Cardiology III

Question 1

Describe the symptoms of AS

Answer 1

Patients with aortic stenosis (AS) may be asymptomatic for a prolonged period of 10-20 years.

• Exertional dysopnea
  Most common complaint
• Exertional angina
  Increased o2 demand due to more LV mass and decreased perfusion pressure gradient due to elevated LV end diastolic pressure
• Exertional syncope or presyncope
  Due to exercise induced vasodilation and inability to increase CO
• Atrial fibrillation
• Epistaxis or bruising

Classical triad of ‘SAD’ is often described.
Syncope; Angina; Dysopnea

Question 2

Describe the signs of AS [4]

Answer 2

Murmur:
* Loud mid-to-late peaking systolic ejection murmur
* Radiates to the carotids and becomes more prominent with sitting forward and in expiration
* Murmur becomes softer the more severe the stenosis
* Murmur radiates to carotids

Sustained apex
Slow rising pulse
Narrow pulse pressure
Soft S2
S4 - caused by the atria contracting against stiff, hypertrophied ventricles.

Question 3

How can you tell from a murmur in AS if it is mild-moderate c.f severe murmur? [2]

Answer 3

Early peaking is more consistent with mild or moderate AS and late peaking is consistent with severe AS

Murmur becomes softer the more severe the stenosis

Question 4

When is dobutamine stress echo indicated in AS patients? [1]

By what mmHg does AS gr

Answer 4

Dobutamine stress echocardiogram:
- useful for patients who have low-gradient AS
- patients may be symptomatic but have seemingly low pressures due to a low ejection fraction
- gradient will increase > 40 mmHg after administration of low dose dobutamine

Question 5

How do you classify AS as being severe? [3]

Answer 5

Severe AS classified as:
- aortic jet velocity ≥4 m/s (direct measurement of the highest antegrade systolic velocity signal across the aortic valve)
- mean trans-valvular pressure gradient ≥ 40 mmHg
- aortic valve area ≤1 cm2.

Question 6

What indicates surgery for AS? [3]

Answer 6

If symptomatic

If asymptomatic but have:
- LVEF < 50%
- Undergoing other cardiac surgery
- low surgical risk factors

Question 7

Which treatment option is used for palliative measures / not suitable for surgery / young children with congenital AS? [1]

Answer 7

Percutaneous balloon valvotomy

Question 9

What is Heyde’ syndrome? [1]

Answer 9

Triad of
- AS
- Recurrent bleeding due to angiodysplasia causing anaemia
- Acquired coagulopathy - VWDS

Question 10

Describe the pathophysiology of acute AR

Answer 10

MEDICAL EMERGENCY:

• Causes an acute rise in left atrial pressure
• Causes pulmonary oedema and cardiogenic shock
• Also get reduced coronary flow - the coronaries fill predominantly during diastole, regurgitant flow at this time reduces filling. Results in angina or in severe cases myocardial ischaemia.

Question 11

Describe the pathophysiology of chronic AR [4]

Answer 11

Regurgitation of blood during diastole causes an increase in the left ventricular end-diastolic volume (essentially the preload).

Leads to systolic and diastolic dysfunction

LV dilatation occurs with eccentric hypertrophy

The dilation allows for an increased stroke volume compensating for regurgitant flow supported by the ventricular hypertrophy

These changes maintain ejection fraction, with a greater preload leading to greater contractility

Question 12

Describe the following signs of AR [5]

de Musset’s
Quincke’s
Traube’s
Duroziez’s
Müllers’

Answer 12

de Musset’s - head nodding with the heart beat.
Quincke’s - pulsation of nail beds.
Traube’s - pistol shot femorals.
Duroziez’s - to and fro murmur heard when stethoscope compresses femoral vessels.
Müllers’ - pulsation of uvula.

Question 13

Describe the managment of acute AR
[what are the two causes of acute AR]

Answer 13

Acute AR is a surgical emergency: Aortic valve replacement or repair should be performed as soon as possible. It primarily occurs secondary to infective endocarditis or aortic dissection, both of which carry very high morbidity and mortality:

Aortic dissection (Stanford type A):
- management depends on the patients pre-morbid state and severity of presentation. If not already there, patients are transferred to the local on-call dissection centre. Emergency open surgery is typically required, management depends on the exact pattern of findings but may consist of root replacement and valve repair or replacement.

Infective endocarditis:
- management depends upon pattern of valvular involvement (multiple valves may be affected) and complications (e.g. annular/aortic abscess, septic emboli). Coronary angiogram may be performed in selected stable patients prior to operative management. AR is generally an indication for early surgery.

-

Question 14

The normal size of the aortic valve area is more than [] cm2, in mild AS it is more than [] cm2, in moderate AS it is from [] to []cm2, and in severe AS < [] cm2.

