Haem

Question 1

Anaemia Definition (Hb)

Answer 1

Men <135g/L

Women <115g/L

Question 2

Causes of microcytic anaemia

Answer 2

FAST
Fe-deficiency
Anaemia of chronic disease
Sideroblastic anaemia
Thalassaemia

Question 3

Causes of macrocytic anaemia

Answer 3

FATRBC(+M)
Fetus (pregnancy)
Antifolates (phenytoin)
Thyroid (Hypothyroidism)
B12 or folate deficiency
Cirrhosis (++alcohol)
Myelodysplastic syndromes

Question 4

Causes of normocytic anaemia

Answer 4

Acute blood loss
Anaemia of chronic disease
BM failure
Renal failure
Hypothyroidism
Haemolysis
Pregnancy

Question 5

Fe deficiency anaemia - signs

Answer 5

koilonychia, atrophic glossitis, angular cheilosis

post cricoid webs - Plummer-Vinson Syndrome

Question 6

Fe deficiency anaemia -blood film

Answer 6

microcytosis, hypochromic
anisytosis/ poikilocytosis
pencil cells

Question 7

Fe deficiency anaemia - lab results

Answer 7

low Fe
low ferritin
high TIBC

Question 8

Anaemia of chronic disease - pathophysiology

Answer 8

cytokine driven inhibition of RBC production

IFNs, TNF, Il1 = reduced EPO re3ceptor production (reduced EPO synthesis)

IL6 and LPS = stimulate liver to make hepcidin = decreases iron absorption (inhibits transferrin)

Question 9

Anaemia of chronic disease - in renal failure

Answer 9

EPO deficiency

Question 10

Sideroblastic anaemia

Answer 10

in BM - ineffective erythropoiesis - iron loading

causes endocrine/liver/ cardiac damage

Question 11

Sideroblastic anaemia blood film

Answer 11

Ring sideroblasts

Question 12

Sideroblastic anaemia - lab results

Answer 12

high Fe
high ferritin
N TIBC

Question 13

Sideroblastic anaemia - causes

Answer 13

ALCOHOL excess
myelodysplastic/ myeloproliferative disorders
post-chemo
irradiation
lead
anti-TB drugs

Question 14

Sideroblastic anaemia - treatment

Answer 14

Pyridoxine - Vit B6 promotes RBC production

Remove cause

Question 15

Vit B12 deficiency causes

Answer 15

Stomach - Pernicious anaemia (post-gastrectomy)

Terminal ileum - ileal resection (Crohn’s disease, bacteria overgrowth, tropical sprue, tape worms)

Question 16

Vit B12 deficiency clinical features

Answer 16

glossitis, angular cheilosis

irritabiliy/ depression/ psychosis/ dementia

paraesthesiae, peripheral neuropathy (loss vibration/ proprioception 1st - absent ankle reflex, spastic paraperesis)

Question 17

Pernicious Anaemia

Answer 17

anti-IF (50%)
anti-parietal cell (90%)
Schilling test

Question 18

Vit B12 deficiency treatment

Answer 18

IM hydroxocobalamin (B12)

Question 19

Folate deficiency causes

Answer 19

Diet
Pregnancy
Drugs - alcohol, anti-epileptics (phenytoin), methotrexate, trimethoprim

Question 20

Hereditary spherocytosis genetics

Answer 20

autosomal dominant

SPECTRIN (or ankyrin) deficiency

Question 21

Hereditary spherocytosis diagnosis

Answer 21

spherocytes
increase osmotic fragility
DAT +ve

Question 22

Hereditary spherocytosis features

Answer 22

severe neonatal jaundice

splenomegaly - extravascular haemolysis

Question 23

haemolytic anaemia complications

Answer 23

Parvovirus B19 susceptibility
- virus infects developing RBC and arrests maturation
if reduced RBC/RBC lifespan - may lead to severe anaemia
self limiting infection - may require transfusion

propensity to gall stones (pigmented)

increased risk of iron overload (increased intestinal absorption)
increased risk osteoporosis (unknown)

Question 24

Gilbert Syndrome gene

Answer 24

genetic polymorphism

Mutation in UGT 1A1 (extradinucleotide on each allele = TA7/TA7)

Question 25

Hereditary ellipotcytosis genetics

Answer 25

autosomal dominant - spectrin mutations

Question 26

Hereditary pyropoikilocytosis (ellipotcytosis) genetics

Answer 26

abnormally snesitive to heat

autosomal recessive

Question 27

South East Asian Ovalocytosis

Answer 27

recessive - heterozygous +/- malaria protection

Question 28

G6PD Deifciency genetics

Answer 28

X linked (affect hereo males and homo females)

