Haematology

Question 1

What is leukaemia?

Answer 1

Cancer of a particular line of stem cells in the bone marrow, causing unregulated production of certain types of blood cells.

Question 2

What does leukaemia lead to?

Answer 2

Pancytopenia (decreased production of other hematopoietic cells):
-Anaemia, leukopenia, thrombocytopenia.

Question 3

How is leukaemia classified?

Answer 3

By the speed of progression (acute/chronic) and the stem cell line that is affected (myeloid or lymphoid).

Question 4

What are the main four types of leukaemia?

Answer 4

Acute myeloid leukaemia.
Chronic myeloid leukaemia.
Acute lymphoid leukaemia.
Chronic lymphoid leukaemia.

Question 5

How does leukaemia present?

Answer 5

Non-specific - fatigue, fever, failing to thrive, infections.

Question 6

What are four signs of leukaemia?

Answer 6

Pallor, abnormal bleeding/bruising, lymphadenopathy and hepatosplenomegaly.

Question 7

Which investigations are used for leukaemia?

Answer 7

FBC and blood film.
Lactose dehydrogenase.
Bone marrow biopsy, lymph node biopsy.
Imaging - chest XR, CT, MRI, PET.

Question 8

How is leukaemia treated?

Answer 8

Primarily with chemotherapy and steroids.
Radiotherapy and bone marrow transplant.

Question 9

What is acute myeloid leukaemia?

Answer 9

Fast neoplastic proliferation of myeloid stem cells.

Question 10

What is the prognosis for acute myeloid leukaemia?

Answer 10

Severe, 20% survive in 5y.

Question 11

Which acute leukaemia is the most common?

Answer 11

Acute myeloid leukaemia.

Question 12

Who is affected by acute myeloid leukaemia?

Answer 12

In adults, mostly the elderly.

Question 13

What is a distinguishing feature of acute myeloid leukaemia?

Answer 13

On blood film, a high proportion of blast cells have Auer rods.
Gum hypertrophy.

Question 14

What is chronic myeloid leukaemia?

Answer 14

Slow neoplastic proliferation of myeloid cells (eosinophils, basophils, neutrophils).

Question 15

What happens to chronic myeloid leukaemia if not treated fast enough or diagnosed late?

Answer 15

May progress to acute myeloid leukaemia.

Question 16

What is characteristic of chronic myeloid leukaemia?

Answer 16

Philadelphia chromosome (translocation of genes between chromosome 9 and 22).

Question 17

What are the stages of chronic myeloid leukaemia?

Answer 17

Three stages based on blast cell percentage:

<10 = Chronic.
10-20 = Accelerated.
>30 = Blast crisis.

Question 18

What is acute lymphoid leukaemia?

Answer 18

Acute neoplastic proliferation of a type of lymphoblast stem cell.

Question 19

Which leukaemia is the most common in childhood?

Answer 19

Acute lymphoid leukaemia.

Question 20

What is acute lymphoid leukaemia associated with?

Answer 20

Down’s syndrome.

Question 21

Who does acute lymphoid leukaemia affect?

Answer 21

Children under 5 and adults over 45.

Question 22

What genetic abnormality is associated with acute lymphoid and chronic myeloid leukaemia?

Answer 22

Philadelphia chromosome (translocation of gene from chromosome 9 to 22).

Question 23

What does a blood film of acute lymphoid leukaemia show?

Answer 23

Blast cells.

Question 24

What is chronic lymphoid leukaemia?

Answer 24

Chronic proliferation of lymphocytes (usually B).

Question 25

Which is the most common leukaemia?

Answer 25

Chronic lymphoid leukaemia.

Question 26

What is chronic lymphoid leukaemia associated with?

Answer 26

Warm haemolytic anaemia.

Question 27

What is a complication of chronic lymphoid leukaemia?

Answer 27

Richter transformation - CLL to aggressive lymphoma.

Question 28

What is seen on blood film for chronic lymphoid leukaemia?

Answer 28

Smudge cells.

Question 29

What is a rare and dangerous complication of chemotherapy?

Answer 29

Tumour lysis syndrome.

Question 30

What is tumour lysis syndrome? What can it cause?

Answer 30

When chemotherapy destroys cells and they release uric acid. Can sit in tissue and cause AKI.

Question 31

How is tumour lysis syndrome treated/prevented?

Answer 31

Allopurinol.

Question 32

What is lymphoma?

Answer 32

Cancers that affect the lymphocytes of the lymphatic system.

Question 33

How does lymphoma cause lymphadenopathy?

