Haematology Flashcards

Question 1

Q

What is a myeloma?

Answer

A

A malignant proliferation of the Plasma cells (Type of B lymphocytes)

Question 2

Q

Define multiple myeloma (MM)?

Answer

A

Malignant proliferation of plasma cells (B lymphocytes) accumulating in the bone marrow that affects multiple areas of the body

Question 3

Q

What is the second most common haematological cancer?

Answer

A

Multiple Myeloma

Question 4

Q

What is the pathogenesis of Multiple Myeloma?

Answer

A

Malignant proliferation of plasma cells (B lymphocytes) accumulating in the bone marrow

This leads to overproduction of Ig or Ig fragment (paraprotein)

Causes dysfunction of many organs (especially the kidney), bone marrow failure, destructive bone disease and hypercalcaemia

Characterised by excess secretion of a monoclonal antibody

Question 5

Q

What is a paraprotein?

Answer

A

Paraprotein → abnormal immunoglobulins produced by clonal plasma cells

They can be intact immunoglobulins (usually IgG, IgA or IgM) or parts of immunoglobulins (usually light chains, very rarely heavy chains)

Question 6

Q

What are the main paraproteins produced in multiple myeloma?

Answer

A

Typically excess production of 1 specific type of Ig.
55% are IgG
20% are IgA.

Question 7

Q

What are the preceding steps before established multiple myeloma?

Answer

A

Development of monoclonal gammopathy of undetermined significance (MGUS)

Smouldering myeloma

Question 8

Q

What is Monoclonal Gammopathy of Undetermined significance (MGUS)?

Answer

A

where there is an excess of a single type of antibody or antibody components without other features of myeloma or cancer.

This is often an incidental finding in an otherwise healthy person and as the name suggests the significance is unclear.

May progress to MM and patients are often routinely monitored.

Question 9

Q

What is Smouldering Myeloma?

Answer

A

where there is progression of MGUS with higher levels of antibodies or antibody components. It is premalignant and more likely to progress to myeloma than MGUS

Question 10

Q

What is Waldenstrom’s macroglobulinemia

Answer

A

Waldenstrom’s macroglobulinemia is a type of smouldering myeloma where there is excessive IgM specifically.

Question 11

Q

What is the rate of progression of MGUS to MM?

Answer

A

1% per year

Question 12

Q

What is the clinical presentation of multiple myeloma related to?

Answer

A

Infiltration of plasma cells

Secretion of monoclonal antibodies

Question 13

Q

What are the Risk Factors of Multiple Myeloma?

Answer

A

Older age
Male
Black African ethnicity
Family history
Obesity

Question 14

Q

Give some symptoms of Myeloma?

Answer

A

Tiredness
Bone/back pain
Infections

Question 15

Q

What are the signs and symptoms of multiple myeloma?

Answer

A

OLD CRAB:
Old - 70+
C - Hypercalcaemia (& associated symptoms)

R - Renal Failure (hypercalcaemia causes calcium oxalate renal stones and immunoglobulin light chain kappa deposition is nephrotoxic)

A - Anaemia (Bone Marrow Infiltration causing; Neutropenia (infections), Thrombocytopenia (bleeding)

B - Bone Lesions - Pepperpot Skull

Question 16

Q

How does bone disease arise in multiple myeloma?

Answer

A

Proliferation in bone marrow

Lytic lesions

Fractures

Question 17

Q

How does impaired renal function arise in multiple myeloma?

Answer

A

Kappa Immunoglobulin light chains (Bence Jones Protein) are nephrotoxic.

& Hypercalcaemia

Question 18

Q

Why may Renal disease worsen the effects of Anaemia in MM?

Answer

A

Renal disease can lead to EPO deficiency contributing to the anaemia

Question 19

Q

How does hypercalcaemia arise in multiple myeolma?

Answer

A

Multiple myeloma-induced bone demineralisation and bone resorption

Question 20

Q

How does recurrent/persistent bacterial infection arise in multiple myeloma?

Answer

A

Immune dysfunction and hypogammaglobulinemia

Suppression of normal plasma cell function

Question 21

Q

Why does anaemia occur in multiple myeloma?

Answer

A

The cancerous plasma cells invade the bone marrow.
This is described as bone marrow infiltration.
This causes suppression of the development of other blood cell lines leading to:

Anaemia (low red cells),
Neutropenia (low neutrophils)
Thrombocytopenia (low platelets).

Question 22

Q

What initial diagnostic investigations are ordered in someone with suspected multiple myeloma?

Answer

A

BLIP:
B – Bence–Jones protein (request urine electrophoresis)
L – Serum‑free Light‑chain assay
I – Serum Immunoglobulins
P – Serum Protein electrophoresis

Question 23

Q

What Investigations are needed to confirm a diagnosis of Multiple Myeloma?

Answer

A

Bone marrow biopsy is necessary to confirm the diagnosis of myeloma and get more information on the disease.
>10% plasma cells

Imaging is required to assess for bone lesions. The order of preference to establish this is:

Whole body MRI
Whole body CT
XR - Skull for pepperpot lesions

Question 24

Q

What is indicative of MM on bone marrow biopsy?

Answer

A

> 10% plasma cells

Question 25

Q

What bloods results would be indicative of multiple myeloma?

Answer

A

FBC - marrow failure

ESR - raise

Blood film - Rouleaux formation (RBC Aggregations)

U&Es - raised urea and creatinine

Hypercalcaemia

Question 26

Q

What are some important differential diagnoses of Multiple Myeloma?

Question 27

Q

What is the treatment for MGUS and asymptomatic myeloma?

Answer

A

Watch and wait.

Question 28

Q

What is the principle behind treatment of MM?

Answer

A

Multiple myeloma is an incurable condition → treatment aims to increase periods of disease remission

Question 29

Q

What is the first line treatment for multiple myeloma?