G6PD = enzyme catalyses first step in pentose phosphate pathway - maintains intracellular gluthianone (GSH)
GSH - protect RBCs against oxidative stress

Question 29

G6PD Deifciency blood film

Answer 29

Heinz bodies - peripheral inclusions (methylviolet stain)
bite cells
nucleated RBCs, contracted cells

Question 30

G6PD Deifciency presentation

Answer 30

rapid anaemia/ jaudice precipated by oxidants

drugs (primaquinine, sulfonamides, aspirin), broad/fava beans, acute stressors/infection, moth balls (naptholene0

Question 31

Pyruvate kinase defiency

Answer 31

autosomal recessive

severe neonatal jaundice, splenomegaly, haemolytic anaemia

Question 32

Sickle cell mutation

Answer 32

GAG -> GTG (Glu-> Val)
codon 6 on beta chain
HbA-> HbS

Question 33

Sickle-haemaglobin C disease

Answer 33

HbSC
HbS from one parent
HbC from other parent (defective b chain)

Question 34

Sickle beta thalassaemia

Answer 34

HbS/Beta
HbS from one parent
beta thalassaemia trait from other parent

Question 35

SCD vaso-oclusion/ infarction SICKLED

Answer 35

Stroke
Infection
Crises (splenic, sequestration, chest pain)
Kidney
Liver - gallstones
Eyes - retinopaty
Dactilitis 

Mesenteric ischaemia
Priapism

Question 36

SCD Haemolyis features

Answer 36

anaemia 60-80
splenomegaly
folate deficiency
gallstones
aplastic crisis

Question 37

SCD presentation

Answer 37

usually at 3-6 months (decrease HbF)
reduced O2 = HbS polymerisation = sickling

child - strokes, splenomegaly, splenic crisis, dactylitis
teens - impaired growth, gallstones, psych, priapism
adult - hyposplenism, CKD, retinopathy, pumonary HT

Question 38

Beta thalassaemia

Answer 38

reduced beat chain synthesis

Question 39

thalassaemia scull x ray

Answer 39

skull bossing
maxillary hypertrophy
hair-on-end

Question 40

Beta thalassaemia treatment

Answer 40

blood transfusions + desferrioxamine (prevents iron overload)

Question 41

Warm Autoimmune Haemolyitc Anaemia

Answer 41

37C
IgG
DAT +ve
Spherocytes
Idiopathic, lymphoma, CLL, SLE, methyldopa

Question 42

Cold Agglutinin Disease

Answer 42

<37C
IgM
DAT +ve
Raynauds
Idiopathic, lymphoma, infections: EBV, mycoplasma

Question 43

Warm Autoimmune Haemolyitc Anaemia Tx

Answer 43

steroids
splenectomy
immunosuppression

Question 44

Cold Agglutinin Disease Tx

Answer 44

treat underlying condition
avoid cold
chlorambucil (chemo)

Question 45

Paroxysmal Cold Haemoglobinuria

Answer 45

Hb in urine
Viral infection - measles, syphillis, VZV
Donath-Landsteiner Ab - stick to RBCs ub cold - complement mediated haemolysis in rewarming
(self limiting - IgG dissociate at higher temp than IgM)

Question 46

Paroxysmal nocturnal haemoglobniuria

Answer 46

acquired loss of GPI surface markers (protective)
Complement mediated lysis
Chronic intravascular haemolysis (NIGHT)
morning haemoglobinuria, thrombosis(+ Budd Chiari Syndrome)
Immunophenotyping or Ham’s Test

Question 47

Paroxysmal nocturnal haemoglobinuria treatment

Answer 47

iorn/folate supplement
Prophylactic vaccine, Ab
Eculizimab (expensive) - prevents complement binding

Question 48

TTP Ab

Answer 48

anti-ADMTS13

Question 49

TTP

Answer 49

1. MAHA
2. fever
3. renal impairment
4. focal neurology
5. thombocytopenia

Question 50

TTP pentad

Answer 50

1. MAHA
2. fever
3. renal impairment
4. focal neurology
5. thombocytopenia

Question 51

HUS pathophysiology

Answer 51

E.coli toxin damages endothelial cells = fibrin mesh and RBC destruction

Question 52

HUS features

Answer 52

MAHA, diarrhoea, renal failure

Children/ elderly

Question 53

Acute Leukaemia feautres

Answer 53

rapid onset
death in w-m if untreated
immature cells (blasts)
BM failure - anaemia, neutropenia, thrombocytopenia