Answer 14

The normal size of the aortic valve area is more than 2 cm2, in mild AS it is more than 1.5 cm2, in moderate AS it is from 1.0 to 1.5 cm2, and in severe AS < 1 cm2.

Question 15

What is an austin flint murmur? [1]

Answer 15

Early diastolic murmur heard in AR; the blood flows out of of atrial valve on onto mitral valve; heard on apex beat

Question 16

Which drug class are CI in AS? [1]
Why? [1]

Answer 16

GTN are CI in AS due to the fact that they are potent vasodilators, meaning that they would reduce BP, and the heart would have to work even harder (and likely cause blood back into the Pulmonary Circulation and Right Ventricle)

Question 17

Describe the signs of MR [6]

Answer 17

• Pan systolic, high pitched whistling murmur (due to high velocity of blood flow through the leaky valve)
• Murmur radiates to left axilla
• Soft S1: due to incomplete closure.
• 3rd heart sound may be present due to rapid filling of a dilated ventricle.
• Thrill on palpitation
• Signs of HF
• Signs of pulmonary oedema
• Afib

Question 18

What is a tell tale sign of left atrial enlargement on CXR? [1]

Answer 18

double-density sign, also known as the double right heart border

Normally the left atrium is located posteriorly and only the atrial appendage component is visible. But left atria becomes englarged enlarged, the right aspect may become visible as an extra shadow next to the right atria

Question 19

If the double density sign is present on a CXR, what measurement can be taken to confirm left atrial enlargement? [1]

Answer 19

Olbique left atrial measurement: outer edge of atrium to midpoint of left main bronchus: > 7 cm = LA enlargement

Question 20

When is surgery indicated for chronic MR patients?

Answer 20

Chronic MR:

• asymptomatic & LVEF < 60%
  OR
• asymptomatic & LV end systolic diameter >40mm
• All symptomatic if fit for surgery

BMJ BP

Question 21

Describe the signs of mitral stenosis [6]

Answer 21

• Mid-diastolic rumbling murmur: low velocity of blood flow (due to narrow area - rumbles way through). LENGTH OF RUMBLE CORRELATES TO THE INTENSITY
• Loud S1 caused by thick valves closing
• Tapping apex beat that is palpatable (due to loud S1)
• Atrial fibrillation: left atrium can’t push through stenotic valve - disrupts electrical signal
• RFH: Increase in JVP, basal creps, ankle oedema

Question 22

Describe the pathophysiology of mitral stenosis [3]

Answer 22

Mitral stenosis results in raised left atrial pressures and atrial hypertrophy.

This predisposes to atrial fibrillation

Elevated left atrial pressure also causes pulmonary venous hypertension and subsequent pulmonary arterial hypertension resulting in right ventricular hypertrophy and dilation, ultimately progressing to right-sided heart failure

Question 23

What signs would indicate that MS has become more severe? [2]

Answer 23

length of murmur increases
opening snap becomes closer to S2

Question 24

Which form of ECHO is best for investigating mitral valve? [1]

Answer 24

transthoracic echocardiography

Question 25

Mitral valve prolapse is associated with with

Early diastolic murmur, high pitched and blowing
Holosystolic murmur, harsh in character
Continous machinery murmur
Ejection systolic murmur
Mid-late diastolic murmur, rumbling
Late systolic murmur

Answer 25

Mitral valve prolapse is associated with with

Late systolic murmur

Question 26

coarctation of aorta is associated with

Early diastolic murmur, high pitched and blowing
Holosystolic murmur, harsh in character
Continous machinery murmur
Ejection systolic murmur
Mid-late diastolic murmur, rumbling
Late systolic murmur

Answer 26

coarctation of aorta is associated with

Late systolic murmur

Question 27

patent ductus arteriosus is associated with

Early diastolic murmur, high pitched and blowing
Holosystolic murmur, harsh in character
Continous machinery murmur
Ejection systolic murmur
Mid-late diastolic murmur, rumbling
Late systolic murmur

Answer 27

Continous machinery murmur

Question 28

According to NICE guidelines, what is the recommended threshold for the mitral valve area below which intervention is considered in patients with mitral stenosis?
A) 2.0 cm²
B) 1.5 cm²
C) 1.0 cm²
D) 0.5 cm²

Answer 28

According to NICE guidelines, what is the recommended threshold for the mitral valve area below which intervention is considered in patients with mitral stenosis?
A) 2.0 cm²
B) 1.5 cm²
C) 1.0 cm²
D) 0.5 cm²

Question 29

Which pharmacological intervention is recommended by NICE guidelines for managing symptoms in patients with mitral stenosis?
A) Beta-blockers
B) ACE Inhibitors
C) Calcium Channel Blockers
D) Diuretics