Answer

A

A combination of chemotherapy with:

Bortezomid - proteasome inhibitor
Thalidomide
Dexamethasone - steroid

Question 30

Q

What else may you consider to treat multiple myeloma?

Answer

A

Stem cell transplant
Bisphosphonates - bone protection

Question 31

Q

Name the 3 broad categories of red cell disorders.

Answer

A

Haemoglobinopathies.
Membranopathies.
Enzymopathies.

Question 32

Q

What is a haemoglobinopathy?

Answer

A

Deficiency related to quality or quantity of haemoglobin production

Question 33

Q

What is a membranopathy?

Answer

A

Deficiency related to red blood cell membrane protein

Question 34

Q

What is an enzymopathy?

Answer

A

Deficiency related to RBC enzyme synthesis, leads to shortened lifespan due to oxidative stress

Question 35

Q

What is the normal range for haemoglobin?

Answer

A

120-180g/L

Question 36

Q

What is normal adult haemoglobin made of?

Answer

A

HbA1:
2 alpha and 2 beta chains.

Question 37

Q

What is foetal haemoglobin made of?

Answer

A

HbF:
2 alpha and 2 gamma chains.

Question 38

Q

What is haemoglobin S?

Answer

A

Haemoglobin S is a variant of Hb arising from a point mutation in the beta globin gene.

The mutation leads to a single amino acid change, valine -> glutamine.

Question 39

Q

What is sickle cell disease?

Answer

A

Auto recessive disorder
A Hb disorder of quality; polymerisation of HbS results in characteristic sickle shaped RBCs

Question 40

Q

What are the types of Sickle Cell disease based on Inheritance?

Answer

A

Sickle cell anaemia (HbSS) = inheritance of 2 abnormal sickle genes
Sickle cell disease (HbSC) = Inheritance of one abnormal sickle gene and second haemoglobin variant of the beta chain that causes sickling. E.g. haemoglobin C
Sickle cell trait (HbS) = Inheritance of one abnormal sickle gene. Sickle carrier.
Sickle-thalassaemia (H

Question 41

Q

What is the lifespan of a Sickle Cell?

Answer

A

5-10 days - described as haemolytic

Question 42

Q

What is the Pathophysiology of Sickle Cell Anaemia?

Answer

A

HbS will polymerise at periods of hypoxia and acidosis
Sickling is precipitated by low oxygen, dehydration, infection, cold exposure and acidosis
This leads to vaso-occlusion and significantly shortens the life span of an RBC to 10-20 days
This is due to chronic haemolysis

Question 43

Q

What can precipitate sickling in Sickle Cell Anaemia?

Answer

A

Trauma
Cold
Stress
Exercise

Question 44

Q

Why does Sickle Cell Anaemia not present until after 6 months of age?

Answer

A

HbF is not affected by sickle cell anaemia as it is made up of 2 alpha and 2 gamma chains.

Prior to 6 months of age the body still produces HbF

Question 45

Q

What are reticulocytes?

Answer

A

Immature RBCs that still have RNA material.
Their percentage increases in haemolytic anaemia

Question 46

Q

What effect does Sickle Cell Anaemia on reticulocyte count?

Answer

A

Raised - 2-3% (normally 0.45-1.8%)

Question 47

Q

Why is reticulocyte count raised in Sickle Cell Anaemia?

Answer

A

Sickle cell disease is haemolytic - increased degradation of RBC’s

Question 48

Q

What is the pathogenesis of sickle cell disease?

Answer

A

Point mutation in the Beta globin gene (GAG to GTG) swapping valine for glutamic acid.

This causes irreversible RBC sickling which makes the RBC fragile.

A decreased surface area also means the RBCs are less efficient.

Question 49

Q

What are the symptoms of Sickle Cell disease?

Answer

A

Jaundice - haemolytic anaemia releasing bilirubin
+ complications of anaemia

Question 50

Q

Give 4 acute complications of sickle cell disease.

Answer

A

Vaso-occlusive painful Crisis
Stroke in children.
Splenic Sequestration crisis - blocked blood flow to spleen
Infections - due to hyposlenysm

Question 51

Q

Give 3 chronic complications of sickle cell disease.

Answer

A

Renal impairment.
Pulmonary hypertension.
Joint damage.

Question 52

Q

What are some complications of Sickle cell disease?

Answer

A

Anaemia
Increased risk of infection
Stroke
Avascular necrosis in large joints such as the hip
Pulmonary hypertension
Painful and persistent penile erection (priapism)
Chronic kidney disease
Sickle cell crises
Acute chest syndrome

Question 53

Q

What is Vaso-occlusive Crisis (AKA painful crisis) in sickle cell disease?

Answer

A

Sickle shaped blood cells clogging capillaries causing distal ischaemia.

It is associated with dehydration and raised haematocrit.

Symptoms are typically pain, fever and those of the triggering infection.

Question 54

Q

What is Splenic Sequestration Crisis?

Answer

A

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).

Question 55

Q

What is the significance of parvovirus for someone with sickle cell disease?

Answer

A

Common infection in children (URTI), leading to decreased RBC production

Question 56

Q

What is the diagnostic test for Sickle cell disease?

Answer

A

Newborn screening - heel prick test

FBC + blood film - increased reticulocytes, sickled RBCs, Howell Jolly bodies

Hb Electrophoresis - diagnostic.

Question 57

Q

What are the treatments of acute complicated attacks in sickle cell disease?

Answer

A

IV fluids
Analgesia (NSAIDs)
O2

Question 58

Q

What are the long term treatments for sickle cell disease?

Answer

A

Avoid Dehydration
Hydroxycarbamide - stimulates HbF production
Blood transfusion
Bone marrow transplant

Question 59

Q

What is the relationship between Sickle cell disease and Malaria?

