CR EOYS2

Question 1

What pathology should you investigate after an ECG after a TIA? [1]

Answer 1

arrhythmias

Question 2

Name two clinical signs of CO2 retention [2]

Answer 2

• Flap (asterixis): ask a patient to extend arms out, close eyes, should be able to hold for 30 secs
• Bounding pulse

Question 3

A patient suffering from an asthma attack would use which of the following

Simple face mask
Nasal cannulae
Venturi mask
Face mask with reservoir bag

Answer 3

A patient suffering from an asthma attack would use which of the following

Simple face mask
Nasal cannulae
Venturi mask
Face mask with reservoir bag

Question 4

A patient suffering from an sepsis attack would use which of the following

Simple face mask
Nasal cannulae
Venturi mask
Face mask with reservoir bag

Answer 4

A patient suffering from an sepsis attack would use which of the following

Simple face mask
Nasal cannulae
Venturi mask
Face mask with reservoir bag

Question 5

Label A & B [2]

Answer 5

A: Lung failure
B: Pump failure

Question 6

LEARN ! Name 4 reasons that could cause hypoventilation

Answer 6

Increased resistance as a result of airway obstruction (e.g.COPD)

Reduced compliance of the lung tissue/chest wall (e.g. pneumonia, rib fractures, obesity).

Reduced strength of the respiratory muscles (diaphragm) (e.g. Guillain-Barré, motor neurone disease)

Drugs acting on the respiratory centre reducing overall ventilation (e.g. opiates)

Question 7

Name three consequences of CO2 retention [3]

State for each their clinical signs [3[

Answer 7

End-organ hypoxia
- Altered mental status
- Bradycardia and hypotension (late)

Haemoglobin desaturation
- Cyanosis

CO2 Retention
- Flap (asterixis): ask a patient to extend arms out, close eyes, should be able to hold for 30 secs
- Bounding pulse

Question 8

Explain MoA of how atherosclerosis causes ischaemic stroke

Answer 8

Endothelial damage allows lipoproteins and monocytes to adhere to the vessel wall and enter the intima.

Monocytes differentiate into macrophages and engulf the lipoprotein and become known as foam cells.

Further accumulation of cholesterol and foam cells forms a fatty streak.

Foam cells release pro-inflammatory cytokines which leads to smooth muscle cell proliferation. and connective tissue to deposition in the fatty streak.

These changes form a fibrous cap over the lipid core.

A necrotic core can form due to the lack of capillaries.

Plaque rupture removes the endothelium which exposes the fibrous cap leading to thrombosis and occlusion of the artery

Question 9

What are the 3 overlying causes of cellular death in stroke? [3]

Answer 9

Mechanical compression
Cerebral Oedema
Excitotoxicity

Question 10

How would you treat acute ischameic stroke:

• if within 4.5 hrs of onset [1]
• if outside 4.5 hrs of onset [1]

Answer 10

Thromboylsis:
- using drug - Alteplase
- Must occur within 4.5 hours of onset
- haemorrhage has to be excluded

Mechanical thrombectomy
- endovascular removal of a thrombus from a large artery.

Question 11

Histopathological features of adenocarcinoma? [3]

Answer 11

irregular, closely packed glands effacing normal lung appearance with atypical cells lining the gland lumen

glandular hyperplasia

desmoplastic (fibrotic) stroma around them.

Question 12

Describe that immune pathophysiology of granuloma formation

Answer 12

• Antigen taken up by macrophage & presented to CD4+ helper T cells
• CD4+ helper T cell convert to TH1 subtype
• TH1 cells screte IL-2 and INy
• T cell proliferation and macrophage activation
• Macrophages and T cells secrete TNFa
• Causes increase in inflammatory cells
• Causes repeat of TH1 cells screte IL-2 and INy etc

Question 13

A patient’s investigations reveal pancytopenia and macrocytosis. His peripheral smear shows hyper-segmented neutrophils. Serological tests reveal positive anti intrinsic factor antibodies. What other biochemical derangements might be observed in this patient?

A. Increased plasma metanephrines
B. Elevated ferritin levels
C. Increased urinary 5-hydroxytryptamine
D. Elevated plasma homocysteine

Answer 13

A patient’s investigations reveal pancytopenia and macrocytosis. His peripheral smear shows hyper-segmented neutrophils. Serological tests reveal positive anti intrinsic factor antibodies. What other biochemical derangements might be observed in this patient?

