Cardiology

Question 1

What is overdrive suppression?

Answer 1

The phenomenon where a period of excitation at high frequency depresses automaticity of pacemaker cells. The firing of the SA node tends to suppress the automaticity in the other loci because the SA node has a greater intrinsic rhythmicity than the other latent pacemaking sites in the heart.

Question 2

What is automaticity?

Answer 2

It is the ability of the heart to initiate its own beat.

Question 3

First degree AV block

Answer 3

An abnormal prolongation of AV conduction time. This slowed conduction normally takes places in the N region.

Question 4

AV block

Answer 4

As the repetition rate of atrial depolarisation is increased, conduction through the AV junction slows. First (slowed), second (only a fraction of impulses propagated) and third (none of the atrial impulses conducted).

Question 5

Second degree AV block

Answer 5

Conduction pattern in which only a fraction of the atrial impulses are conducted to the ventricles. This type of block may protect the ventricles from excessive contraction frequencies.

Question 6

Third degree (or complete) AV block

Answer 6

Conduction pattern in which none of the atrial impulses reach the ventricles over a substantial number of atrial depolarisations. Third degree block is often associated with syncope (Stokes-Adams attacks).

Question 7

AV node

Answer 7

Atrioventricular node. Divided into 3 functional regions. 1) the AN region, the transitional zone. 2) N region-middle portion. 3) NH region- zone in which nodal fibres gradually merge with the bundle of His.

Question 8

What is normal QRS axis?

Answer 8

-30 degrees to +90 degrees. Predominantly positive QRS in leads I and II.

Question 9

What is an ECG?

Answer 9

Electrocardiograph. A recording of the electrical activity of the heart from the skin.

Question 10

How do you determine heart rate from an ECG?

Answer 10

1) 300 divided by the no. of large squares between each QRS complex.
2) No. of QRS complexes across ECG (10 seconds) x 6.

Question 11

What is the normal QRS interval?

Answer 11

<3 small squares or <120ms.

Question 12

What is the normal PR interval?

Answer 12

<1 large square or <200ms.

Question 13

What is the normal QT interval?

Answer 13

<11 small squares or <440ms.

Question 14

What is the major therapeutic use of adenosine?

Answer 14

An antiarrhythmic drug for the rapid treatment of supraventricular tachycardias. Its supression of atrioventricular conduction makes it very useful in treating paroxysmal supraventricular tachycardia in which the AV node is part of the reentry pathway (as in Wolff-Parkinson-White Syndrome). For these indications, adenosine is administered either as bolus intravenous injection or as an intravenous infusion.

Question 15

What is a clinical trial?

Answer 15

An evaluation of a new therapeutic intervention (drug, device, procedure, surgery) in human volunteers.

Question 16

Put the heart valves in order of most common site of infective endocarditis.

Answer 16

1) Mitral valve-most common site of infection.
2) Aortic
3) Tricupsid (most common site in IVDU)
4) Pulmonary valve-least common site of infection.

Question 17

What is infective endocarditis?

Answer 17

Infection of the endocardium which is the lining of the heart, and this results in damage to the valve cusps.

Question 18

What is Quorum Sensing?

Answer 18

The ability to detect and to respond to cell population density by gene regulation.

Question 19

What are the HACEK organisms?

Answer 19

H-Haemophilus species. A-Aggregatibacter species. C-Cardiobacterium hominis. E-Eikenella corrodens K-Kingella.

Question 20

What organisms cause endocarditis?

Answer 20

Both bacterial and fungal causes. Bacterial causes more common.

Question 21

What are the 3 classifications of endocarditis?

Answer 21

1) Native valve endocarditis
2) Endocarditis in IVDUs
3) Prosthetic valve endocarditis

Question 22

What is the most common cause of native valve endocarditis?

Answer 22

Streptococci, S. Viridans first followed by enterococci.

Question 23

What is the most common cause of endocarditis in IVDUs?

Answer 23

Staphylococcus aureus.

Question 24

What is the most common cause of endocarditis in prosthetic valve endocarditis?

Answer 24

Staphylococcus but more CoNS than S. aureus.

Question 25

What are the risk factors for native valve endocarditis?

Answer 25

Underlying valve abnormalities in 55-75% of patients. Most common two: aortic stenosis and mitral valve prolapse.

Question 26

What is rheumatic heart disease?

Answer 26

Rheumatic heart disease is cardiac inflammation and scarring triggered by an autoimmune reaction to infection with group A streptococci. In the acute stage, this condition consists of pancarditis, involving inflammation of the myocardium, endocardium, and epicardium. Chronic disease is manifested by valvular fibrosis, resulting in stenosis and/or insufficiency.

Question 27

Early manifestations of IE

Answer 27

Fever and murmur=IE until proven otherwise.

Question 28

What are the 2 hallmarks of embolic disease in IE?

Answer 28

Splinter haemorrhages and conjunctival petechiae.

Question 29

How do you diagnose IE?

Answer 29

Blood culture and imaging. Blood culture-most important diagnostic, 3 bloods must be taken, must be done before giving antibiotics. Imaging is echocardiograph either transthoracic (non-invasive) or transopesophageal (invasive).

Question 30

Define myocardial infarction

Answer 30

Any elevation of troponin in a clinical setting consistent with myocardial ischaemia. 5 different types.

Question 31

CABG

Answer 31

A coronary artery bypass graft is a surgical procedure used to treat coronary heart disease. It diverts blood around narrowed or clogged parts of the major arteries to improve blood flow and oxygen supply to the heart.