Answer

A

Having one copy of the sickle cell gene reduces the severity of malaria and is protective.

There is a high proportion of the population in Africa & other malaria associated areas with at least one sickle cell gene.

Question 60

Q

What is thalassaemia?

Answer

A

An autosomal recessive disorder of haemoglobin quantity.
There is reduced synthesis of one or more globin chains with leading to a reduction in Hb -> anaemia.
Degree of anaemia depends on the type of mutation

Px with defects in Alpha chains have alpha Thalassaemia
Px with defects in Beta chains have beta Thalassaemia

Question 61

Q

If someone has beta thalassaemia do they have more alpha or beta globin chains?

Answer

A

They have very few beta chains, alpha chains are in excess.

Question 62

Q

Which is more common, alpha or beta thalassaemia?

Answer

A

Beta thalassaemia is more common

Question 63

Q

What are some potential signs and symptoms of Thalassaemia?

Answer

A

Microcytic anaemia (low mean corpuscular volume)
Fatigue
Pallor
Jaundice
Gallstones
Splenomegaly
Poor growth and development
Pronounced forehead and malar eminences

Question 64

Q

Why do you get splenomegaly in thalassaemia?

Answer

A

RBCs in thalassaemia are more fragile and break down easily.

In thalassaemia the spleen collects all the destroyed red blood cells and swells, resulting in splenomegaly.

Answer 64

A

4 genes on chromosome 16
Deletion mutations

Answer 65

A

Excess beta chains form an unstable beta tetramer (HbH)
This is a poor carrier of O2

Answer 66

A

Sub-Saharan Africa
Middle East
Mediterranian
Areas of Asia

Answer 67

A

2 genes on chromosome 11
Can have abnormal functional genes or deletion genes that are non functional resulting in different types of Beta Thalassaemia

Answer 68

A

Thalassaemia Minor
Thalassaemia Intermedia
Thalassaemia Major

Answer 69

A

One abnormal and One functional beta globin gene
Causes mild microcytic anaemia

Answer 70

A

Either:
2 defective beta globin genes - retain some function
OR
1 defective and 1 deletion gene

Causes a more significant microcytic anaemia

Answer 71

A

Px with Homozygous Beta globin deletion genes.
No functioning beta globin genes
Causes severe anaemia and failure to thrive.

Answer 72

A

FBC - MCV = shows microcytic anaemia
Haemoglobin Electrophoresis - diagnoses Globin abnormalities
DNA Testing - determine genetic abnormality

Answer 73

A

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

Answer 74

A

Monitored Serum Ferritin levels
Limiting transfusions
Iron Chelation

Answer 75

A

Chipmunk Face - due to enlarged forehead and cheekbones due to decreased RBCs and extramedullary haematopoiesis

Answer 76

A

Regular Blood transfusions
Iron Chelation - prevent Iron overload
Splenectomy
Folate supplements

Bone marrow stem cell transplant

Answer 77

A

Bone marrow stem cell transplant

Answer 78

A

Autosomal dominant

Answer 79

A

Spherocytosis (horizontal) - more severe, present neonatal jaundice and haemolysis

Elliptocytosis (vertical)

Answer 80

A

Deficiency of red cell membrane proteins caused by genetic lesions; haemolytic anaemia.

Answer 81

A

Jaundice
Anaemia
Splenomegaly

Answer 82

A

Deficiency in structural membrane protein Spectrin
Makes RBCs more spherical and rigid
Causes Splenomegaly

Answer 83

A

General Anaemia
Neonatal Jaundice
Splenomegaly
50% have Gallstones

Answer 84

A

Direct Coombs Negative (positive = Autoimmune Haemolytic Anaemia)

FBC and blood film:

Normocytic Normochromic
Increased Reticulocytes
Spherocytes

Answer 85

A

Splenectomy

Neonatal Jaundice - Phototheraphy

Answer 86

A

G6PD deficiency

Answer 87

A

X linked recessive enzymopathy causing 1/2 RBC lifespan and RBC degradation

Answer 88

A

G6PD is required for glutathione synthesis
Glutathione protects Red blood cells against oxidative damage

Answer 89

A

Mostly asymptomatic unless precipitated.

May have haemolysis leading to anaemia and jaundice

Answer 90

A

Reduced G6PD levels

Blood film:
Normal in between attacks

Attack - increased reticulocytes and HEINZ bodies and BITE cells

Answer 91

A

Avoid Precipitants - Oxidative drugs

Blood transfusions when attacks come on.

Answer 92

A

Naphthalene
Anti-malarials
Aspirin
FAVA beans
Nitrofurantoin

Answer 93

A

Disorders (cancers) caused by malignant proliferation of lymphocytes inside the lymphatic system.
These cancerous cells accumulate in the lymph nodes causing lymphadenopathy

Answer 94

A

Hodgkin’s Lymphoma - a specific disease
Non-Hodgkin’s Lymphoma - encompasses all other lymphomas

Answer 95

A

Cervical Lymph Nodes
Axillary Lymph Nodes
Inguinal Lymph Nodes

Answer 96

A

Primary Immunodeficiency - Ataxia Telangiectasia

Secondary Immunodeficiency - HIV, Transplant recipients

Infection - EBV, HIV, HTL virus, H-pylori

Autoimmune disorders - SLE

Answer 97

A

Not well understood
Thought to be multifactorial - Genetic factors + Environment
Impaired Immunosurveillance
Infected B cells escape regulation and proliferate

Answer 98

A

Cancerous Proliferation of Lymphocytes

Bimodal age distribution - affects teens (13-19) and elderly (75+)

Associated with EBV infection

Answer 99

A

Classical - Reed Sternberg cells with mirror-Image nuclei

Nodular Lymphocyte Predominates Hodgkin’s Lymphoma (NLPL) - Reed Sternberg cell variant - Popcorn cell