Answer 33

Cancerous cells proliferate within the lymph nodes that makes them abnormally large.

Question 34

What is the difference between Hodgkin’s and non-Hodgkin’s lymphoma?

Answer 34

Hodgkin’s - Reed Steinberg cells.
Non-Hodgkin’s - Non Reed Steinberg cells.

Question 35

What is a Reed Steinberg cell?

Answer 35

Cell of Hodgkin’s lymphoma.
Abnormally large B cells with multiple nuclei with nucleoli in them (OWL).

Question 36

What are the four most common types of Non-Hodgkin’s lymphoma?

Answer 36

Diffuse large B cell (mc), Burkitt, follicular, MALT.

Question 37

How many lymphomas are Hodgkin’s?

Answer 37

1 in 5 lymphomas.

Question 38

How do lymphomas usually present?

Answer 38

With a painless rubbery lymphadenopathy.
B symptoms - Fever, night sweats, weight loss.

Question 39

What are other five symptoms of lymphoma?

Answer 39

Fatigue, cough, SOB, abdominal pain and recurrent infections.

Question 40

What is the difference between lymphadenopathy in lymphomas?

Answer 40

Hodgkin’s - May be painful after drinking alcohol.
Non-Hodgkin’s - Not painful after drinking alcohol.

Question 41

Describe the epidemiology of Hodgkin’s lymphoma.

Answer 41

Bimodal - Affects teens and the elderly.

Question 42

What are four risk factors for Hodgkin’s lymphoma?

Answer 42

HIV, EBV, autoimmune conditions and family history.

Question 43

How is lymphoma diagnosed?

Answer 43

Lymph node biopsy.
Hodgkin’s - Reed Steinberg cells.
Non-Hodgkin’s - Confirms subtype.

Question 44

What investigations are used to diagnose lymphoma?

Answer 44

Lymph node biopsy.
Lactose dehydrogenase.
Imaging for staging (CT, MRI, PET).

Question 45

Describe Ann Arbor staging for lymphoma.

Answer 45

1. Single lymph node.
2. More than two lymph nodes on same side of diaphragm.
3. Affects lymph nodes on both sides of diaphragm.
4. Spreads outside of the lymph nodes.

Question 46

How is lymphoma treated?

Answer 46

Chemotherapy and radiotherapy.
Monoclonal antibodies such as rituximab.
Stem cell transplantation.

Question 47

What are the four main side effects of chemotherapy?

Answer 47

Tumour lysis syndrome, infertility, infections, other malignancy.

Question 48

What are the six risk factors for Non-Hodgkin’s lymphoma?

Answer 48

HIV, EBV, H. pylori, Hep B/C, family history and pesticides.

Question 49

What is myeloma? What does it result in?

Answer 49

Cancer of the plasma cells which results in the production of one type of Ig.

Question 50

Which Ig’s are most commonly produced in myeloma?

Answer 50

IgG (55% - mc) and IgA (25%).

Question 51

Who is myeloma most common in? What is the average age?

Answer 51

Mostly in those over 40 and most common in those over 60. Average age is 70.

Question 52

What is multiple myeloma?

Answer 52

Where myeloma affects multiple areas of the body.

Question 53

What are the five risk factors for myeloma?

Answer 53

Old, male, obesity, family history and Black African ethnicity.

Question 54

What are the signs and symptoms of myeloma?

Answer 54

OLD CRAB:

-Old (70+).
-HyperCalcaemia.
-Renal failure.
-Anaemia.
-Bone lesions.

Question 55

Why does anaemia occur in myeloma?

Answer 55

Plasma cells invade the bone marrow and suppress the other blood lines.

Question 56

Why does bone disease occur in myeloma?

Answer 56

The malignant plasma cells release cytokines which increase osteoclast cells and suppress osteoblasts.
-Causes thin bones and osteolytic lesions.

Question 57

How does hypercalcaemia occur in myeloma?

Answer 57

The increased osteoclast activity releases more calcium.

Question 58

Why does renal disease occur in myeloma?

Answer 58

High number of antibodies block the tubules.

Question 59

Why does blood become more viscous in myeloma?

Answer 59

More antibodies in the blood means higher protein in the blood which makes it thicker.

Question 60

What investigations are first used in myeloma? What is found?

Answer 60

FBC - Low WCC, anaemia.
ESR, calcium and plasma viscosity - Raised.

Question 61

What are the second stage of investigations used for myeloma?

Answer 61

BLIP:
-Bence-Jones protein (urine dipstick).
-Serum-free Light chain assay.
-Serum Immunoglobulins.
-Serum Protein electrophoresis.