D. Elevated plasma homocysteine

This patient likely has megaloblastic anemia due to a deficiency of vitamin B12. Vitamin B12 is an essential co-factor involved in two important enzymes. One of these enzymes is methionine synthase, which converts homocysteine to methionine. The deficiency of cobalamin will lead to the impaired functioning of this enzyme. This will result in an accumulation of homocysteine which can be detected in the blood.

Question 14

Explain what bundle branch block is [1]

Which part of ECG can see bundle branch block occur in? [1]

Answer 14

Explain what bundle branch block is [1]
Disruption to the electrical signal that causes your heart to beat [0.5]
Causes altered pathways for depolarisation [0.5]

Which part of ECG can see bundle branch block occur in? [1]
Prolongs QRS

Question 15

Which views of the heart are seen by each type of ECG lead on a standard 12-lead ECG? [4]

Answer 15

• *S**eptal: V1, V2
• *A**nterior: V3, V4
• *L**ateral: V5, V6, AVL, I
• *I**nferior: II, III, AVF

AVR: neutral

Question 16

Eccentric hypertrophy:

• Caused by? [4]
• Characterised by? [2]

Answer 16

Eccentric hypertrophy:

Caused by? [1]

• Aortic and mitral regurgitation
• Systolic dysfunction (loss of cardiac inotrophy
• -Volume overload (hypervolaemia due to ventricular or renal failure)
• Alcohol / cocaine

Characterised by? [2]
- Chamber dilation - lumen gets bigger, wall gets smaller: cant contract properly

​

Question 17

Which of the following forms the ventricular outflow tracts?

Truncus ateriosus
Bulbus cordis
Sinus venosus
Primitive ventricle
Primitive atria

Answer 17

Which of the following forms the ventricular outflow tracts?

Truncus ateriosus
**Bulbus cordis**
Sinus venosus
Primitive ventricle
Primitive atria

Question 18

Which structures of the heart are formed from the bulbus cordis?

Answer 18

The smooth outfow of the left and right ventricles. The muscular right ventricle. The muscular intraventricular septum.

Question 19

How would you ID acute myeloid leukemia? (AML)

Answer 19

• A heterogeneous population of myeloblasts with cells ranging from small to medium-sized to large. Note presence of a few maturing myeloid elements.
• Large myeloblasts with prominent nucleoli. Maturing myeloid elements i.e. neutrophils or eosinophils.

Question 20

How would you ID chronic lymphocytic leukemia (CLL) from PBS and BMS?

Answer 20

• PBS: Mature-appearing lymphocytes with high nuclear to cytoplasmic ratios, with scant agranular cytoplasm and homogeneously condensed chromatin without nucleoli. Characteristic “soccer ball’ chromatin pattern. Numerous smudge cells
• BMS: tissue is displaced by nodular and interstitial aggregates of clonal B cells.

Question 21

How would you ID chronic myeloid leukemia (CML) from PBS and BMS?

Answer 21

PBS: > 100K white blood cells with neutrophilia, significant increase in metamyelocytes and myelocytes, also basophilia and eosinophilia

BMS: increased granulocyte precursors, basophils, eosinophils and occasionally monocytes

Normal erythroid compartment, variable pseudo Gaucher cells and sea blue histiocytes, increased reticulin fibres

Question 22

What condition is shown here?

Answer 22

Upper Lobe Blood Diversion

Due to the increased pressures, blood is pushed upwards creating a ‘stag antler’ appearance. Blood is diverted as fluid is more likely to build up lower down due to gravity and cause relative hypoxia and vasoconstriction, thus the blood is diverted to the upper zones.

In the midline of this film, we can also see several sternal sutures.

Question 23

Explain the mechanism of iron absorbtion and transport in the body for haem iron and non haem iron

Answer 23

Haem iron

1. Haem iron – (highly bioavailable) absorbed through DMT1
2. Fe removed from Haem. Can then be stored as ferritin OR can exit cell through Ferroportin

Non-haem iron:

1. Mostly in the form of Fe3+, but only Fe2+ can be absorbed by the enterocyte. Enzyme reductase: Fe3+ à Fe2+
2. Enters via DMT1
3. Fe removed from Haem. Can then be stored as ferritin OR can exit cell through Ferroportin

Then transferrin transports Fe3+ around body

Question 24

What is the first committed cell in erythropeoisis? [1]

What is the pathway from Haematopoietic stem cell (HPSCs) - to erythrocyte? [1]

Answer 24

What is the first committed cell in erythropeoisis? [1]
Proerythroblast

Haematopoietic stem cell (HPSCs) –> common myeloid progenitor cell –> (CMPC)Proerythroblast –> erythroblast –> reticulocyte – > erythocyte