Answer 100

A

HIV
Epstein-Barr Virus
Autoimmune conditions such as rheumatoid arthritis and sarcoidosis
Family history - affected sibling

Answer 101

A

Lymphadenopathy - non-tender, feel rubbery
Pain in lymph nodes when drinking alcohol.
B symptoms - Fever, Weight loss, Night sweats

Answer 102

A

Fever
Weight Loss >10% in 6 months
Night Sweats

Answer 103

A

Fatigue
Pruritus’ (itching)
cough
SOB
Abdominal Pain
Recurrent infections

Answer 104

A

Lymph Node Biopsy - Reed Sternberg cell positive with mirror image nuclei

Lactate Dehydrogenase - Often raised by not specific to Hodgkin’s

Decreased Hb, Increased ESR - indicates worse prognosis

CT/MRI - Fir staging and diagnostics

Answer 105

A

Core Needle Biopsy
Lymph Node Excision

Answer 106

A

Abnormally large B cells with multiple nuclei that are the key finding on lymph node biopsy in Hodgkin’s Lymphoma.

Answer 107

A

Used for Staging Hodgkin’s and Non-Hodgkin’s Lymphoma

Stage 1 - Single Lymph node region
Stage 2 - In more than 1 lymph node region but same side of the diaphragm
Stage 3 - Lymph nodes both above and below Diaphragm affected
Stage 4 - Widespread involvement including other non-lymphatic organs (lungs/liver)

A = NO B symptoms
B = HAS B symptoms

Answer 108

A

Blood
Bone Marrow
Liver
Spleen

Answer 109

A

CT/MRI/PET scans

Answer 110

A

ABVD Chemotherapy:
Adriamycin
Bleomycin
Viricistine
Dacarbazine

(Potentially Radiotherapy)

Answer 111

A

Stage IA - IIA (< 3 areas involved):
Short course ABVD

Stage IIA - IVB (> 3 areas involved):
Longer courses of ABVD

Answer 112

A

To cure the condition
Usually successful however there is a risk of relapse and SE of treatment.

Answer 113

A

Chemotherapy:
Alopecia
N+V
Myelosuppression & BM failure = Infection

Radiotherapy - Increased risk of second malignancies

Answer 114

A

A condition marked by Fever and very low neutrophil numbers in the blood.
Massive risk in Px who have had recent/High dose Chemo (or on Carbimazole)

Answer 115

A

Immediate Broad Spec Antibiotics
(Amoxicillin + Fluoroquinolone)

Answer 116

A

All lymphomas without Reed Sternberg cells.
80% are B cell origin and 20% T cell origin.

Answer 117

A

Low Grade - Follicular

High Grade - Diffuse Large B cell Lymphoma

Very high Grade - Burkitt Lymphoma

Answer 118

A

HIV
Epstein-Barr Virus
H. pylori (MALT lymphoma)
Hepatitis B or C infection
Exposure to pesticides and a specific chemical called trichloroethylene used in several industrial processes
Family history

Answer 119

A

Linked to EBV infection.
Causes Massive Jaw Lymphadenopathy in children

Answer 120

A

Variable symptoms due to the range of subtypes however Px generally present in a similar way to Hodgkin’s Lymphoma:

Painless Rubbery Lymphadenopathy
B Symptoms
Lymph nodes NOT Painful with Alcohol.

Answer 121

A

Lymph Node Biopsy - No RS/Popcorn Cells confirms NHL lymphoma

CT/MRI for Ann Arbor Staging

Answer 122

A

R-CHOP:
Rituximab - Targets CD20 on B cells
Cyclophosphamide
Hydroxy-Daunorubicin
Vincristine (Oricovin)
Prednisolone

+ radiotherapy

Answer 123

A

Slow growing, advanced at presentation, incurable

Median survival; 10 years

Answer 124

A

Nodal presentation; presents early than low grade, therefore often curable

Aggressive - can make patient very unwell.

Answer 125

A

In general, if the patient is symptomless - watch and wait.

Low grade; no chemotherapy may be required - radiotherapy may be curative in localised disease.

If symptomatic, radiotherapy, combination chemotherapy and mAb

Answer 126

A

Early - 3 months of RCHOP with radiotherapy

Late - 6 months of RCHOP with Radiotherapy

Answer 127

A

Myelodysplastic syndrome is caused by the myeloid bone marrow cells not maturing properly and therefore not producing healthy blood cells.

There are a number of specific types of myelodysplastic syndrome.

Answer 128

A

Causes low levels of blood components that originate from the myeloid cell line:

Anaemia - Low RBC
Neutropenia - Low neutrophils
Thrombocytopenia - Low platelets

Answer 129

A

Acute Myeloid Leukaemia (AML)

Answer 130

A

May be Asymptomatic and the diagnosis is made incidentally

May present with symptoms of:
Anaemia - fatigue, pallor, SOB
Neutropenia - Recurrent/severe infections
Thrombocytopenia - Bleeding/bruising

Answer 131

A

FBC - Low RBC, Neutrophils, Platelets

Blood Film - Blasts present (immature myeloid derived progenitors)

Bone marrow aspiration biopsy

Answer 132

A

Watchful Waiting
Supportive Treatment with blood transfusions if severely anaemic
Chemotherapy
Stem Cell Transplant

Answer 133

A

The malignant Proliferation (Cancer) of a particular line of haematopoietic stem cells in the bone marrow. This causes unregulated production of certain types of blood cells.

Answer 134

A

A genetic mutation in one of the precursor cells (myeloblast or lymphoblast) in the bone marrow leads to excessive production of a single type of abnormal white blood cell.

This can lead to suppression of other cell lines causing underproduction of those types.