Question 54

Acute Pro Myelocytic Leukaemia mutation

Answer 54

t(15;17) translocation = PML-RARA fusion gene

Question 55

AML Chromosomal translocations

Answer 55

t(15;17) = promyelocytic leukaemia (M3)
t(5;8)
inv(16)/ t(16;16) = good prognosis

Question 56

AML Chromosomal duplications

Answer 56

+ chr 8

+ chr 21 (i.e. Trisomy 21) - increased risk AML and ALL

Question 57

Chromosomal Loss/ deletion

Answer 57

5/5q - parital loss of chr 5

7/7q - total loss of chr 7

Question 58

AML molecular abnormalities

Answer 58

point mutations
NPM1 = good prognosis
CEBPA = good prognosis (both alleles)

partial duplication FLT3 = bad prognosis event

Question 59

Multiple hit hypothesis

Answer 59

AML requires at least 2 interacting molecular defects - synergise to give leukaemic phenotype

Type 1 abnormality - promote proliferation and survival
Type 2 abnormalities - block differentiation

(CML - single mutation may be sufficient to cause disease)

Question 60

Acute Pro Myelocytic Leukaemia clinical features

Answer 60

excess abnormal promyelocytes a/w DIC (due to hyperactive fibrinolysis)
must be diagnosed early to prevent death from haemorrhage

Question 61

Acute Pro Myelocytic Leukaemia blood film

Answer 61

blasts (no present in aleukaemic leukaemia)
multiple auer rods
hypergranular

Question 62

Multiple hit hypothesis - in acute pro myelocytic leukaemia

Answer 62

Type 1 abnormality - FLT3-ITD

Type 2 abnormalities - t(15;17) PML-RARA

Question 63

Multiple hit hypothesis - Core Binding factor (CBF) Leukaemias

Answer 63

Type 1 abnormality - KIT mutation

Type 2 abnormalities - CBF function mutation

Question 64

inv(16)/ t(16;16)

Answer 64

good prognosis

some maturation to abnormal eosinophil precursor - giant purple granules

Question 65

AML bloodfilm

Answer 65

Auer rods (fusion of primary granules in crystal)
Granular cells

Question 66

AML cytochemistry (less used nowadays)

Answer 66

Positive staining for
myeloperoxidase
non-specific esterase
sudan black B
- these stains are negative in ALL

Question 67

Immunopheonotyping ALL

Answer 67

Pre-B cell: CD19, Cd20, CD10, TdT
B cell: CD19, CD20, surface Ig
T cell: CD2, CD3, CD4, CD8, TdT

Question 68

Immunopheonotyping AML

Answer 68

MPO
CD13, CD33, CD14, CD15
Glycophorin E
Platelet Antigens

Question 69

Immunopheonotyping ALL and AML

Answer 69

CD34
CD45
HLA-DR

Question 70

DIC in leukaemia

Answer 70

DIC presents as vascular obstuction (even gangrene) and due to sepsis (BM failure)

In pro-myelocytic - due to hyperactive fibrinolysis (substances secreted from leukaemic cells)

Question 71

Clinical features of AML - eyes

Answer 71

retinal haemorrhages/ retinal exudates

due to hyperviscosity if WCC is +++ also due to thrombocytopenia

Question 72

Clinical features of ALL

Answer 72

BM failure (anaemia, thrombocytopenia, neutropenia)
Lymphadenopathy ++
Thymic enlargment - T cell 
HSM
Testes, CNS, other site
Painful bones in children

Question 73

ALL mutations good prognosis

Answer 73

Hyperdiploidy = t(12;21), t(1;19)

t(9;22) - Ph+ Chr - prev poor prognosis - now GOOD with TK inhibitors - IMATINIB

Question 74

ALL mutations poor prognosis

Answer 74

Hypodiploidy = t(4;11)

Question 75

ALL B and T cell percentages

Answer 75

T-lineage = 15%
B-lineage = 85%

Question 76

ALL Treatment - specific therapy

Answer 76

CNS directed therapy - propensity to cross BBB and migrate into CSF - drugs directly injected or high dose to cross BBB
(+ systemic chemo)

Question 77

PV gene mutation

Answer 77

JAK2 V617F mutation (100%)