Question 62

What are the third stage investigations used for myleoma?

Answer 62

Bone marrow biopsy.
Imaging - whole body MRI, CT and skeletal survey.

Question 63

What is found on XRAY/skeletal survey for myeloma?

Answer 63

1. Punched out lesions.
2. Osteolytic lesions.
3. Raindrop skull.

Question 64

What is a differential diagnosis of myeloma?

Answer 64

MGUS - Monoclonal gammopathy of undetermined significance.

Question 65

What is MGUS and what is it’s significance?

Answer 65

An excess single type of antibody with myeloma or cancer.
May progress to myeloma (1%).

Question 66

What are the treatment options for myeloma?

Answer 66

Chemotherapy (extend quantity of life).
Bisphosphonates (suppress osteoclasts).
Radiotherapy.
Consider stem cell transplant.

Question 67

Describe the prognosis of myeloma.

Answer 67

Median survival is 5y.
1/3rd of patients die within 3 months.

Question 68

What are three life threatening complications of myeloma?

Answer 68

Renal failure, hypercalcaemia, spinal cord compression.

Question 69

What is glandular fever?

Answer 69

An infection caused by Epstein-Barr virus (EBV).

Question 70

How is glandular fever spread?

Answer 70

Via saliva (kissing, sharing cups).

Question 71

Who does glandular fever affect?

Answer 71

Mostly 15-24y/o and also children.

Question 72

How do people with glandular fever present?

Answer 72

With varied mild symptoms for a few weeks.
-Sore throat, fever, fatigue, lymphadenopathy and hepatosplenomegaly.

Question 73

What is malaria?

Answer 73

An infectious disease caused by members of the Plasmodium family of protozoan parasites and is spread via female anopheles mosquitos.

Question 74

What are the types of malaria?

Answer 74

Most common and most severe - P. falciparum.
Others - P. ovale, P. vivax, P. malariae.

Question 75

Who and where is malaria most common?

Answer 75

In Africa.
In the very young, very old and pregnant.

Question 76

Describe the pathophysiology of malaria.

Answer 76

-Sporozoites in the mosquito saliva go into host human.
-They multiply inside hepatocytes as merozoites.
-They infect RBCs and multiply until rupture and releasing more merozoites into the blood.

Question 77

What can malaria lead to?

Answer 77

Haemolytic anaemia.

Question 78

Why do people infected with malaria have fever spikes every 48 hours?

Answer 78

Merozoites in the RBCs multiply for 48 hours then rupture.

Question 79

How do patients with malaria present?

Answer 79

With a history of recent exotic travel, fever and non-specific symptoms.

Question 80

What six symptoms does malaria causes?

Answer 80

Fever, sweats, malaise, myalgia, headache and vomiting.

Question 81

What three signs does malaria cause?

Answer 81

Pallor due to anaemia, hepatosplenomegaly and jaundice.

Question 82

How is malaria diagnosed?

Answer 82

Malaria blood film.
3 separate readings are taken over 3 days to exclude malaria.
-This confirms subtype.

Question 83

How is malaria prevented?

Answer 83

To be aware of high risk locations.
To use mosquito spray, nets and take medications.

Question 84

Which medications are used for malaria?

Answer 84

Antimalarials - Malarone, mefloquine, doxycycline and quinine.

Question 85

What are the complications of falciparum in malaria?

Answer 85

Seizures, reduced consciousness, AKI, DIC, multi-organ failure and death.

Question 86

What is polycythaemia?

Answer 86

A high concentration of RBCs in the blood.
Erythrocytosis of any cause.

Question 87

What is polycythaemia vera?

Answer 87

High RBC concentration caused by a mutation that proliferates the erythroid stem cell line.

Question 88

What are the primary and secondary causes of polycythaemia?

Answer 88

Primary - Polycythaemia vera.
Secondary - Hypoxia, dehydration, alcohol, high EPO.

Question 89

What mutation is involved in polycythaemia vera?

Answer 89

JAK2.

Question 90

What are the first symptoms of polycythaemia vera?

Answer 90

Initially asymptomatic.

Question 91

What are 4 systemic symptoms of polycythaemia?

Answer 91

Fatigue, weight loss, night sweats, fever.

Question 92

Give four symptoms of polycythaemia.

Answer 92

Itchy after a bath, erythromelalgia (burning pain and redness on skin), blurred vision and headache.

Question 93

Give two signs of polycythaemia.

Answer 93

Reddish plethoric complexion, hepatosplenomegaly.

Question 94

What investigations are used in polycythaemia vera?