This causes Pancytopenia - Combination of anaemia, leukopenia and thrombocytopenia

Answer 135

A

Rapid proliferation of one leukocyte takes up lots of space in the bone marrow.
This leaves less space for functioning cells to be produced.

Answer 136

A

Acute Myeloid Leukaemia (AML)
Acute Lymphoblastic Leukaemia (ALL)
Chronic Myeloid Leukaemia (CML)
Chronic Lymphoblastic Leukaemia (CLL)

Answer 137

A

Mnemonic: ALL CeLL mates have CoMmon AMbitions
under 5 and over 45 - ALL
Over 55 - CLL
Over 65 - CML
Over 75 - AML

Answer 138

A

children under 5

Answer 139

A

Fatigue - anaemia
Fever + infections
Failure to thrive (children)
Pallor due to anaemia
Petechiae and abnormal bruising due to thrombocytopenia
Abnormal bleeding - thrombocytopenia
Lymphadenopathy
Hepatosplenomegaly

Answer 140

A

Quite non specific.
Symptoms are associated with affects of pancyotpenia

Answer 141

A

Common myeloid progenitor cells → abnormal myeloblasts

Answer 142

A

Common lymphoid progenitor cells → abnormal lymphoblasts

Answer 143

A

Mature B-lymphocyte

Answer 144

A

Basophils, neutrophils and eosinophils

Answer 145

A

Mature moncytes

Answer 146

A

Symptomatically high WCC

> 100x10^9/L for AML
> 200x10^9/L for ALL
> 400x10^9/L for CML

Answer 147

A

FBC - Pancytopenia

Blood film - abnormal cells/inclusions

Lactate Dehydrogenase - often raised by non-specific

Bone Marrow Biopsy - Diagnostic

CXR - lymphadenopathy

CT/MRI for staging of lymphomas/other tumours

Answer 148

A

Bone Marrow Aspiration - liquid sample of cells

Bone Marrow Trephine - solid core of bone marrow

Bone marrow Biopsy - uses a specialist needle

Answer 149

A

Neoplastic myeloblast proliferation
Most common acute leukaemia in adults and most commonly affects over 75 yrs.

Answer 150

A

t(15:17)
Association with Downs and Radiation

Answer 151

A

Rapid progression

If not Tx ASAP then 3 year survival =20%

Answer 152

A

General Sx of Leukaemia
Gum Infiltration

Answer 153

A

FBC - Pancytopenia

Blood Film - High proportion of blast cells, Myeloperoxidase
AUER RODS (myeloperoxidase cytoplasmic aggregates in neutrophils)

BM Biopsy - > 20% myeloid Blast cells

Answer 154

A

Associated with AML
myeloperoxidase cytoplasmic aggregates in neutrophils

Answer 155

A

Chemotherapy + ATRA
Consider Abx Prophylaxis for neutropenia
Give ALLOPURINOL if on Chemo - Prevent Tumour Lysis Syndrome

Last resort - BM Transplant

Answer 156

A

Caused by the release of Uric Acid from cells that are destroyed by chemotherapy.
Uric acid can form crystals in interstitial tissue and the kidneys causing AKI.

Tx with Allopurinol

Answer 157

A

Neoplastic Myelocyte proliferation (precursor for eosinophils, basophils, Neutrophils)

Answer 158

A

Philadelphia chromosome (chromosome 9)
Cytogenetic translocation t(9:22)

Answer 159

A

Philadelphia chromosome translocation
BCR ABL gene fusion causing Tyrosine Kinase irreversibly switched on.
Tyrosine kinase increases cell proliferation

Answer 160

A

General Sx of Leukaemia
MASSIVE Hepatosplenomegaly

Answer 161

A

FBC - Pancytopenia (but granulocytosis)

BM biopsy - increased granulocytes

Philadelphia chromosome genetic test using FISH - look for BCR-ABLE

Answer 162

A

Chemotherapy
Imatinib - T.K inhibitor

Answer 163

A

Risk of progression to AML

Answer 164

A

Neoplastic Lymphoblast proliferation
Most common Childhood malignancy - 75% of cases < 6 yrs

Answer 165

A

Mostly B cell lineage (not T cell)
t(12:22) w/ good prognosis

Associated with DOWNs (30x increased risk)

Answer 166

A

General Sx of Leukaemia
except 6yr olds with DOWNs
hepatosplenomegaly

Answer 167

A

FBC - Pancytopenia

Blood film - increased lymphoblast cells

BM Biopsy - >20% Lymphoblasts (diagnostic)

Immunofluorescence - TdT +tve lymphoblasts

Answer 168

A

Chemotherapy

Consider ALLOPURINOL

Generally good prognosis

Answer 169

A

Neoplastic proliferation of Lymphocytes (most B cells)
Most common leukaemia overall often affecting adults >55yrs
multifactorial

Answer 170

A

Often Asymptomatic

If Sx:
General Sx of Leukaemia
Lymphadenopathy (non tender)
Hepatosplenomegaly

Answer 171

A

FBC - Pancytopenia (except has lymphocytosis)

Blood Film - SMUDGE CELLS

Immunoglobulins - Hypogammaglobulinaemia

Answer 172

A

B cells proliferate but do not differentiate into plasma cells and therefore few Igs are produced.

Answer 173

A

Progressive = Chemotherapy
Old = Palliative Care

Bone Marrow Transplant can be Curable

Consider IV Igs for hypogammaglobulinaemia

Answer 174

A

Richter Transformation:
B cells massively accumulate in Lymph nodes causing massive lymphadenopathy.