Question 78

ET gene mutaiton

Answer 78

JAK2 - 60%
Calreticulin - 30%
MPL - 5%

Question 79

PMF gene mutaiton

Answer 79

JAK2 - 60%

Calreticulin - 30%

Question 80

PV Treatment

Answer 80

Venesection
Hydroxycarbamide
target HCT <45%

Question 81

ET Treatment

Answer 81

Aspirin - prevent thrombosis
Hydroxycarbamide - anti metabolite
Anagrelide - specifically inhibits platelet formation (SE - palpitations, flushing)

Question 82

MF investigations

Answer 82

Tear drop poikilocytes (dacrocyte)
Leukoerythroblasts (primitive cells)
BM dry tap

Question 83

Poor prognosis in MF

Answer 83

Severe anaemia <100g/L
Thrombocytopenia <100x10^19
Massive splenomegaly

Prognostic scoring system DIPPS
Score 0 - median survival 15y
Score 4-6 - median survival 1.3y

Question 84

MF treatment

Answer 84

Hydroxycarbamide, thalidomide
Supportive
Allogenic SCT
Ruxolotinib - high prognostic score cases

Question 85

MF cell signal inhibitor

Answer 85

Ruxolitinib (JAK2 inhibitor)

Question 86

ALL TK inhibitor

Answer 86

IMATINIB (PH+ ALL)

Question 87

Hodgkin Lymphoma staining

Answer 87

CD15

CD30

Question 88

Hodgkin Lymphoma tissue diagnosis - characteristic cell

Answer 88

Reed-Sternberg Cells (owl eye)

Bi/multi-nucleate

Question 89

Hodgkin Lymphoma Staging

Answer 89

Ann-Arbor
S1 One LN region
S2 Two or more LN regions on same side of diaphragm
S3 Two or more LN regions on opposite side of diaphragm
S4 extranodal sites (liver, BM)

A - no constitutional symptoms
B - constitutional symptoms (‘B’ symptoms)

Question 90

Hodgkin Lymphoma Treatment

Answer 90

1. Combination chemo (ABVD)
   adriamycin, bleomycin, vinblastine, decarbgazine
2. Radiotherapy (high risk breast cancer)
3. Intensive Chemo and Autologous SCT

Question 91

NHL - H. Pylori

Answer 91

Gastric MALT (mucosa associated lymphoid tissue) Marginal Zone NHL of stomach

Question 92

NHL - Sjogrens

Answer 92

Marginal Zone NHL of Parotid lymphoma

Question 93

NHL - Coeliac disease

Answer 93

Small bowel T cell lymphoma

EATL (enteropathy associated T-Cell Non Hodgkin lymphoma)

Question 94

NHL - HTLV

Answer 94

HTLV1 infects T cells by vertical transmission
Carribean and Japan carriers
May develop Adult T cell leukaemia lymphoma (2.5% at 70 years) – very aggressive

Question 95

NHL - EBV

Answer 95

EBV infects B lymphocytes
Healthy Carrier state maintained by cytotoxic T cells - kill EBV antigen expressing B cells
Loss of T cells function give risk of EBV driven lymphomas
HIV
60 fold increase in lymphoma in HIV (high grade B-NHL)
Iatrogenic (renal heart pancreas transplant imunosuppression)
PTLD (post transplant lymphoproliferative disorder) – prednisolone or cyclosporin

Question 96

NHL Prognosis

Answer 96

LDH, B2 microglobulin – raised in rapidly dividing tumours
Albumen – low in sick patients
Kidney/BM function – is it obstructing?
Wider treatment options in younger patients

Question 97

Classical Hodgkin Lymphomas

Answer 97

Nodular sclerosing 80% Good prognosis (causes the peak incidence in young women)
Mixed cellularity 17% Good prognosis
Lymphocyte rich (rare) Good prognosis
Lymphocyte depleted (rare) Poor Prognosis

Question 98

Nodular Lymphocyte predominant HL

Answer 98

5% - disorder of the elderly multiple recurrences

Question 99

Hodgkin Lymphomas Treatment

Answer 99

ABVD
Adriamycin			
Bleomycin			
Vinblastine 	
DTIC	

ABVD, is given at 4-weekly intervals.