The proerythroblast develops into an (early) erythroblast. The erythroblast then undergoes a sequence of changes where its nucleus progressively shrinks and its cytoplasm becomes filled with haemoglobin (not stained). When full of haemoglobin it is called a normoblast. The normoblast then expels its nucleus and becomes a reticulocyte. Most reticulocytes stay in the marrow and mature into erythrocytes but some may be released into the blood, especially after haemorrhage. Reticulocytes can transport oxygen, just not as efficiently as mature erythrocytes. They can mature into adult RBCs in the circulation

Question 25

What is anaemia of inflammation / chronic disease caused by? [3]

Why will iron supplementation not help in patients with this condition?

Answer 25

What is anaemia of inflammation?
IL-6 released and causes:
* more hepcidin: which blocks release of Fe2+ out of via ferroportin
* blocks production of EPO (& therefore rbc production)
* inhibits production of rbc in bone marrow

Why will iron supplementation not help in patients with this condition?
Problem is with iron being absorbed in gut and iron getting out of macrophages, along with depressed erythropoietin release and erythropoiesis caused by inflammatory cytokines – need to treat cause inflammation

Question 26

Explain how B12 [1] and folate deficiencies [1] would affect the NS?

Which pathology would B12 deficiency lead to if left untreated? [1]

Answer 26

• Folate deficiency: neural tube defects
• B12 deficiency: demylination

if not treated can lead to: subacute combined degeneration of the cord

Degeneration of posterior and lateral columns of spinal cord: TEST FOR WITH ROMBERG SIGN

Question 27

Treatment for folate deficiency? [1]
Treatment for vitamin B12 deficiency:
- pernicious anaemia? [1]
- alternative causes? [1]

Answer 27

Folate: oral folic acid

B12:
- for pernicious anaemia: hydroxycobalamine IM (NOT ORAL). be aware of hypokalaemia due to increased K+ requirement as erypoesis increase back to normal
- other: Oral cyanocobalamine

Question 28

What is pernicious anaemia caused by?

Answer 28

Autoimmune antibodies to parietal cells (sensitive) or IF (specific) – destroy or inactivate IF: SO:
Decreased or absent Intrinsic factor (IF) causes progressive exhaustion of B12 reserves.

Question 29

How can folate mask B12 defiency?

Answer 29

Elevated intake of folic acid alleviates anaemia caused by B12 deficiency by providing a continual supply of active folate (otherwise B12 needed to regenerate active folate via methionine synthase). BUT irreversible neurological sequelae B12 deficiency may still occur!

Question 30

Name & explain 2 inherited defects that cause haemolyitc anaemia, arising from enzymes? [2]

Answer 30

Pyruvate Kinase Deficiency:
- Causes deficiency in pyruvate kinase in erythrocytes: final step in glycolysis
- Less energy for ATPase pump – cells lose K+ & H20, dehydrate and are destroyed - haemolysis

Pentose Phosphate Pathway: Glucose-6-phosphate dehydrogenase (G6PD) deficiency:
- NADPH required to keep glutathione in reduced state – major cellular anti-oxidant
- Pentose phosphate pathway is only source of reduced glutathione in RBC – so RBCs very affected when exposed to oxidative stress
- Increased oxidative stress from infection or drugs (examples, sulfa drugs, primaquine) or certain foods (one example, fava beans) will cause haemolysis

Question 31

Haemolytic anaemias:

Explain how can get aquired damage to RBC?

Answer 31

Microangiopathic haemolytic anaemia: from mechanical damage:

• stress from passing through heart valves
• cells snag on fibrin strands
• heat damage
• osmotic damage (drowing in freshwater)

ALL TYPES OF INTRAVASCULAR HAEMOLYSIS

Question 32

GO OVER THE CYCLE in lecture

Question 33

Which of the following acts a receptor for von Willebrand Factor (vWF)
P2Y12
COX-1
TXA2
Glycoprotein Ib

Answer 33

Which of the following acts a receptor for von Willebrand Factor (vWF)
P2Y12
COX-1
TXA2
Glycoprotein Ib

Question 34

This diagram depicts platelet adhesion to endothelium

Which of the following is VWF

A
B
C
D

Answer 34

This diagram depicts platelet adhesion to endothelium

Which of the following is VWF

A
B
C
D

glycoprotein IIb/IIIa (GPIIb/IIIa) an integrin complex found on platelets. It is a receptor for fibrinogen[1] and von Willebrand factor and aids platelet activation. The complex is formed via calcium-dependent association of gpIIb and gpIIIa, a required step in normal platelet aggregation and endothelial adherence