Answer 94

FBC, bone marrow biopsy and genetic testing (JAK2).

Question 95

What is found on FBC of polycythaemia vera?

Answer 95

Increased haemoglobin (RBCs).

Question 96

What is the aim of polycythaemia treatment?

Answer 96

To maintain normal blood count as it’s non-curative.

Question 97

How is polycythaemia vera treated and why?

Answer 97

Venesection to maintain normal haemoglobin level.
Aspirin to prevent thrombus formation.
Consider chemotherapy (hydroxycarbamide) - can control the disease.

Question 98

What is thrombocytopenia?

Answer 98

Deficiency of platelets in the blood.

Question 99

What two ways can thrombocytopenia arise?

Answer 99

With production or destruction problems.

Question 100

What are the five production problems that lead to thrombocytopenia?

Answer 100

Sepsis. B12/folate deficiency, liver failure and leukaemia.

Question 101

What are the four destruction problems that lead to thrombocytopenia?

Answer 101

Medication, alcohol, ITP and TTP.

Question 102

How does thrombocytopenia usually present?

Answer 102

Bleeding:
1. Nosebleeds (epistaxis).
2. Bleeding gums.
3. Heavy periods (menorrhagia).
4. Easy bruising.
5. Blood in urine and stools.

Question 103

Which five differential diagnoses should be considered with abnormal or prolonged bleeding?

Answer 103

Thrombocytopenia, haemophilia A/B, Von Willebrand disease, DIC.

Question 104

What is immune thrombocytopenic purpura?

Answer 104

An autoimmune condition against platelets which leads to thrombocytopenia.

Question 105

How is immune thrombocytopenic purpura treated?

Answer 105

Prednisolone (steroids), IV Ig’s, rituximab and splenectomy.

Question 106

What is thrombotic thrombocytopenic purpura?

Answer 106

A deficiency of the protein called ADAMTS13 which leads to thrombocytpenia.

Question 107

Explain the pathophysiology of thrombotic thrombocytopenic purpura.

Answer 107

ADAMTS13 usually inactivates VWF, but as it’s deficient it doesn’t and tiny clots form throughout the body, taking up platelets and leading to thrombocytopenia.

Question 108

What is a sign of ITP and TTP?

Answer 108

Purpuric rash.

Question 109

What can thrombotic thrombocytopenic purpura lead to?

Answer 109

Haemolytic anaemia - due to the small clots breaking apart RBCs.

Question 110

How does a deficiency of ADAMTS13 in TTP occur?

Answer 110

Genetic mutation or autoimmune.

Question 111

How is thrombotic thrombocytopenic purpura treated?

Answer 111

Plasma exchange, steroids and rituximab.

Question 112

Which drugs can cause abnormal bleeding?

Answer 112

Over anticoagulation:

-Heparin, aspirin, clopidogrel, thrombolytics.

Question 113

Which inherited conditions can cause abnormal/prolonged bleeding?

Answer 113

Haemophilia A/B, Von Willebrand disease.

Question 114

What is Haemophilia?

Answer 114

Inherited severe bleeding disorders.

Question 115

What are the types of Haemophilia?

Answer 115

A - Factor VIII deficiency.
B - Factor IX deficiency.

Question 116

What is the inheritance pattern of haemophilia?

Answer 116

X-linked recessive.

Question 117

Explain why almost all patients affected by haemophilia A and B are men?

Answer 117

X-linked recessive inheritance.
-Men only have one X chromosome whereas women have two.
-Women require two abnormal copies and if they have only one they’re carriers.
-For a woman to be affected she must have an affected father and a mother who is affected/carrier.

Question 118

What are the symptoms of haemophilia?

Answer 118

Spontaneous bleeds and abnormal bleeds.

Question 119

In haemophilia, where are some locations of abnormal bleeding?

Answer 119

Into gums, GI tract, urinary tract, retroperitoneum, in the brain.

Question 120

What are two features of severe haemophilia?

Answer 120

Spontaneous bleeding into joints and muscles.

Question 121

When and how does haemophilia usually present?

Answer 121

In neonates with intercranial bleeding, haematomas and cord bleeding.

Question 122

How is haemophilia diagnosed?

Answer 122

Based on bleeding scores, coagulation factor assays and genetic testing.

Question 123

How is haemophilia treated?

Answer 123

The affected clotting factor should be replaced (A8B9).
-Desmopressin to stimulate VWF release.
-Antifibrinolytics (tranexamic acid).

Question 124

What is Von Willebrand disease?

Answer 124

Mostly autosomal dominant mutations that involves the deficiency, malfunctioning or absence of VWF. This leads to abnormal/prolonged bleeding.