CLL transforms to aggressive lymphoma

Answer 175

A

Failure
Stunted growth/development in children
Infections - immunodeficiency
Neurotoxicity
Infertility

Tumour Lysis Syndrome

Answer 176

A

Synthesis of blood cells

Answer 177

A

Bone marrow

Answer 178

A

Through the action of cytokines

Answer 179

A

Haematological malignancies

Chronic conditions - present and evolve over many years

Answer 180

A

Accumulation of mature blood cells in circulation

Answer 181

A

Haematopoietic stem cells

Answer 182

A

Genetic mutations in haematopoietic stem cells

Cells inappropriately and permanently switched on by signalling cytokines that control haematopoiesis

Answer 183

A

Mutations in:
JAK2
MPL
CALR

Answer 184

A

Primary Myelofibrosis
Polycythaemia Vera
Essential Thrombocytopenia

Answer 185

A

Acute Myeloid Leukaemia (AML)

Answer 186

A

Primary Myelofibrosis - Haematopoietic Stem Cell

Polycythaemia Vera - Erythroid Cells

Essential Thrombocytopenia - Megakaryocyte

Answer 187

A

Erythrocytosis of any cause

Answer 188

A

Rare
2 cases/100,000 per year

Answer 189

A

Primary - Polycythaemia Vera
Secondary - Hypoxia, increased EPO, Dehydration, Alcohol

Answer 190

A

JAK2 mutation V617 - EPO constantly switched on
Accounts for 95% of cases

Answer 191

A

Itchy after a bath
Burning in fingers and toes - Eryhtromyalgia
Reddish, Plethoric Complexion
Hepatosplenomegaly
Hyperviscosity of blood - increased RBCs = increased haematocrit

Answer 192

A

FBC - Increased RBCs (+ WCC and Platelets),

Increased Hb

Genetic Test - JAK2V617 positive

Answer 193

A

Non curative

Aim to maintain normal blood count and haematocrit (<45%):
Venesection + Aspirin

Hydroxycarbamide - in high risk patients

Answer 194

A

Arterial Thrombosis - Stroke/MI

Venous Thrombosis - DVT, Splanchnic vein thrombosis, Portal vein Thrombosis

Answer 195

A

Eliminate secondary causes:

Lung disease

Alcohol

Apparent erythrocytosis

EPO (erythropoietin) secreting tumours

Answer 196

A

Life expectancy is normal

Answer 197

A

Elevated Platelet Count

Answer 198

A

JAK mutation
TPO switched on

Answer 199

A

FBC - increased platelets

Blood film - Platelet Islands/aggregations

Check For iron status

Increased ESR - signs of infection
Increased CRP - signs of infection

Answer 200

A

Assess and manage CVD risk
<60yrs - Aspirin alone

> 60yrs or high risk - Aspirin + Hydroxycarbamide

Answer 201

A

Eliminate secondary causes:

Infection

Inflammation (including post-surgical)

Solid tumours

Steroids

Iron Deficiency

Answer 202

A

Arterial thrombosis

Venous thrombosis

Answer 203

A

Proliferation of the cell lines in the bone marrow lead to fibrosis

Answer 204

A

Predominantly JAK2 mutation

Answer 205

A

Weight loss

Fatigue

Features of cytopenia

Answer 206

A

Supportive management:

Blood transfusions, EPO, treat infection

Hydroxycarbamide

Allogeneic stem cell transplant

Ruxolitinab (JAK1/2 inhibitor)

Answer 207

A

Hypoxia
EPO secreted by kidneys
Thyroid hormone and testosterone can stimulate as well

Answer 208

A

Iron - For haemoglobin formation
Vitamin B12 and folic acid - Required for DNA maturation and condensation. Without it, you will have massive red blood cells

Answer 209

A

Occurs in red bone marrow of the epiphyses of bone
EPO will stimulate myeloid stem cell to commit to RBC lineage - proerythroblast
Proerythroblast will become basophillic erythroblast due to increase in mRNA of haemoglobin products
Nucleus condenses and organelles are ejected

Answer 210

A

Haemoglobin has a quaternary structure
4 haem groups
4 four polypeptide chains (α1, α2, β1, and β2)

Answer 211

A

Loss of RBC structure through breakdown of the cytoskeletal components spectrin and ankrin

Answer 212

A

Macrophages or Kupffer cells in the spleen, liver or bone marrow phagocytose RBC
Globin alpha and beta chains > recycled as AA
Haem > iron and protoporphyrin
- Iron > ferritin > haemosiderin
- Protoporphyrin > Biliverdin > Bilirubin

Answer 213

A

Haem > Biliverdin > Bilirubin
Bilirubin binds with albumin = unconjugated bilirubin - travels to liver
Unconjugated bilirubin combines with glucuronic acid (via UGT) = conjugated bilirubin
Conjugated bilirubin forms bile, which gets pushed into the duodenum
Bacteria in the gut breaks down conjugated bilirubin into urobilinogen (AKA faecal stercobilinogen)
Urobilinogen can be reabsorbed and excreted via the urine as urobilin (makes urine yellow)
Urobilinogen can become stercobilin and excreted in the faeces (makes poo brown)

Answer 214

A

Low level of haemoglobin in the blood
It is the result of an underlying disease, and not a disease itself

Answer 215

A

Men:
Haemoglobin - 120-165 g/L
MCV - 80-100 femtolitres

Women;
Haemoglobin - 130-180 g/L
MCV - 80-100 Femtolitres

Answer 216

A

Size of the red blood cells

Answer 217

A

<135 g/L for men
<115 g/L for women

Answer 218

A

Microcytic anaemia (low MCV indicating small RBCs)
Normocytic anaemia (Normal MCV indicating normal sized RBCs)
Macrocytic anaemia (Large MCV indicating large RBCs)

Answer 219

A

Microcytic - CMV <80

Normocytic - CMV 80-95

Macrocytic - CMV >95

Answer 220

A

Increased Loss:
BLEEDING
Haemolysis

Decreased Production:
Iron deficiency
B12 deficiency
Folate deficiency
BM failure