Question 35

This diagram depicts platelet adhesion to endothelium

Which of the following is fibrinogen

A
B
C
D

Answer 35

This diagram depicts platelet adhesion to endothelium

Which of the following is fibrinogen

A
B
C
D

Question 36

This diagram depicts platelet adhesion to endothelium

Which of the following is GpIIb/IIIa

A
B
C
D

Answer 36

This diagram depicts platelet adhesion to endothelium

Which of the following is GpIIb/IIIa

A
B
C
D

Question 37

This brusing would indicate

VWD
Factor deficiency

Answer 37

This brusing would indicate

VWD - small / multiple
Factor deficiency - one large bruise

Question 38

Why does vein wall pathology increase chance of DVT / PE?

How can vein wall pathology / damage occur? [3]

Answer 38

Heparan sulfate projects out of the endothelial wall. These projections prevent platelet adhesion to intact endothelial membrane. If damaged - less heparan sulfate:
- increases risk of clot formation, especially if combined with reduced blood flow

Vein wall pathology can occur from:
a) smoking / alchohol
b) diabetes
c) chronic inflam disease (RA)

Question 39

How do you diagnose DVT?

Answer 39

Use Wells’ Score:

1. Add up points on the score: 2 points or more is likely. 1 is unlikely
2. If 2 or more score: have proximal leg vein ultrasound
   i) have positive scan - give treatment
   iI) have negative scan, repeat in 6-8 days - do a D Dimer test
   a) if D-dimer is positive: repeat scan in 6-8 days
   b) if second sacan D-dimer is negative - consider alternative disease, but discuss symptoms with patient so they can look out for it
3. Venography - gold standard

* o D-dimer is fibrin degradation product
o Is a marker of fibrin formation
o Raised in VTE and other pathologies
D dimer: fibrin degradation product released when thrombus is degraded by by fibrinolysis low D dimer = low DVT risk.

Question 40

Why might someone have hypercoaguable blood? [3]

When would you consider hypercoagulable states for DVT?

Answer 40

Why might someone have hypercoaguable blood?
- Antithrombin deficiency
- Protein C or S defiency (anti-coagulant proteins)
- Factor V Leiden mutation :causes resistance to activated protein C

Consider when no obvious signs for VTE/ PE

Question 41

How would you investigate for PE?

Classification system? [1]
ECG? [3]
CXR? [1]
ABG [1]

Answer 41

o Wells Score greater than 4

ECG - sinus tachycardia, right heart strain. T-wave inversion on anterior leads (V1-V3). Classic finding: S (deep S wave in lead I), Q ( present in lead III) and T (inverted T in lead III).

o CXR- possible small pleural effusion, peripheral wedge shaped density above diaphragm, focal oligemia. Most common finding with PE patients is a normal CXR, but used to excludes other diagnoses

o ABG - often hypoxic, low CO2 (due to hyperventilation)

Question 42

Explain mechanism of how heparin works to treat PE [3]

Name a drug that is a synthetic heparin [1]

Answer 42

Heparin binds to antithrombin and activates it; activated complex then inactivates factor Xa, preventing conversion of prothrombin to thrombin (thrombin converts fibrinogen into fibrin - integral step in clot formation)

Fondaprinux

Question 43

What are specific treatments for pregnant; breast feeding and patients with cancer assosciated thrombosis? [3]

Answer 43

Specific treatments:

· During pregnancy:
o LMWHeparin throughout pregnancy - NOT warfarin or DOACs as they cross the placenta

During breast feeding
o LMWH and warfarin can be used.

Patient with cancer-associated thrombosis
o LMWH more effective than warfarin
o DOACs being evaluated.

Question 44

What is the treatment if a STEMI is detected? [3]

Answer 44

Open the occluded artery as soon as possible to restore blood flow to the heart (Time is Muscle) (angioplasty) at heart attack centre. less than120 mins is aim

If can’t open artery via stent aim to thromboylse (but want to avoid because have high risk of bleeding).