Answer 29

Which pharmacological intervention is recommended by NICE guidelines for managing symptoms in patients with mitral stenosis?
A) Beta-blockers
B) ACE Inhibitors
C) Calcium Channel Blockers
D) Diuretics

Question 30

According to NICE guidelines, what is the recommended anticoagulation therapy for patients with mitral stenosis and atrial fibrillation?
A) Aspirin
B) Warfarin
C) Clopidogrel
D) Heparin

Answer 30

According to NICE guidelines, what is the recommended anticoagulation therapy for patients with mitral stenosis and atrial fibrillation?
A) Aspirin
B) Warfarin
C) Clopidogrel
D) Heparin

Question 31

What is de-novo acute heart failure caused by? [4]

Describe pathophysiology of de-novo acute heart failure [3]

Answer 31

De-novo acute HF: caused by and increased cardiac filling pressures and myocardial dysfunction usually as a result of ischaemia.

This causes reduced cardiac output & therefore hypoperfusion.

This, in turn can cause pulmonary oedema.

Caused by:
* Ischaemia
* Viral myopathy
* Toxins
* Valve dysfunction

Question 32

Decompensated heart failure accounts for most cases of AHF.

What are the most common precipitating causes of acute AHF? [4]

Answer 32

• Acute coronary syndrome
• Hypertensive crisis: e.g. bilateral renal artery stenosis
• Acute arrhythmia
• Valvular disease

There is generally a history of pre-existing cardiomyopathy. It usually presents with signs of fluid congestion, weight gain, orthopnoea and breathlessness.

CHAMP

Acute coronary syndrome (ACS)
Hypertensive crisis
Arrhythmias, e.g. atrial fibrillation, ventricular tachycardia, bradyarrhythmia
Mechanical problems, e.g. myocardial rupture as a complication of ACS, valve dysfunction
Pulmonary embolism

Question 33

Explain how the heart tries to compensate for a failing heart [4]

Answer 33

Increasing preload (increasing venous pressures):
* Increases end-diastolic volume (EDV) compensating for the reduced ejection fraction, thus maintaining cardiac output.
* In severe disease, large increases result in pulmonary oedema, ascites and peripheral oedema.

Increasing heart rate (a sinus tachycardia)

Activation of the renin-angiotensin-aldosterone system (RAAS)
* due to renal hypoperfusion from the reduced cardiac output.
* contributes to increased venous pressures through vasoconstriction and there is retention of water and sodium that contributes to oedema.

Sympathetic nervous system activation
* via baroreceptors; increasing myocardial contractility and heart rate

Question 34

Describe the signs of HF [+]

Answer 34

• Tachycardia (raised heart rate)
• Tachypnoea (raised respiratory rate)
• Hypertension
• Murmurs on auscultation indicating valvular heart disease
• Peripheral oedema of the ankles, legs and sacrum
• Raised JVP
• Displaced apex
• Heart sounds S3/S4
• Pulsus alternans
• Hepatomegaly
• Ascites

Question 35

Describe why right sided heart failure may occur [4]

Answer 35

Right-sided heart failure commonly occurs as a result of advanced left-sided failure.

Primary right-sided heart failure is uncommon and broadly related to three categories:
* Pulmonary hypertension
* Pulmonary/Tricuspid valve disease
* Pericardial disease

Also:
* Pneumonia
* Pulmonary embolism (PE)
* Mechanical ventilation
* Acute respiratory distress syndrome (ARDS)

Pulmonary hypertension may occur secondary to left-sided heart disease, primary pulmonary hypertension or significant pulmonary disease (e.g. COPD).

Question 36

A [] is the main investigation for the confirmation of heart failure.

Answer 36

A transthoracic echocardiography (TTE) is the main investigation for the confirmation of heart failure.

Question 37

Describe the treatment algorithm for HF

Answer 37

First-line treatment:
- for all patients is both an ACE-inhibitor and a beta-blocker
- Generally, one drug should be started at a time

Second-line treatment:
- aldosterone antagonist, angiotensin II receptor blocker or a hydralazine in combination with a nitrate

Continued symptoms:
- cardiac resynchronisation therapy
- digoxin
- ivabradine
- SGLT2 inhibitors
- Sacubitril with valsartan (brand name Entresto)

ABAL: ACEin; Beta Blocker; Aldosterone antagonist; Loop diuertic

Question 38

Avoid [] in patients with valvular heart disease until initiated by a specialist.

ACE inhibitor
Beta blocker
Aldosterone antagonist
Loop diuretic

Answer 38

Avoid [] in patients with valvular heart disease until initiated by a specialist.