Question 125

What is the most common cause of inherited bleeding?

Answer 125

Von Willebrand disease.

Question 126

What are the types of Von Willebrand disease?

Answer 126

Type 1 to type 3.
-Type 3 is the most severe.

Question 127

What are the symptoms of Von Willebrand disease?

Answer 127

History of unusually easy, prolonged or heavy bleeding.
-Bleeding gums when brushing teeth.
-Epistaxis and menorrhagia.

Question 128

How is Von Willebrand disease diagnosed?

Answer 128

Family history of bleeding or VW disease is relevant.
-Bleeding assessment.
-Clotting factor assays to rule out haemophilia.
-Decreased/absent VWF.

Question 129

How is Von Willebrand disease treated? How is it treated in women?

Answer 129

Desmopressin (stimulates release of VWF).
VWF infusion.
-Women with menorrhagia:
Coil, combined pill, tranexamic acid, hysterectomy.

Question 130

What is DIC?

Answer 130

Disseminated intravascular coagulopathy.
-Massive activation of the coagulation cascade which leads to bleeding.

Question 131

What causes DIC?

Answer 131

Trauma, sepsis, malignancy.

Question 132

Explain the pathophysiology of DIC.

Answer 132

Platelets unnecessarily consumed and thrombose in capillaries leading to a lack of systemic platelets and an increased risk of bleeding.

Question 133

How is DIC diagnosed?

Answer 133

Bloods - decreased fibrinogen, platelets and increased D-dimer.
Blood smear - schistocytes.

Question 134

How is DIC treated?

Answer 134

-Treat underlying cause.
-Cryoprecipitate (low fibrinogen).
-Platelets transfusion.

Question 135

What is HIV?

Answer 135

A retrovirus that enters and destroys CD4 T helper cells, which causes immunosuppression and AIDS.

Question 136

What are the types of HIV?

Answer 136

HIV-1 - most common and more virulent.
HIV-2 - less common, less virulent and rare outside West Africa.

Question 137

What is AIDS?

Answer 137

Acquired immunodeficiency syndrome (late stage HIV).
-Less than 200 CD4/ml.

Question 138

How is HIV transmitted?

Answer 138

Not through day-to-day activities.
-Unprotected sex (anal, vaginal, oral).
-Vertical transmission (any stage of pregnancy, birth and breastfeeding).
-Mucous membrane, blood or open wound exposure to infected blood (needles).

Question 139

What are the 4 main risk factors for HIV?

Answer 139

Sharing needles, needlestick injury, unprotected anal sex, gay sex.

Question 140

Explain the pathophysiology of HIV.

Answer 140

1. HIV binds to CD4 on T helpers and enters.
2. Reverse transcriptase enzyme turns RNA into DNA.
3. Integrase enzyme integrates viral DNA into host cell DNA.
4. Protein synthesis makes more HIV copies.
5. HIV copies leave the cell.
6. Increased viral load and lower CD4 count.

Question 141

What are AIDS-defining illnesses?

Answer 141

When the CD4 count is so low that opportunistic infections and malignancy arises.

Question 142

Give 4 examples of AIDS-defining illnesses.

Answer 142

Kaposi’s sarcoma, PCP, lymphomas and TB.

Question 143

How is HIV monitored?

Answer 143

CD4 count and viral load.

Question 144

Describe the stages of HIV infection.

Answer 144

1. Primary infection, there is a CD4 dip and set point. Initial flu-like illness.
2. Clinical latency (asymptomatic for years).
3. Symptoms start (fever, night swears, minor opportunistic infections, shingles).
4. AIDS (CD4 is <200) - AIDS defining conditions.

Question 145

How is HIV diagnosed/investigated?

Answer 145

-p24 antigen (specific for HIV).
-PCR testing for viral load of HIV RNA.
-Blood test for CD4 count.
-Test for anti HIV antibody.

Question 146

What is the main treatment for HIV?

Answer 146

Antiretroviral therapy:
-Reverse transcriptase inhibitors.
-Entry inhibitors.
-Protease inhibitors.
-Integrase inhibitors.

Question 147

What is the aim of ART in HIV?

Answer 147

To maintain CD4 count and decrease HIV RNA copies.

Question 148

Which antibiotic is given to AIDS patients and why?

Answer 148

Prophylactic co-trimoxazole to protect against PCP.

Question 149

Why are statins given to patients with HIV?

Answer 149

To prevent CVD as they’re at higher risk.

Question 150

Why are women with HIV given yearly cervical smear tests?

