4 months

Answer 65

A

Infertility
Cardiovascular disease
Cancer
Premature childbirth or placental absorption
Neural tube defects in newborn

Answer 66

A

It’s a diagnosis of exclusion

Answer 67

A

Macrocytic polychromatic

Answer 68

A

Circular, densely stained red cells with no central pallor - because RBCs are spherical shape

Answer 69

A

occurs if your body makes antibodies against red blood cells that you get from a blood transfusion
This can occur in haemolytic disease of the newborn and transfusion reactions after transplantation

Answer 70

A

where the small blood vessels have structural abnormalities that cause haemolysis of the blood cells travelling through them. Imagine a mesh inside the small blood vessels shredding the red blood cells. This is usually secondary to an underlying condition:
Haemolytic Uraemic Syndrome (HUS)
Disseminated Intravascular Coagulation (DIC)
Thrombotic Thrombocytopenia Purpura (TTP)
Systemic Lupus Erythematosus (SLE)
Cancer

Answer 71

A

Mediterranean countries and Asia, Africa and middle east

Answer 72

A

Africa, Mediterranean and Asia

Answer 73

A

Increased haemoglobin breakdown

Answer 74

A

When large amounts of free haemoglobin are released into circulation they bind to haptoglobin to prevent its toxic effects. In large amounts of free Hb, decreased haptoglovin is a marker of haemolysis

Answer 75

A

Non-haem iron - fortified cereals, whole grains, leafy greens, dairy, eggs, nuts and seeds
Haem iron - meat, poultry, seafood

Answer 76

A

Hepcidin - regulates the activity of ferroportin (an iron exporting protein)
High hepcidin (e.g. in inflammatory states) destroys ferroportin and limit iron absorption

Answer 77

A

Transferrin (a beta globulin synthesised in the liver)

Answer 78

A

Blood loss
Increased demands e.g. growth or pregnancy
Decreased absorption e.g. post-gastrectomy
Poor intake

Answer 79

A

Oral iron usually ferrous sulphate 200mg 3 times a day with vitamin C continue until 3 months after Hb has returned to normal
If poor tolerance then consider parenteral iron or red cell transfusion

Answer 80

A

decreased release of iron from the bone marrow to developing erythroblasts, an inadequate EPO response to the anaemia, and decreased red cell survival.

Answer 81

A

a refractory anaemia, a variable number of hypochromic cells in the peripheral blood, and excess iron and ring sideroblasts in the bone marrow. Accumulation of iron in mitochondria of erythroblasts

Answer 82

A

Anaemia due to bone marrow failure
Pancytopenia with hypocellularity of the bone marrow
Virtual absence of reticulocyte

Answer 83

A

a reduction in the number of pluripotent stem cells, together with a fault in those remaining or an immune reaction against them so that they are unable to re-populate the bone marrow. Failure of only one cell line may also occur, resulting in isolated deficiencies such as the absence of red cell precursors in pure red cell aplasia.

Answer 84

A

Inherited e.g. fanconi anaemia
Secondary to chemicals, drugs, insecticides, ionising radiation, infections, paroxysmal nocturnal haemoglobinuria
Miscellaneous e,g pregnancy

Answer 85

A

autosomal recessive condition
A congenital cause of aplastic anaemia
It usually presents between the ages of 5 and 10years and is associated with an increased risk of malignancies.
Classic features include abnormal thumbs, absent radii, short stature, skin hyperpigmentation, including café au lait spots, abnormal facial features (triangular face, microcephaly), abnormal kidneys, and decreased fertility.

Answer 86

A

Anaemia
Bleeding - bruising, blood blisters, ecchymoses, epistaxis
Infections

Answer 87

A

Infection - can deplete WBC

Answer 88

A

Haemopoietic stem cell transplant

Answer 89

A

An autosomal dominant condition that causes defects in the red cell membrane - ankrin and spectrin (membrane skeletal proteins) deficiency or mutation which makes RBCs more rigid and less deformable than normal red cells = spherocytes. They are unable to pass through the splenic microcirculation so they have a shortened lifespan.
(This is why they get splenomegaly)

Answer 90

A

Deoxygenated HbS molecules polymerize to produce long chains which are insoluble. The flexibility of the cells is decreased, and they become rigid and take up their characteristic sickle appearance. This process is initially reversible but, with repeated sickling, the cells eventually lose their membrane flexibility and become irreversibly sickled. This shorter so red cell survival and impairs the passage of cells through the micro circulation causing tissue infarction.