Answer 221

A

TAILS:
- Thalassaemia
- Anaemia of chronic disease
- Iron deficiency anaemia
- Lead poisoning
- Sideroblastic anaemia

Answer 222

A

AHAHA:
Acute blood loss

Haemolytic anaemia

Anaemia of chronic disease

Aplastic anaemia

Hypothyroidism + Renal disease

Answer 223

A

Megaloblastic:
B12 deficiency
Folate Deficiency

Answer 224

A

Split into Megaloblastic and Normoblastic:

Megaloblastic:
- B12 Deficiency
- Folate Deficiency

Normoblastic:
- Alcohol
- Reticulocytosis
- Hypothyroidism
- Liver disease
- Drugs (Azathioprine)

Answer 225

A

Pale cells due to less haemoglobin

Answer 226

A

An anaemia characterised by very large RBCs:

B12 deficiency
Folate Deficiency

Answer 227

A

Tiredness
Shortness of breath
Headaches
Dizziness
Palpitations
Worsening of other conditions such as angina, heart failure or peripheral vascular disease

Answer 228

A

Pale skin
Conjunctival Pallor
Tachycardia
Raised Respiratory Rate

Answer 229

A

Pica - dietary cravings for abnormal things such as dirt

Hair loss - Can indicate Iron Deficiency Anaemia

Answer 230

A

Iron Deficiency Anaemia:
Koilonychia - Spoon shaped nails
Angular Chelitis
Brittle hair and nails

Haemolytic Anaemia:
Jaundice

Thalassaemia:
Bone Deformities

Answer 231

A

Secondary anaemia due to underlying pathology.
Commonest anaemia in hospitals

Answer 232

A

Iron is required for the synthesis of Haemoglobin.
Therefore in Iron deficiency there is impaired synthesis of haemoglobin leading to Microcytic anaemia.

Answer 233

A

Iron Deficiency anaemia

Answer 234

A

Iron is being lost (BLEEDING)
Insufficient dietary iron
Iron requirements increase (for example in pregnancy)
Inadequate iron absorption

Answer 235

A

Duodenum and Jejunum

Answer 236

A

Transported - Transferrin

Stored - Ferritin and Haemosiderin

Answer 237

A

Iron is kept in the soluble ferrous (Fe2+) form by the stomach acid.

When it enters the intestines and the acid drops, it changes to Insoluble ferric iron (Fe3+)

The ferric iron is required for absorption.

PPIs will increase insoluble ferric iron in the stomach that cannot be absorbed.

Answer 238

A

GI tract Cancer
Oesophagitis and Gastritis - GI bleeding
IBD, Colitis and Coeliacs - Impaired absorption

Answer 239

A

General Anaemia Sx
Koilonychia
Angular Stomatitis, Cheilitis
Atrophic Glossitis

Answer 240

A

FBC - MCV = Low (microcytic anaemia)

Blood Film - Hypochromic RBC, Target cells, Howell Jolly Bodies

Iron Studies - Low Ferritin (<15), Low transferrin Saturation (<15%), Increased Total Iron Binding Capacity (TIBC)

Endoscopy if >60 yrs

Answer 241

A

Oral Fe - Ferrous Sulphate (Ferrous Gluconate if poorly tolerated)
Blood Transfusion

Answer 242

A

Cause GI Upset
Diarrhoea
Constipation
Black stools

Answer 243

A

A microcytic anaemia characterised by infective haematopoiesis

Answer 244

A

Defective Hb synthesis within Mitochondria
Often X linked inheritance
A Functional Iron deficiency where there is increased Fe but it is not used in Hb Synthesis

Answer 245

A

FBC - Microcytic

Blood film - Ringed Siderobasts

Answer 246

A

Mainly supportive
Iron chelation (Desferrioxamine)
Consider B6 (Pyridoxine) is hereditary

Answer 247

A

Autoimmune condition in which atrophic gastritis leads to a lack of intrinsic factor secretion from the parietal cells in the stomach
Dietary B12 remains unbound and cannot be absorbed at the terminal ileum
Therefore B12 deficiency leads to impaired maturation of RBCs and anaemia

Answer 248

A

Macrocytic anaemia with peripheral neuropathy and neuropsych complaints
It is a megaloblastic anaemia, as well as folate deficiency anaemia

Answer 249

A

Poor diet (Vegan, vegetarian, old age)
Decreased gastric breakdown (Atrophic gastritis)
Malabsorption (Pernicious anaemia)
Drugs (Metformin, PPI, H2 antagonists)

Answer 250

A

Autoimmune atrophic gastritis

Answer 251

A

DNA synthesis cofactor and the production of red blood cells
required for cell division - Without it, cells remain large (megaloblast)
It is normally present in meat, fish and dairy, and it absorbed in the terminal ileum combined with intrinsic factor

Answer 252

A

B12 typically binds to Transcobalamin in the saliva (provides protection against stomach acid)

Parietal cells release Intrinsic factor (IF)

IF forms complexes with Vit B12 which is then absorbed in the ileum

B12 is then used for RBC production

Answer 253

A

Autoimmune destruction of Parietal cells
Therefore reduced intrinsic factor produced
Therefore poor absorption of B12
B12 cannot be used to produced RBCs
Anaemia

Answer 254

A

General Anaemia Sx
Lemon Yellow Skin
Angular Stomatitis and glossitis
Neurological SX - B12 def causes demyelination

Answer 255

A

Symmetrical paraesthesia
Muscle Weakness

Answer 256

A

MCV Increased - macrocytic anaemia

Blood film - Megaloblasts + Oval Macrocytes

Low serum B12 levels

Anti-IF antibodies and Anti-parietal Abs

Answer 257

A

Dietary advice (Salmon and eggs)
B12 Supplements
PO Hydroxocobalamin

Answer 258

A

A type of MACROcytic anaemia with absence of neurological signs
Folate is required for cell division and DNA synthesis.
Without it maturing RBCs wont divide - Megalobastic

Answer 259

A

Poor diet (poverty, alcohol, elderly)
Increased demand (Pregnancy, renal disease)
Malabsorption (Coeliac)
Drugs, alcohol and methotrexate

Answer 260

A

Headache
Loss of appetite and weight

Answer 261

A

General Anaemia Sx
Angular Stomatitis and Glossitis
No Neurological Sx - distinguish between B12 Def.