Reperfusion therapy:
- Aspirin + ticagrelor or pragural (dual antiplatelets)
- Heparin
- PCI

Question 45

How do you chose which antiplatelet should use for unstable angina, NSTEMI [3] or STEMI? [2]

Answer 45

Acute STEMI: Prasugrel & Aspirin

Unstable angina and NSTEMI who are having coronary angiography: Prasugrel or ticagrelor, as part of DAPT with aspirin

Question 46

What are the two types of treatment for haemophilia? [2]

What type of medication can you give for haemophilia? [3]

Answer 46

Two types of treatment:
Prophylaxis
On-Demand

Medication:
Factor VIII/ IX- recombinant or plasma (IV)
Desmopresssin / DDAVP (S/C) - causes the release of von Willebrand’s antigen from the platelets and the cells that line the blood vessels where it is stored. Von Willebrand’s antigen is the protein that carries factor VIII.
Tranexamic Acid (IV and Oral) - Antifibrinolytic (stops fribrinlysis)

Question 47

Symptoms of VWD? [6]

Answer 47

Frequent nose bleeds
Easy bruising
Gum bleeds (Teeth falling out & extractions)
Menorrhagia
Menstrual bleeding lasting more than 7 days
Intestinal/gut bleeding
Symptoms and their severity vary greatly

Question 48

Explain the basic overview from vessel injury –> stable haemostatitc plug

Answer 48

1. Vasoconstriction occurs to reduce blood loss
2. Collagen released is also. This causes platelet released, which in turn causes release of serotonin, TXA ADP & platelet phospholipids.
3. Serotonin then helps with vasoconstriction, whilst TXAADP helps with platelet aggregation.
4. Together they help to make a primary plug
5. Through vasoconstriction, shear stress is increased. This cause various molecules to be release, including VWF (important in platelets adhering to vessel walls)
6. Simultaneously to vasoconstriction: tissues factor is exposed. This causes coagulation cascade.
7. Platelet Phospholipid is the surface for many of the coagulation cascade that occurs.
8. Thrombin is created  fibrin
9. together makes stable hameostatic plug

Question 49

Give brief overview on how primary haemostasis occurs to make platelet plug

Answer 49

1. Vessel injury causes collagen to be exposed
2. VWF binds to collagen one side, and the otherside to platelets via glycoprotein 1b receptor
3. Platelets become activated, start clump other platelets. Through glycoprotein IIb, IIIa and fibrin, form stable haemostatic plug.

Question 50

Describe how the kidney reabsorbs bicarbonate if there is respiratory alkalosis

Answer 50

1. Decreased carbonic anhydrase activity within the cell: less CO2 converted to bicarbonate and protons. Less protons in cell means less protons excreted by sodium-proton exchange ATPase in luminal wall into urine to be excreted.
2. This results in less bicarbonate is converted to CO2 in tubule and filtered bicarbonate is excreted in urine
3. Leads to decreased excretion protons and decreased bicarbonate reabsorption

Question 51

Treatment of HACE [4]

Answer 51

Recognition!
Descend immediately
Dexamethasone orally or intravenously (prevents brain swelling)
Acetazolamide (reduces intracranial pressure by reducing cerebrospinal fluid volume)
Oxygen
Hyperbaric oxygen treatment (portable chambers now available)

Question 52

Explain the mechansim of action of an ADP receptor antagonist [2]

Name three of the most common [3]

Answer 52

The ADP receptor antagonists bind to the P2Y12 receptor to prevent ADP-induced platelet activation

Clopidogrel
Prasugrel
Ticagrelor

Question 53

Explain the mechanism of action of aspirin [3]

Answer 53

Non-selective for COX-1 and COX 2 enzymes (prevent aggregation)

COX 2 inhibition prevents arachidonic acid conversion to Thromboxane A2

Thus preventing Thromboxane A2 formation, preventing platelet aggregation.

Question 54

Which of the following is a non-specific phosphodiesterase inhibitor

Heparin
Warfarin
Aspirin
Dabigatran
Dipyridamole

Answer 54

Which of the following is a non-specific phosphodiesterase inhibitor

Dipyridamole

Inhibits both adenosine deaminase and phosphodiesterase, preventing the degradation of cAMP, an inhibitor of platelet function

Question 55

Name four DOACs [4]

Answer 55

Dabigatran
Rivaroxaban
Apixaban
Edoxaban

Question 56

Describe MoA of the DOACs:

Rivaroxaban
Apixaban
Edoxaban

Answer 56

Direct factor Xa inhibitor (more modern version of heparin)

Question 57

Explain mechanism of action of Dabigatran [1]

Answer 57

Direct thrombin inhibitor

Question 58

Which of the following is not a direct factor Xa inhibitor

Rivaroxaban
Apixaban
Edoxaban
Dabigatran

Answer 58

Which of the following is not a direct factor Xa inhibitor

Rivaroxaban
Apixaban
Edoxaban
Dabigatran: direct thrombin inhibitor