Effective treatment
Preserves fertility (unlike MOPP the original chemo)
Can cause (long term)
Pulmonary fibrosis
cardiomyopathy

Question 100

LN B Cell area

Answer 100

Lymphoid follicle
Mantle zone - naïve unstimulated B cells
Germinal center - B cells, Antigen presenting cells

This is where B cells which bind antigen epitopes are selected and activated

Question 101

LN T Cell area

Answer 101

T cells
Antigen presenting cells
High endothelial vessels (T cells interact with APCs)

This is where T cells which bind antigen epitopes are selected and activated

Question 102

Immunophenotyping - T and B cell markers

Answer 102

CD 20 = B cell marker

CD 3, CD 5 = T cell marker

Question 103

Protein expressed in B cells of Mantel Cell Lymphoma

Answer 103

Cyclin D1

Question 104

B cell clonality and malignancy

Answer 104

Light chain expression
Malignant B cells = monoclonal (kappa or lamda)
Normal B cells = poly clonal kappa and lamba light chain expression

Question 105

FISH: Mantle cell lymphoma

Answer 105

t (11;14)

Question 106

FISH: Follicular lymphoma

Answer 106

t (14;18)

Question 107

FISH: anaplastic large cell lymphoma

Answer 107

t (2;5) a/w better prognosis in anaplastic large cell lymphoma

Question 108

Immunophenotyping in CLL (poor prognosis)

Answer 108

CD38 staining

Question 109

Follicular Lymphoma

Answer 109

Lymphadenopathy middle aged/elderly
Follicular pattern - whole node is replaced with neoplastic follicles
Germinal centre cell origin = CD10, bcl-6+ positive staining
May transform to high grade

Question 110

Small lymphocytic lymphoma/CLL

Answer 110

Middle Aged/elderly; lymphadenopathy or high blood code

CD5, CD23 +

Multiple genetic abnormalities

Indolent, but can transform to high grade lymphoma (Richter transformation)

Question 111

Mantle cell lymphoma

Answer 111

MA male predominence
Lymph nodes, GI tract
Disseminated disease at presentation
Aberrant CD5, cyclin D1 expression
11;14 translocation
Cyclin D1 over expression
Median SR 3-5 yrs

Question 112

Burkitt’s lymphoma

Answer 112

Jaw or abdominal mass children/young adults
Endemic, Sporadic, Immunodeficiency
EBV associated
Germinal center cell origin
“starry-sky” appearance
C-myc translocation (8:14, 2:8, 8;22) – removes break on cell cycle
Aggressive disease

Question 113

Diffuse large B cell lymphoma

Answer 113

MA/elderly
Germinal center or post-germinal center B cell
Germinal centre phenotype - CD10+ = better prognosis
Sheets of large lymphoid cells
Germinal center phenotype = good prognosis
p53 positive, high proliferation fraction = poor prognosis

Question 114

Diffuse large B cell lymphoma prognosis

Answer 114

CD10+ = better prognosis

p53 positive, high proliferation fraction = poor prognosis

Question 115

Hodgkin vs Non Hodgkin

Answer 115

Hodgkin
More often localised to a single nodal site
Spreads contiguously

Non-Hodgkin
More often involves multiple lymph node sites
Spreads discontinuously

Question 116

Classical Hodgkin Lymphoma

Answer 116

Young and MA (double peak)
Often involves just single lymph node group
Though to be germinal center/post germinal center B cell origin
EBV associated
Sclerosis, mixed cell population in which scattered Reed-Sternberg and Hodgkin cells with eosinophils
Moderately aggressive
CD 30 and CD 15 = diagnostic markers for HL

Question 117

Nodular LP (Non Classical) Hodgkin Lymphoma

Answer 117

Isolated lymphadenopathy
Germinal centre B cell (positive for some germinal centre B cell markers)
No association with EBV
B cell rich nodules with scattered L&H cells
Indolent
Can transform to high grade B cell lymphoma (i.e. transforms to Non-Hodgkin Lymphoma)
Reactive population = lymphocytes (eosinophils and macrophages not seen – unlike classical HL)
Express CD 20 strongly and diffusely (Negative for CD 30 and 15)

Question 118

CLL vs Small lymphocytic lymphoma (SLL)

Answer 118

CLL - primarily seen in BM

SLL - primarily seen in LN

Question 119

Evan’s syndrome

Answer 119

CLL a/w autoimmunity - AIHA, ITP

Question 120

CLL diagnosis

Answer 120

Lymphocytosis >5 (high % of WCC = small, mature lymphocytes)
Low serum Ig
SMEAR CELLS