ACE inhibitor
Beta blocker
Aldosterone antagonist
Loop diuretic

Question 39

If a patient remains symptomatic despite optimal treatment what interventions using a device can be used in selected patients? [4]

Answer 39

Implantable cardiac defibrillator (ICD):
* important for primary and secondary prevention of sudden cardiac death (specific indications)
.
Cardiac resynchronisation therapy (CRT):
* biventricular pacing, which is indicated in certain patients with HFrEF (i.e. ≤ 35%) & prolonged QRS (i.e. ≥ 130 ms). Usually receive combined device with defibrillator.

Percutaneous coronary intervention (PCI):
* patients with ischaemic heart disease may be offered revascularisation therapy if indicated.|

Cardiac transplant:
* highly specialised procedure for certain patient groups with heart failure.

Question 40

Describe how you manage an acute heart failure patient [+]

Answer 40

Oxygen
- Patients often require 15L/minute with a reservoir mask.
- reassess and down-titrate oxygen to avoid hyper-oxygenation which is associated with worsening myocardial ischaemia and other pathology.

Loop diuretics:
- All ‘WET’ patients will require diuretics as the cornerstone of their management.
- 40 milligrams furosemide intravenously initially to improve symptoms of congestion fluid overload.

Nitrates:
- sublingual glyceryl trinitrate or intravenous nitrates
- Do not use nitrates in those with SBP < 90mmHg or aortic stenosis, who rely on sufficient preload to overcome their pressure gradient.

NIV:
- for those with cardiogenic pulmonary oedema or dyspnoea
- improves ventilation to reduce respiratory distress and drives fluid out of alveoli

Question 41

Explan your answer [1]

Answer 41

Left ventricular aneurysm

The ischaemic damage sustained may weaken the myocardium resulting in aneurysm formation. This is typically associated with persistent ST elevation and left ventricular failure. Thrombus may form within the aneurysm increasing the risk of stroke. Patients are therefore anticoagulated.

Question 42

Name the four causes of diastolic HF [4]

Answer 42

• cardiac tamponade
• hypertrophic obstructive cardiomyopathy
• constrictive pericarditis
• restrictive cardiomyopathy

Question 43

Name the four causes of systolic HF [4]

Answer 43

• ischaemic heart disease
• arrhythmias
• myocarditis
• dilated cardiomyopathy

Question 44

When considering third line therapy for chronic heart failure, which drugs can be considered?[5]

Answer 44

Ivabradine

sacubitril-valsartan

digoxin

hydralazine in combination with nitrate

cardiac resynchronisation therapy

Question 45

A patient has chronic heart failure. You trial and ACEI but the patient is intolerant.

You then trial an ARB, but the patient is still intolerant.

What treatment should you consider nexr? [1]

Answer 45

Hydralazine and nitrate

Question 46

Describe how you were determine if you give each of the following for third line chronic HF tx?

Ivabradine

sacubitril-valsartan

hydralazine in combination with nitrate

cardiac resynchronisation therapy

Answer 46

Ivabradine
- sinus rhythm > 75/min and a left ventricular fraction < 35%

sacubitril-valsartan:
- criteria: left ventricular fraction < 35%
- is considered in heart failure with reduced ejection fraction who are symptomatic on ACE inhibitors or ARBs

digoxin

hydralazine in combination with nitrate
- this may be particularly indicated in Afro-Caribbean patients

cardiac resynchronisation therapy
- indications include a widened QRS (e.g. left bundle branch block) complex on ECG

Question 47

A patient has chronic heart failure.

You iniate an ACEin and a BB as first line treatment. This does not resolve their EF.

You next trial and aldosterone antagonist. This does also not help.

They are Afro-Carribean.

What is the appropriate third line treatment?

• Ivabradine
• sacubitril-valsartan
• digoxin
• hydralazine in combination with nitrate
• cardiac resynchronisation therapy

Answer 47

• hydralazine in combination with nitrate

Question 48

When are nitrates considered in the treatment of acute heart failure patients? [3]

Answer 48

Acute HF +
- concomitant myocardial ischaemia
- severe hypertension
- regurgitant aortic or mitral valve disease

Question 49

A patient presents with acute heart failure. You suspect that they have severe left ventricular dysfunction, with a potentially reversible cardiogenic shock.

What is your next stage in management [1]

Answer 49

Add an inotropic agent (such as dobutamine)

Question 50

When do you discontinue beta-blockers for patients with acute HF? [1]

Answer 50

heart rate less than 50 beats per minute, second or third degree atrioventricular block, or shock

Question 51

A patient has acute HF.

Under what circumstances would you prescribe norepinephrine? [1]

Answer 51

If hypotensive / in cardiogenic shock and have an insufficient response to inotropes and there is evidence of end-organ hypoperfusion