Answer 91

A

Infection
Dehydration
Cold
Acidosis
Hypoxia

Answer 92

A

HbS releases its oxygen to the tissues more easily than normal haemoglobin

Answer 93

A

HbSS - homozygous sickle cell - most severe
HbS - sickle cell trait (heterozygous) - asymptomatic

Answer 94

A

Substitution of a glutamine for a valine at position 6 = mutant beta globin = haemoglobin S
Valine is hydrophobic so promotes the stickiness of RBCs

Answer 95

A

2 alpha chains and 2 abnormal beta chains

Answer 96

A

It’s autosomal recessive - abnormal gene on beta globin on chromosome 11.

Answer 97

A

FHx
Anaemia
Blood film will show sickled RBC
Electrophoresis to look for haemoglobin S (more modern techniques are HPAC and mass spectrometry)

Pregnant women at risk of being carriers are offered testing during pregnancy! It’s also tested for on newborn screening heel prick test at 5 days old

Answer 98

A

Sickle cell anaemia is prevalent in areas where malaria is prevalent
This is because sickled haemoglobin makes RBC less suitable for parasites to parasitise.
Sickle cell-trait pt have a survival advantage

Answer 99

A

Children - delayed growth, dactylitis (infarction of small bones of hands), acute splenic sequestration (infarction/enlargement in spleen), aplastic crisis (occurs when infection with parvovirus which is tropic for RBC precursors), cardio respiratory problems, renal impairment

Adults - same problems can occur but in addition acute resp failure, cardiac problems, liver failure, renal problems, a vascular necrosis of hip, chronic ulcers over medial malleolus, increased risk of stroke

Answer 100

A

Sepsis
SSA can cause infarction of the spleen -> hyposplenic -> increases risk of infection mainly with encapsulated bacteria
(This is why children under 5 should receive pneumococcal vaccination and prophylactic penicillin)

Answer 101

A

Vaso-occlusive crisis - acute pain in hands and feet mostly. Bones are a common site for this and it can lead to chronic infarcts
Increased risk of stroke!
Acute chest syndrome - caused by chlamydia, mycoplasma and S. pneumonia.
Pulmonary hypertension
Chronic anaemia due to chronic haemolysis
Splenomegaly - splenic pooling of RBC
Leg ulcers
Priapism
Cardiomegaly, cardia arrhythmias and iron overload cardiomyopathy, MI
Neurological complications - TIA, fits, cerebral infarction, cerebral haemorrhage, coma
Cholelithiasis
Hepatomegaly and liver dysfunction
renal, eye complications
Priapism - unwanted painful errection
Increased risk of infection
Growth and development delays - reach height by adulthood but remain below normal weight and sexual maturation is delayed

Answer 102

A

Pain control
Treat sepsis if present
If hypoxaemic then a red cell exchange is performed - this suppresses production of HbS (aim to reduce HbS to <30%)

Answer 103

A

Over lateral and medial malleolus as poor blood supply - relates to vasoocculasion of small vessels

Answer 104

A

Stenosis of ICA due to intimal hyperplasia (cell population increases within tunica intima).

Answer 105

A

Anaemia suddenly worsened in someone with sickle cell anaemia. E.g. infection with parvovirus causing aplastic crisis
Or splenic sequestration.

Answer 106

A

When you have 3 or more hospital admissions in the past year for a sickle cell crisis or have regular crises at home affecting normal life or have had 2 or more chest crises

Answer 107

A

Increases the number of RBC containing HbF
Helps keep RBC well hydrated and reduce their stickiness which may prevent a crises
Reduces the number of WBC which stops inflammation and crises

Answer 108

A

Lifelong treatment of regular blood transfusions to treat anaemia (if transfusion dependant i.e. homozygous or compound heterozygous) - particularly during times of infection of pregnancy
Chelation therapy to remove excess iron caused by regular blood transfusions
Stem cell or bone marrow transplants - cure but not done very often as significant risks
Long term folic acids