Answer 262

A

FBC and Blood film - Macrocytic and Megaloblasts

Decreased serum folate

Answer 263

A

Dietary advice - leafy greens and brown rice
Folate supplements

If pancytopenic then give packed RBC Transfusion

Answer 264

A

Anaemia caused by haemolysis - early breakdown of RBCs

Answer 265

A

Enzyme defects (G6P dehydrogenase deficiency)
Membrane defects (Spherocytosis, elliptocytosis)
Abnormal Hb production (Sickle cell, thalassaemia)

Answer 266

A

Autoimmune Abs against RBCs causing intra and extravascular haemolysis

Answer 267

A

Divided into two subtypes depending on temperature:
WARM type - IgG mediated - occurs at normal or warm temperatures (Idiopathic)
COLD type - IgM mediated - also called cold agglutinin disease

Answer 268

A

Direct Coombs Test - Agglutination of RBCs with Coombs reagent

Answer 269

A

Anaemia symptoms (Pallor, fatigue, dyspnoea)
Jaundice (Increase in bilirubin)
Splenomegaly (increased haemolysis)
Dark urine (PNH)

Answer 270

A

Low Hb

FBC - Normocytic Anaemia

Blood film - Shistocytes

Direct coombs Test - positive

Answer 271

A

Treat underlying condition
RBC transfusion and folic acid
Prednisolone
Rituximab
Splenectomy

Answer 272

A

Decreased EPO causes reduced erythropoiesis
Normocytic and Normochromic anaemia

Answer 273

A

A Pancytopenia where BM fails and stops making haematopoietic stem cells.

Causes - Idiopathic

FBC - Normocytic anaemia with decreased reticulocytes

Answer 274

A

Infection
Liver disease
Autoimmune disease - SLE/RA
Cancers

Answer 275

A

A bleeding disorder caused by a deficiency in Factor VIII

Answer 276

A

A bleeding disorder caused by a deficiency in Factor IX

Answer 277

A

These are X linked Recessive disorders and therefore will only tend to affect males.

Answer 278

A

Excessive Bleeding to minor trauma

Intra-cranial haemorrhage, haematomas, chord bleeding in neonates

Spontaneous bleeding into joints and muscles

Answer 279

A

Bleeding scores

Coagulation factor assays

Genetic testing

Answer 280

A

Affected clotting factors (VIII or IX) can be replaced by IV.

Desmopressin can stimulate the release of VwF

Antifibrinolytics - Tranexamic Acid

Answer 281

A

An autosomal dominant condition where there is a deficiency, absence or malfunction of VWF leading to abnormal bleeding.

Answer 282

A

Von Willebrand Disease

Answer 283

A

Hx of easy, prolonged or heavy bleeding:

Bleeding gums w/ bruising
Nose bleeds (Epistaxis)
Menorrhagia (heavy menstrual bleeding)

FHx of VWD.

Answer 284

A

Hx or FHx of abnormal bleeding

Bleeding assessment tools

Answer 285

A

Does not require day to day Tx

Tx is in response to major bleeding or trauma.

Tx:
Desmopressin can be used to stimulates the release of VWF
VWF can be infused
Factor VIII is often infused along with plasma-derived VWF

Answer 286

A

Tranexamic acid

Answer 287

A

Autoimmune disease that mostly occurs after a group A strep infection.
It causes joint pain and can affect other areas such as the heart (carditis) brain and skin.

Answer 288

A

Fever
Joint pain
Recent infection (sore throat/scarlet fever)
Chest pain
SOB

Answer 289

A

Infection
FHx of rheumatic fever
Overcrowded living.

Answer 290

A

Blood tests:
ESR/CRP
WCC
Blood cultures

ECG - Shows heart block
ECHO - if mitral regurgitation murmur

Answer 291

A

Benzylpenicillin

Diuretic +/- ACEi if heart failure present

Answer 292

A

Glandular Fever caused by EBV infection.

Answer 293

A

Burkitts Lymphoma
Hodgekin’s Lymphoma
nasopharyngeal carcinoma

Answer 294

A

15-24yr olds
EBV spread via saliva or body fluids

Answer 295

A

FBC
Blood film - Atypical Lymphocytes

EBV serology
EBV PCR

Answer 296

A

Generally self limiting
Supportive therapy

Good hydration and analgesics

Answer 297

A

Autoimmune destruction of platelets (IgG)

Answer 298

A

Purpuric rash

Answer 299

A

Prednisolone
+
IV IgG

Answer 300

A

ADAMTS-13 deficiency (VWF cleaving enzyme) therefore VWF remains as aggregates at endothelial injury sites.

Answer 301

A

Purpuric rash
AKI
Haemolytic anaemia
Neurological Sx

Answer 302

A

Thrombocytopenia
Schistocytes
ADAMTS-13 deficiency

Answer 303

A

Plasmapharesis

2nd line - Prednisolone + Rituximab

Answer 304

A

PT - how long it takes for the blood to clot.
INR - international normalised ratio

PT range = 11-13.5 seconds
INR = 0.8-1.1

Answer 305

A

Partial thromboplastin time (activated Partial Thromboplastin Time)
Normal range is 21-35 seconds.
When higher than normal this suggests there may be bleeding or liver disease etc.

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Haematology Flashcards

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