Answer 150

To catch cervical cancer early as they are more susceptible to HPV.

Question 151

What reproductive management options are there for HIV?

Answer 151

Use protection, do regular HIV tests, babies born by C section, no breastfeeding, newborn baby should have one month of ART.

Question 152

What is anaemia?

Answer 152

A low level of haemoglobin in the blood.

Question 153

What is a low level of haemoglobin in men and women?

Answer 153

Men is <130.
Women is <120.

Question 154

If a patient is anaemic what should be checked?

Answer 154

Mean cell volume (MCV).

Question 155

What is the mean cell volume (MCV)?

Answer 155

The size of the RBCs.

Question 156

What are the three types of anaemia?

Answer 156

Microcytic - Low MCV (small RBCs).
Normocytic - Normal MCV (normal sized RBCs).
Macrocytic - High MCV (large RBCs).

Question 157

What are the MCVs for the three types of anaemia?

Answer 157

Microcytic - <80.
Normocytic - 80-95.
Macrocytic - >95.

Question 158

In reference to anaemia, what does haemolytic mean?

Answer 158

Increased breakdown of RBCs.

Question 159

What are the five general symptoms of anaemia?

Answer 159

Fatigue, headache, dizziness, SOB, palpitations.

Question 160

What are the four general signs of anaemia?

Answer 160

Tachycardia, increased respiratory rate, pale skin and conjunctival pallor.

Question 161

What are the four main causes of microcytic anaemia?

Answer 161

Iron deficiency, thalassemia, sideroblastic anaemia and anaemia of chronic disease.

Question 162

What is iron deficiency?

Answer 162

Non-inherited iron deficiency which impairs haemoglobin synthesis and causes microcytic anaemia.

Question 163

What causes iron deficiency?

Answer 163

Insufficient in diet, iron requirements increase (pregnancy), iron is being lost (blood loss), malabsorption (IBD).

Question 164

What is the most common cause of iron deficiency in adults?

Answer 164

Blood loss due to:
Menorrhagia.
IBD or colon cancer.

Question 165

What is the most common cause of iron deficiency in children?

Answer 165

Insufficient iron in diet.

Question 166

What are the signs specific to iron deficiency anaemia?

Answer 166

Koilonychia (spoon shaped nails), angular stomatitis (ulceration at mouth corners), atrophic glossitis (enlarged tongue), brittle hair and nails.

Question 167

How is iron deficiency anaemia diagnosed? How is it investigated in adults?

Answer 167

Measure haemoglobin and MCV first then:
-Iron studies:
Low serum iron.
Low ferritin.
Low transferrin saturation.

Investigate underlying cause in adults with endoscopy.

Question 168

How is iron deficiency anaemia treated?

Answer 168

Treat underlying cause.
-Oral iron (ferrous sulfate).
-Iron infusion.
-Blood transfusion (severe).

Question 169

What is thalassaemia?

Answer 169

Autosomal recessive genetic defect in the protein chains that make up haemoglobin. This produces little to no haemoglobin and causes microcytic anaemia.

Question 170

What are the types of thalassaemia?

Answer 170

Alpha - affect alpha globin chains.
Beta - affect beta globin chains.

Question 171

Describe the pathophysiology of alpha thalassaemia.

Answer 171

Less common - Autosomal recessive defect of alpha globin chains on chromosome 16.

Question 172

Describe the pathophysiology of beta thalassaemia.

Answer 172

More common - Autosomal recessive defect of beta globin chains on chromosome 11.

Question 173

What are the different types of beta thalassaemia?

Answer 173

Minor - One abnormal and one normal gene.
Intermedia - Two defective or one defective and one deletion.
Major - Homozygous for deletion.

Question 174

What are three signs of thalassaemia?

Answer 174

Enlarged forehead, enlarged cheekbones, hepatosplenomegaly.

Question 175

How is thalassaemia diagnosed?

Answer 175

FBC - microcytic anaemia.
Haemoglobin electrophoresis and DNA testing.

Question 176

What occurs in major beta thalassaemia?

Answer 176

Bone deformities.

Question 177

How is thalassaemia treated?

Answer 177

Iron chelation to prevent iron overload.
Splenectomy.
Stem cell transplant.

Question 178

Why does iron overload occur in thalassaemia?

Answer 178

Occurs as a result of faulty creation of RBCs.

Question 179

What is sideroblastic anaemia?

Answer 179

When the body produces enough iron but the iron gets stuck in mitochondria and can’t be used in the synthesis of haemoglobin.

Question 180

What is normocytic anaemia?

Answer 180

A deficiency of haemoglobin when the MCV is normal.