Answer 109

A

Homozygous - identical mutations on both alleles
Compound heterozygous - different damaging mutations on both alleles

Answer 110

A

the excess α chains combine with δ and result in modestly increased quantities of HbA2

Answer 111

A

Alpha - gene deletions
Beta - point mutations

Answer 112

A

To produce heme from protoporphyrin for haemoglobin

Answer 113

A

An X-linked recessive condition
G6PD deficiency means low levels of NADPH which means low levels of reduced glutathione
Glutathione usually neutralises free radicals so it leaves RBCs very susceptible
When these free radicals build up, it causes haemolysis
Damaged Hb in the RBCs can be directly damaged by free radicals and are known as Heinz bodies. Spleen macrophages attempt to remove Heinz bodies, leaving RBCs as ‘bite cells’.
When free radical production increases too much we get oxidative stress - this can be caused by infections, metabolic acidosis, foods and drinks, certain medications

Answer 114

A

Some patients inherit one HbS and another abnormal haemoglobin (HbC) resulting in a milder form of sickle cell disease (HbSC)

Answer 115

A

is by haemoglobin electrophoresis

Answer 116

A

Warm and cold
According to what temperature the antibodies best cause haemolysis

Answer 117

A

Positive direct anti globulin test (Coombs test)

Answer 118

A

The most common type of autoimmune haemolytic anaemia
the antibody (usually IgG) causes haemolysis best at body temperature and haemolysis tends to occur in extravascular sites, for example the spleen.
Strongly positive direct Coombs test

Answer 119

A

Idiopathic
Autoimmune disease e.g. SLE
Neoplasia - lymphoma or chronic lymphocytic leukaemia
Drugs e.g. methyldopa

Answer 120

A

The antibody in cold AIHA is usually IgM and causes haemolysis best at 4 deg C. Haemolysis is mediated by complement and is more commonly intravascular. At lower temperatures antibodies attach to RBC and cause agglutination which the immune system can then destroy in the spleen.
Typically secondary to other conditions such as lymphoma, leukaemia, SLE, EBV, CMV or HIV.
Features may include symptoms of Raynaud’s and acrocynaosis. Patients respond less well to steroids
Positive in direct Coombs test

Answer 121

A

Neoplasia e,.g. Lymphoma
Infections e.g. mycoplasma or EBV

Answer 122

A

Anaemia features - lethargy, pallor, dyspnoea
Neurological features - Peripheral neuropathy with numbness or paraesthesia (pins and needles). Loss of vibration sense or proprioception. Visual changes. Mood or cognitive changes
Mild jaundice
Glossitis

Answer 123

A

progressive weakness, ataxia and paresthesias that may progress to spasticity and paraplegia

Answer 124

A

Because its an antifolate drug so can cause a folate deficiency

Answer 125

A

an increase in plasma volume disproportionate to the increase in haemoglobin, causing an overall decrease in haemoglobin concentration.

Answer 126

A

FBC - low Hb, low MCV
Peripheral blood smear - microcytic hypochromic anisocytosis and poikilocytosis

Answer 127

A

low ferritin, decreased serum iron and increased total iron binding capacity. (Note ferritin will be increase in any acute phase reaction)

Answer 128

A

In RBC
In liver as ferritin and hemosiderin

Answer 129

A

FBC - low Hb and low/normal MCV
Peripheral blood smear - initially nromochromic normocytic but turns into hypochromic microcytic

Answer 130

A

Because its an acute phase reactant

Answer 131

A

These conditions all produce elevation of IL-6 which stimulates hepcidin production and release from the liver, which in turn shuts down ferroportin, reducing circulating iron levels.