Question 121

CLL prognostic factors - poor

Answer 121

Raised LDH
CD38+
11q23 deletion

Question 122

CLL prognostic factors - good

Answer 122

Hypermutated Ig Gene
Low ZAP-70 expression
13q14 deletion

Question 123

CLL Staging

Answer 123

Binet Staging
A = high WBC, <3 enlarged LN (no treatment)
B = >3 enlarged LN
C = anaemia or thrombocytopenia

Question 124

CLL treatment

Answer 124

watchful wairting if asymptomatic
Supportive
p53 +ve - first line = ALEMTUZUMAB

Question 125

Multiple Myeloma Features

Answer 125

CRAB
Calcium = high
Renal failure (+amyloidosis, nephrotic syndrome)
Anaemia (+pancytopenia)
Bones (pain, osteoporosis, osteolytic lesions, fractures)
(+hyperviscosity)

MONOCLONAL Ig (paraprotein) - Bence Jones protein in urine

Question 126

MM staging

Answer 126

Durie-Salmon Staging

Question 127

MM Investigations

Answer 127

Narrow band on electrophoresis
Rouleaux on blood film
Bence-Jones protien in urine
ESR +++
>10% plasma cells in BM

Question 128

MM vs MGUS vs smouldering MM

Answer 128

MGUS
Monoclonal serum protein <30g/L
<10% clonal plasma cells
No CRAB

Smouldering MM
Monoclonal serum protein >30g/L
<10% clonal plasma cells
No CRAB

MM
Monoclonal serum protein >30g/L
Any population of clonal plasma cells
CRAB (>1)

Question 129

MM Bone Aspirate Morphology

Answer 129

Mature plasmacytic myeloma cells - clumped chromatin, low nuclear-cytoplasmic ratio, abundant cytoplasm, rare nucleoli

Immature plasmacytic myeloma cells - reticular chromatin, less abundant cytoplasm, prominent nucleoli
= WORSE PROGNOSIS

Question 130

MM Immunophenotyping

Answer 130

Stain positive for CD138
Stain negative for CD20 (unlike other B cell lymphomas)
Cytoplasmic Ig stain (other B cells stain for surface Ig)
Kappa/lamda = monoclona

Question 131

Myeloma nephropathy

Answer 131

Paraprotein light chain fragments crystalise in kidney - blockage
Proximal tubule necrosis
Fanconi syndrome (renal tubule acidosis)
Cast nephropathy

Question 132

MM treatment options

Answer 132

Steroids
Chemotherapy (e.g. mephalan - high dose tx before SCT)
IMIDS (e.g. thalidomide)
Proteosome inhibtors (e.g. bortezomib)

Question 133

MM treatment (path guide)

Answer 133

Supportive + bisphosphonates
First line - Bortezomib (proteosome inhibitor)
Auto CT curative in young pt
Not suitable SCT - daratumumab

Question 134

MM treatment proteosome inhibitors

Answer 134

Build up of misfolded proteins
Fatal ER stress
E.g. bortezomib, carfilzomib

Question 135

MM treatment IMIDS

Answer 135

IMIDS (e.g. thalidomide)

TF inihibtors

Question 136

Myelodysplastic syndrome morphological feautres

Answer 136

WBC
- Pelger-Huet anomaly (bilobed neutrophils)
- Hypogranulation
- Micro megakaryocytes
RBC - ring sideroblasts

> 5% blast cells in BM

Question 137

Myelodysplastic syndrome prognosis

Answer 137

1/3 die from infection
1/3 die from bleeding
1/3 die from acute leukaemia
(IPSS-R = prognosis)

Question 138

Fanconi Anaemia

Answer 138

Inherited AA - opanytopenia
Autosomal recessive
Skeletal abnormalities, renal malformations, microopthalmia, short stature, skin pigmentation

Question 139

Dyskeratosis Congenital

Answer 139

X linked most commonly
DKC1 gene - defective telomerase function

Autosomal dominant - mutated TERC gene
encodes telomerase RNA

Question 140

Dyskeratosis Congenital

Answer 140

1. Skin pigmentaiton
2. Nail dystrophy
3. Oral leukoplaskia
   (+ BM failure)

Question 141

Blood transfusions acute adverse reactions <24h

Answer 141

Acute haemolytic (ABO incompatibility)
Anaphylaxis/ allergy
Infection (bacterial)
Febrile non-haemolytic
TACO
TRALI

Question 142

Blood transfusions delayed adverse reactions >24h

Answer 142

Delayed haemolytic (ABO incompatibility)
Infection (viral, malaria, VCJD)
TA-GVHD
Post transfusion purpura
Iron overload