Question 181

What are the types of normocytic anaemia?

Answer 181

Haemolytic and non-haemolytic.

Question 182

What are haemolytic anaemias?

Answer 182

Anaemia caused by the destruction of red blood cells.

Question 183

What are the three main inherited normocytic haemolytic anaemias?

Answer 183

Sickle cell anaemia, hereditary spherocytosis and G6PD deficiency.

Question 184

What is the main normocytic haemolytic anaemia that isn’t inherited?

Answer 184

Autoimmune haemolytic anaemia.

Question 185

What are the five causes of normocytic anaemia?

Answer 185

3 A’s and 2 H’s:

-Aplastic anaemia
-Acute blood loss
-Anaemia of chronic disease.
-Haemolytic anaemia.
-Hypothyroid.

Question 186

What is hereditary spherocytosis anaemia? What are the complications and treatment?

Answer 186

An autosomal dominant membranopathy that causes RBCs to be fragile and break easily.
This can lead to splenomegaly and gallstones.
Treated with folate, splenectomy and cholecystectomy.

Question 187

What is G6DP deficiency anaemia? What are the symptoms? What is characteristic?

Answer 187

X-linked recessive mutation that leads to defective G6PD enzyme which affects the RBCs.
-Asymptomatic until precipitated (antimalarials, broad beans, drugs).
-Heinz bodies on blood film.

Question 188

What is autoimmune haemolytic anaemia? What are the types?

Answer 188

Autoantibodies attack RBCs.
Types - warm and cold.

Question 189

What is sickle cell anaemia?

Answer 189

An autosomal recessive genetic mutation that leads to sickle shaped RBCs, making them destroyed more easily and leading to haemolytic anaemia.

Question 190

What is the difference between sickle cell trait and sickle cell disease?

Answer 190

Trait - One copy.
Disease - Two copies.

Question 191

What is the link between sickle cell disease and malaria?

Answer 191

Sickle cell trait (one copy) reduces the severity of malaria. As more people in Africa survive malaria with this trait, the genes are passed on and sickle cell disease is more likely to occur. This is why sickle cell disease is more common in Black African ethnicities.

Question 192

Explain the pathophysiology of sickle cell anaemia.

Answer 192

Autosomal recessive gene on chromosome 11.
GAG turns to GTG of beta-globin and causes irreversible sickling of RBCs.

Question 193

What is the haemoglobin variant in sickle cell disease?

Answer 193

HbS.

Question 194

How is sickle cell disease diagnosed?

Answer 194

Pregnant women at risk are offered screening.
Tested for on newborn heel prick test.

Question 195

What are five complications of sickle cell disease?

Answer 195

Anaemia.
Increased infection risk.
Priapism.
Chronic kidney disease.
Sickle cell crises.

Question 196

What are sickle cell crises?

Answer 196

Umbrella term for acute crises related to sickle cell disease.

Question 197

What are four risk factors for having a sickle cell crisis?

Answer 197

Low oxygen, cold weather, exertion, parvovirus B19.

Question 198

What are four complications of sickle cell crises?

Answer 198

Splenic sequestration.
Vaso-occlusive crises.
Aplastic crisis.
Acute chest syndrome.

Question 199

What is splenic sequestration? How is it treated?

Answer 199

Sickle cell crisis.
-Sickle cells block blood flow in spleen which causes splenomegaly and pain.
-Treated with splenectomy.

Question 200

What is a vaso-occlusive crisis? What is it associated with? What can it cause in men?

Answer 200

Sickle cell crisis.
-Sickle cells block capillaries causing distal ischaemia.
-Associated with high hematocrit and dehydration.
-Causes priapism in men.

Question 201

What is an aplastic crisis? How is it tirggered?

Answer 201

Sickle cell crisis.
-The temporary loss of new RBC creation.
-Usually triggered by Parvovirus B19.

Question 202

What is acute chest syndrome? How is it diagnosed?

Answer 202

A complication of sickle cell disease.
-Fever/resp symptoms with infiltrates on XRAY.
-Associated with infection and non-infection (vaso-occlusion).

Question 203

How is sickle cell disease managed long-term?

Answer 203

Avoid precipitants, blood transfusion and drugs (hydroxycarbamide, antibiotic prophylaxis).

Question 204

What can cure sickle cell disease?

Answer 204

Stem cell transplant.

Question 205

How are acute sickle cell crises managed?

Answer 205

IV fluid, NSAIDs, oxygen, transfusion.

Question 206

What are two causes of non-haemolytic normocytic anaemia?