Answer 132

A

Treat underlying disorder
Recombinant EPO therapy can be used in anaemia of renal disease
(No point transfusing as they would fall back to where they were)

Answer 133

A

X-linked disease or autosomal recessive
X-linked is caused by a mutation in ALAS2 (so mostly in boys)

Answer 134

A

Defective protoporphyrin synthesis which results in impaired incorporation of iron to form haem, whose biosynthesis takes place partly in the mitochondrion. This leads to deposits of iron in the mitochondria that form a ring around the nucleus called a ring sideroblast. It may be congenital or acquired

Answer 135

A

FBC - low MCV
Peripheral blood smear - dimOrphic population of normal and hypochromic RBCs. Basophilic stippling and pappenheimer bodies

Answer 136

A

High serum iron
Increased ferritin
Decreased total iron binding capacity

Answer 137

A

In 1/3rd of cases there is splenomegaly

Answer 138

A

Avoiding alcohol and vitamin C to reduce iron absorption (both increase acidity so turn Fe3+ into its absorbable Fe2+ state)
Remove causative agents
Red cell transfusions for symptomatic anaemia
EPO, pyridoxine and Ciclosporin can be used

Answer 139

A

Defective synthesis of globin chain leads to imbalanced globin chin production, cause precipitation of the excess globin chains within the red cell precursors and resulting in ineffective erythropoeisis. This precipitation leads to haemolysis of red cells.
There are alpha and beta thalassaemias

Answer 140

A

Either no normal beta chains are produced or beta chain production is very reduces
This leaves an excess of alpha chains with precipitate in erythroblasts and red cells, causing ineffective erythropoeisis and haemolysis

In the carrier state, excess alpha chains combine with delta and result in modestly increased quantities of HbA2 which i used for screening.

Answer 141

A

In thalassemia trait, the serum ferritin and iron stores are normal

Answer 142

A

Symptomatic patients with moderate anaemia but do not require regular transfusions
Patient may have seen omega lay, bone deformities, recurrent leg ulcers, gallstones and infections

Answer 143

A

Thalassaemia major
Present during the first year of life with FTT, recurrent bacterial infections, severe anaemia, hepatosplenomegaly and bone expansion, hair on end appearance on skull X-ray

Answer 144

A

FBC - low Hb, high reticulocyte count
Blood films - sickling
Sickle solubility test
Haemoglobin electrophoresis - 80-95% HbS
Parents having sickle cell trait

Answer 145

A

Iv fluids and adequate analgesia for acute painful attacks - morphine
Infection prophylaxis with penicillin 500mg daily and vaccination for those without a functioning spleen
Folic acid
Blood transfusions
Hydroxycarbamide
Stem cell transplantation
Counselling

Answer 146

A

60% HbA and 40% HbS

Answer 147

A

Myelodysplasia
Paroxysmal nocturnal haemoglobinuria
AML

Answer 148

A

Look for pancytopenia, absence of reticulocyte and hypocellularity in the bone marrow with increased fat spaces

Answer 149

A

Treat cause
Treat any signs of infection with broad spec antibiotics
Haematopoeitic stem cells for those under 40 with severe aplastic anaemia who have a HLA identical sibling donor, where it gives 75-90% chance of long term survival
Otherwise immunosuppressive treatment with antithymocyte globulin and Ciclosporin can be given or a stem cell transplant can be used

Answer 150

A

Extravascular haemolysis - red cells are removed from the circulation by macrophages in the reticuloendothelial system

Intravascular haemolysis - red cells are rapidly destroyed within circulation and Hb is liberated.

Answer 151

A

Red cell membrane defects - hereditary spherocytosis, elliptocytosis and stomatocytosis
Haemoglobinopaties - thalassaemia and sickle syndromes
Metabolic disorders of the red cell - G6PD deficiency or pyruvate kinase deficiency

Answer 152

A

Immune causes e.g. alloantobodies and autoantibodies
Non-immune causes e.g, paroxysmal nocturnal haemoglobinuria, prosthetic heart valves, secondary to systemic disease
Miscellaneous causes e.g. toxins, malaria, hypersplenism,burns, drugs, ingested chemicals

Answer 153

A

An x-linked recessive disorder characterised by defective G6PD enzymes with shorter half lives which leads to the destruction of RBCs
It causes crises triggered by infections, medications and broad beans (fava beans)

Answer 154

A

mutation on G6PD gene which is on the X chromosome, and thus us an X-linked recessive condition
So almost exclusively manifests in men - as they have 1 X chromosome
Females are only carries and only transmit disease to their sons

Answer 155

A

Because it makes the RBCs more susceptible to oxidants and therefore will also kill malaria parasites (only the Mediterranean variant)