Answer 206

CKD, aplastic anaemia.

Question 207

What is macrocytic anaemia?

Answer 207

Anaemia with a high MCV.

Question 208

What are the types of macrocytic anaemia?

Answer 208

Megaloblastic and normoblastic anaemia.

Question 209

What is megaloblastic macrocytic anaemia?

Answer 209

Impaired DNA synthesis in the cell which leads to them not dividing normally and leading to larger RBCs.

Question 210

What are the causes megaloblastic macrocytic anaemia?

Answer 210

B12 deficiency.
Folate deficiency.

Question 211

What are the four causes of normoblastic macrocytic anaemia?

Answer 211

Alcohol, reticulocytosis, hypothyroid, liver disease.

Question 212

What is B12 deficiency caused by?

Answer 212

Insufficient dietary intake or pernicious anaemia.

Question 213

What is pernicious anaemia?

Answer 213

An autoimmune condition where antibodies are formed against the parietal cells or intrinsic factor. A lack of intrinsic factor prevents the absorption of vitamin B12 and it leads to vitamin B12 deficiency.

Question 214

What are two symptoms specific to iron deficiency anaemia?

Answer 214

Pica - Dietary cravings for abnormal things.
Hair loss.

Question 215

What six investigations are done if you suspect anaemia?

Answer 215

Haemoglobin, MCV, B12, folate, ferritin, blood film.

Question 216

What are the symptoms of B12 deficiency/pernicious anaemia?

Answer 216

Neurological symptoms:
-Peripheral neuropathy with numbness or paresthesia.
-Loss of vibration or proprioception.
-Visual and mood changes.

Question 217

What investigations are done in B12 deficiency anaemia? What are the results?

Answer 217

FBC, blood film - macrocytic megaloblastic anaemia.
Decreased serum B12.
-Pernicious - autoantibodies.

Question 218

Which autoantibodies are present in pernicious anaemia?

Answer 218

-Intrinsic factor antibody.
-Gastric parietal cell antibody.

Question 219

How is B12 deficiency anaemia managed?

Answer 219

Dietary insufficiency - Cyanocobalamin and diet advice (salmon, eggs).
Pernicious - IM hydroxycobalamin.

Question 220

How is B12 and folate deficiency managed when present together?

Answer 220

B12 deficiency is treated first before correcting the folate deficinecy.

Question 221

Why is B12 deficiency treated before folate deficiency?

Answer 221

Treating patients with folic acid when they have a B12 deficiency can lead to subacute degeneration of the cord.

Question 222

What is folate deficiency?

Answer 222

A macrocytic megaloblastic anaemia caused by insufficient folate in the body.

Question 223

What are the five common causes of folate deficiency?

Answer 223

Malnutrition, malabsorption, pregnancy, alcohol and drugs.

Question 224

What are the symptoms of folate deficiency?

Answer 224

General anaemia without neurological symptoms (this is B12 deficiency).

Question 225

What are the investigations for folate deficiency?

Answer 225

FBC and blood film - macrocytic megaloblastic.
Serum folate - Low.

Question 226

How is folate deficiency treated?

Answer 226

Dietary advice (leafy greens and brown rice).
Oral folate supplements.

Question 227

What is the most common cause of vitamin B12 deficiency?

Answer 227

Pernicious anaemia.

Question 228

What is a risk factor for pernicious anaemia?

Answer 228

Family or personal history of autoimmune disease.

Question 229

What is a sign of B12 deficiency anaemia?

Answer 229

Yellow skin.

Question 230

What is a sign of haemolytic anaemia?

Answer 230

Dark urine/jaundice.

Question 231

Which cells are most responsible for Non-Hodgkin lymphoma?

Answer 231

80% - B lymphocyte.
20% - T lymphocyte.

Question 232

When do the symptoms of sickle cell disease start and why?

Answer 232

Not until a few months old as the primary haemoglobin is fetal haemoglobin (HbF).

Question 233

What can cause chronic hypoxia and subsequently secondary polycythaemia?

Answer 233

Obstructive sleep apnoea, living at altitude, lung disease, smoking.

Question 234

What are the blood film findings in iron deficiency anaemia?

Answer 234

Microcytic hypochromic RBCs, anisocytosis (variation in size), poikilocytosis (irregularly shaped RBCs).

Question 235

What is the difference between relative and absolute polycythaemia?

Answer 235

Absolute - Increased number of RBCs.
Relative - Plasma reduction and normal number of RBCs.

Question 236

How does DIC present?

Answer 236

Bleeding (nose), bruising, rash, GI, brain.
-Respiratory ditress.