Answer 156

A

Metabolic acidosis
Infections - viral hepatitis and pneumonia
Foods/drinks - fava beans, soy products, red wine
Certain meds - primaquine and chloroquine (malaria treatment), aspirin, ibuprofen, ibuprofen and sulfonamide drugs

Answer 157

A

Autosomal recessive disorder causing a defect in pyruvate kinase

Answer 158

A

Deficiency in PK means it cannot help in glycolysis and therefore RBCs are deficient in ATP
This means Na+/K+ ATPase pump cannot work, making K+ leak out and water moves out also. The cell shrinks and forms echinocytes (burr cells)
These RBCs get trapped in the spleen causing extravascular haemolysis

Answer 159

A

The direct Coombs test detects antibodies that are stuck to the surface of the red blood cells
The indirect Coombs detects antibodies that are floating freely in the blood

Answer 160

A

Corticosteroids
Splenectomy 2nd line
Rituximab in those who fail to respond to steroids
Blood transfusion if severe anaemia

Answer 161

A

ABO - mother is group O and foetus is group A

Answer 162

A

Maternal alloantibodies against foetal red cell antigens pass from the maternal circulation via the placenta into the foetus, where they destroy foetal red cells.

Answer 163

A

a rare condition that occurs when a specific genetic mutation in the haematopoietic stem cells in the bone barrow occurs during the patients lifetime. The specific mutation results in a loss of the proteins on the surface of red blood cells that inhibit the complement cascade. The loss of protection against the complement system results in activation of the complement cascade on the surface of red blood cells and destruction of the red blood cells.

Answer 164

A

Reticulocytosis : An elevation in the number of reticulocytes in blood, a sign of unusually rapid red blood cell production.

Reticulocytes are incompletely processed RBCs and, therefore, are slightly larger than the average RBC.

Answer 165

A

an autosomal recessive disorder characterised by excessive copper deposition in the tissues
Causes haemolysis

Answer 166

A

free haemoglobin is released which then binds to haptoglobin. As haptoglobin becomes saturated haemoglobin binds to albumin forming methaemalbumin (detected by Schumm’s test). Free haemoglobin is excreted in the urine as haemoglobinuria, haemosiderinuria

Answer 167

A

Macrocytic normbolastic

Answer 168

A

Myelofibrosis

Answer 169

A

Hereditary spherocytosis
Autoimmune haemolytic anaemia

Answer 170

A

Lead poisoning
Thalassaemia
Sideroblastic anaemia
Myelodysplasia

Answer 171

A

Hyposplenism

Answer 172

A

G6PD deficiency
Alpha thalassaemia

Answer 173

A

Intravascular haemolysis
Mechanic heart valve
Disseminated intravascular coagulation

Answer 174

A

Uraemia
Pyruvate kinase deficiency

Answer 175

A

Megaloblastic anaemia

Answer 176

A

Mismatched blood transfusion
G6PD deficiency
Red cell fragmentation - heart valves, TTP, DIC, HUS
Paroxysmal nocturnal haemoglobinuria
Cold autoimmune haemolytic anaemia

Answer 177

A

Haemoglobinopathies
Hereditary spherocytosis
Haemolytic disease of the newborn
Warm autoimmune haemolytic anaemia

Answer 178

A

Haemoglobinopathies
IDA
Hyposplenism
Liver disease

Answer 179

A

Hypersensitivity type 2 - IgG or IgM binds to antigen on cell surface

Answer 180

A

Causes renal papillary necrosis

Answer 181

A

A triad of AKI, microangiopathic haemolytic anaemia and thrombocytopenia

Answer 182

A

Thalassaemia

Answer 183

A

Acute presents as normochromic normocytic
Chronic presents as hypochromic microcytic

Answer 184

A

Iron deficiency
Thalassaemia

Answer 185

A

an inherited blood disorder that affects the ability of the bone marrow to produce red blood cells - pure red cell aplasia
Manifests in early infancy

Answer 186

A

Posterior iliac crest

Answer 187

A

Alcoholism
Liver disease
Hypothyroidism
COPD

Answer 188

A

Congenital cyanosis heart disease
high altitudes or deep sea diving
COPD
Renal cell carcinoma
Polycythemia Ruben vera
Dehydration
Heart failure
Liver cancer.

Answer 189

A

Recurrent episodes of jaundice and anaemia and splenomegaly

Answer 190

A

Most cases are secondary (termed ‘typical HUS’):
classically Shiga toxin-producing Escherichia coli (STEC) 0157:H7. This is the most common cause in children, accounting for over 90% of cases
pneumococcal infection
HIV
rare: systemic lupus erythematosus, drugs, cancer

Primary HUS (‘atypical’) is due to complement dysregulation.

Answer 191

A

HCL is required for iron adsorption in the duodenum and proximal jejunum. The low pH of gastric acid allows a ferric reductase enzyme to convert insoluble ferric to absorbable ferrous iron.
PPIs reduce the production of HCL so they reduce the absorption of iron

Answer 192

A

Oral iron or if not possible then IV iron

Answer 193

A

Megaloblastic anaemia

Answer 194

A

Anything that decreases the lifespan of a RBC - haemodialysis, haemolytic anaemia, renal anaemia, renal dialysis, chronic malaria, acute blood loss, recent transfusion, drugs e.g. anti-psychotics, corticosteroids, management of HIV, alcohol consumption and aspirin

Answer 195

A

Upper and lower GI endoscopy as a 2ww

Answer 196

A

lead poisoning, sideroblastic anaemia, impaired Hb synthesis, alcoholism, and megaloblastic anemias

Answer 197

A

Testing for auto-antibodies is used to diagnose pernicious anaemia.

Intrinsic factor antibody is the first line investigation
Gastric parietal cell antibody can also be tested but is less helpful

Answer 198

A

1mg of intramuscular hydroxycobalamin 3 times weekly for 2 weeks, then every 3 months. More intense regimens are used where there are neurological symptoms
(Not its IM not oral as problem is with absorption)

Answer 199

A

Treat b12 deficiency first with IM hydroxycobalamin
Then treat folate deficiency
(Treating patients with folic acid when they have a B12 deficiency can lead to subacute combined degeneration of the cord. This is because folic acid will correct ther anaemia so delay diagnosis of vitamin B12 deficiency but will not prevent progression of neurological damage)

Answer 200

A

Gluten-induced enteropathy

Answer 201

A

Eggs
Foods fortified with B12
Meat
Milk and dairy
Salmon and cod

Answer 202

A

Asparagus
Broccoli
Brown rice
Brussel sprouts
Chickpeas
Peas

Answer 203

A

It presents with jaundice, gallstones, splenomegaly and notably aplastic crisis in the presence of the parvovirus

Answer 204

A

Folate supplementation and splenectomy
Cholecystectomy if gallstones are a problem

Answer 205

A

Jaundice in neonatal period
Gallstones
Anaemia
Splenomegaly
Heinz bodies on blood film

Answer 206

A

primaquine (an antimalarial), ciprofloxacin, sulfonylureas, sulfasalazine and other sulphonamide drugs.

Answer 207

A

Blood transfusions
Prednisolone
Rituximab
Splenectomy

Answer 208

A

Red urine in the morning (due to concentrated urine from overnight)
Anaemic
Predisposed to thrombosis and smooth muscle dystonia ( oesophageal spasm, erectile dysfunction)

Answer 209

A

Management is with eculizumab or bone marrow transplantation. Eculizumab is a monoclonal antibody that targets complement component 5 (C5) causing suppression of the complement system. Bone marrow transplantation can be curative.

Answer 210

A

Microcytic anaemia (low mean corpuscular volume)
Fatigue
Pallor
Jaundice
Gallstones
Splenomegaly (spleen collects all destroyed RBCs)
Poor growth and development
Pronounced forehead and malar eminences (due to bone marrow expanding to try to produce extra RBCs to compensate for the chronic anaemia)

Answer 211

A

Full blood count shows a microcytic anaemia.
Haemoglobin electrophoresis is used to diagnose globin abnormalities.
DNA testing can be used to look for the genetic abnormality

Pregnant women in the UK are offered a screening test for thalasseamia at booking.

Answer 212

A

as a result of faulty creation of red blood cells, recurrent transfusions and increased absorption of iron in response to the anaemia.

Patients with thalassaemia have serum ferritin levels monitored to check for iron overload. Management involves limiting transfusions and iron chelation.

Answer 213

A

Thalassaemia minor - carriers of abnormally functioning beta globin gene. They have 1 abnormal and 1 normal gene = causes mild microcytic anaemia (often require monitoring and no active treatment)
Thalassaemia intermedia - 2 abnormal copies of gene which are either both defective or 1 defective and 1 deletion gene. Causes a more significant microcytic anaemia and pt require monitoring and occasional blood transfusions
Thalassaemia major - homozygous for deletion gene. Most severe and presents with severe anmaemia and FTT in early childhood. It causes splenomegaly and bone deformities. May require a curative bone marrow transplant

Answer 214

A

Avoid things that can trigger a sickle cell crisis e.g. dehydration, sudden temperature changes, high altitudes etc
Ensure vaccines are up to date
Antibiotic prophylaxis to protect against infection with penicillin V (phenoxymethypenicillin)
Hydroxycarbamide can be used to stimulate production of fetal haemoglobin (HbF). Fetal haemoglobin does not lead to sickling of red blood cells. This has a protective effect against sickle cell crises and acute chest syndrome.
Blood transfusion for severe anaemia
Bone marrow transplant can be curative

Answer 215

A

An umbrella term for a spectrum of acute crises related to the condition e.g. Vaso-occlusive crisis, splenic sequestration crisis, aplastic crisis, acute chest syndrome. These range from mild to life threatening. They can occur spontaneously or be triggered by stresses such as infection, dehydration, cold or significant life events.

Answer 216

A

AKA painful crisis
caused by the sickle shaped blood cells clogging capillaries causing distal ischaemia.
It is associated with dehydration and raised haematocrit.
Symptoms are typically pain (typically hands and feet), fever and those of the triggering infection.
It can cause priapism in men by trapping blood in the penis causing a painful and persistent erection. This is a urological emergency and is treated with aspiration of blood from the penis.

Answer 217

A

caused by red blood cells blocking blood flow within the spleen. This causes an acutely enlarged and painful spleen. The pooling of blood in the spleen can lead to a severe anaemia and circulatory collapse (hypovolaemic shock).
It’s an emergency!
Splenectomy is often used in cases of recurrent crisis

Answer 218

A

Aplastic crisis describes a situation where there is a temporary loss of the creation of new blood cells. This is most commonly triggered by infection with parvovirus B19.
It leads to significant anaemia.
Management is supportive with blood transfusions if necessary.
It usually resolves spontaneously within a week.

Answer 219

A

a new radiodensity on chest imaging accompanied by fever and/or respiratory symptoms. It is an acute complication of sickle cell disease (SCD) that is potentially fatal and requires immediate intervention regardless of the patient’s age
Management - Antibiotics or antivirals for infections, blood transfusions for anaemia, incentive spirometry using a machine that encourages effective and deep breathing, artificial ventilation with NIV or intubation may be required

Answer 220

A

Hair on end appearance
Aka crew cut appearance

(It’s a characteristic feature of chronic haemolysis e.g. thalassaemia and sickle cell anaemia)

Answer 221

A

Due to excessive accumulation of iron in tissues and organs
The iron comes from the break down of RBC as well as excessive iron absorption and regular blood transfusions

Answer 222

A

Haemoglobin electrophoresis will show low HbA but increased HbF and HbA2 levels (as excess alpha chains bind to beta and delta chains)

Answer 223

A

Beta thalassaemia major
Sometimes intermediate beta-thalassemia with decreased beta chain synthesis

Answer 224

A

Because this is when the abnormal HbSS molecules take over from HbF

Answer 225

A

Indicative of ineffective haemotpoeisis
It’s the presence of numerous basophilic granules that are dispersed through the cytoplasm of erythrocytes

Answer 226

A

Abnormal basophilic granules of iron found inside RBCs
Appear as dense, blue-purple granules within the RBCs
Found in sideroblastic anaemia, myelodysplastic syndrome, haemolytic anaemia, lead poisoning and sickle cell disease

Answer 227

A

A RBC containing no haemoglobin iron i.e. containing a pappenheimer body

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HAEMATOLOGY - ANAEMIA Flashcards

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