Question 32

Type 1 MI

Answer 32

Spontaneous MI due to primary coronary event (coronary artery plaque rupture and formation of thrombus).

Question 33

Type 2 MI

Answer 33

Increased oxygen demand or decreased oxygen supply. Heart failure, sepsis, anaemia, arrhythmias, hypertension and hypotension.

Question 34

Type 3 MI

Answer 34

Sudden cardiac death.

Question 35

Type 4a MI

Answer 35

MI associated with percutaneous coronary intervention.

Question 36

Type 4b MI

Answer 36

MI stent thrombosis documented by angiography or PM.

Question 37

Type 5 MI

Answer 37

MI associated with CABG.

Question 38

What are some chronic reasons for elevated troponin (not MI)?

Answer 38

• renal failure
• chronic heart failure
• infiltrative cardiomyopathies eg. amyloidosis, sarcoidosis, haemochromatosis.

Question 39

What is Glagov’s phenomenon?

Answer 39

Where arteries remodel to maintain constant flow despite increases in atherosclerotic mass. Eventually an expansion limit is reached and lumen narrows.

Question 40

On an ECG, what does ST elevation reflect?

Answer 40

Occlusion of a coronary artery.

Question 41

ST elevation in inferior=

Answer 41

Right coronary artery occlusion (mostly) or left circumflex artery.

Question 42

ST elevation in posterior=

Answer 42

Circumflex artery (mostly) or RCA.

Question 43

ST elevation in lateral=

Answer 43

Left circumflex artery.

Question 44

ST elevation in anteroseptal=

Answer 44

Left anterior descending artery

Question 45

LVSD

Answer 45

Left ventricular systolic dysfunction

Question 46

DC cardioversion

Answer 46

Direct Current Cardioversion is a procedure to convert an abnormal heart rhythm to a normal heart rhythm. Atrial Fibrillation (AF) is the most common cardiac arrhythmia (abnormal rhythm).

Question 47

Cardiac tamponade

Answer 47

Also known as pericardial tamponade, is when fluid in the pericardium builds up, resulting in compression of the heart.

Question 48

GRACE

Answer 48

Global Registry of Acute Coronary Events. Gives you a GRACE risk score, considers things like age, HR, SBP, creatinine levels, whether or not there is ST-segment deviation.

Question 49

DAPT

Answer 49

Dual anti-platelet therapy

Question 50

Systemic hypertension

Answer 50

Persistent elevation in arterial blood pressure >140/90mmHG.

Question 51

Non-modifiable hypertension risk factors

Answer 51

• Age
• Gender
• Ethnicity
• Genetic factors

Question 52

Modifiable hypertension risk factors

Answer 52

• Diet
• Physical activity
• Obesity
• Alcohol in excess
• Stress

Question 53

Primary hypertension

Answer 53

90-95% of cases of hypertension. No identifiable cause. Both modifiable and non-modifiable risk factors.

Question 54

Secondary hypertension

Answer 54

5-10% of cases of hypertension. Causes include: endocrine, vascular, renal, drug and other eg. obstructive sleep apnoea.

Question 55

Out of office BP monitoring options

Answer 55

1) 24 hour ambulatory BP monitoring-portable device, BP taken every 20-30 mins, 2 hours over night
2) Home BP monitoring-2 readings, twice a day for 4-7 days

Question 56

DASH diet

Answer 56

Dietary Approaches to Stop Hypertension

Question 57

What is congenital heart disease?

Answer 57

Abnormality of fetal heart development. Encompasses a wide range of malformations, ranging in severity and treatment options.

Question 58

Where is the most common site for co-arctation of the aorta to occur?

Answer 58

After the left subclavian artery in a ‘juxta-ductal’ position.

Question 59

What is ‘rib notching’?

Answer 59

Rib notching refers to deformation of the superior or inferior surface of the rib. It can affect a single rib (from trauma or solitary masses e.g. schwannoma) or can affect multiple ribs.

Question 60

What are the 2 surgical options in transposition of the great arteries?

Answer 60

1) Atrial switch. Not as good, more traditional.

2) Arterial switch. Surgery of choice, less problems. However can sometimes effect coronary arteries- sudden MIs.

Question 61

What are the 4 components of the Tetralogy of Fallot?

Answer 61

1) Ventricular septal defect
2) Overriding aorta
3) Right ventricular outflow tract obstruction
4) RV hypertrophy

Question 62

What treatment is given to babies born with transposition of the great arteries?

Answer 62

IV prostaglandins to maintain patency of foramen ovale and ductus arteriosis until surgery can be done.

Question 63

What is Fontan circulation?

Answer 63

In a Fontan circulation the single functional ventricle is used to support the systemic circulation by disconnecting it from the pulmonary valve and artery. Then the IVC and SVC are redirected and plumbed straight into the pulmonary arteries ultimately bypassing the heart altogether. So now blue blood flows up the IVC directly into the pulmonary arteries without passing through any valves. The blue blood is oxygenated in the lungs and flows back to the left atrium as red blood, through the mitral valve into the single ventricle, through the aortic valve into the aorta and the remainder of the systemic circulation.

Question 64

What is the ductus arteriosis?

Answer 64

A vessel in the fetal circulation that joins the aorta to the pulmonary artery.

Question 65

Tricuspid valve

Answer 65

Between RA and RV

Question 66

Mitral valve

Answer 66

Between LA and LV. 2 leaflets-anterior (A1, A2, A3) and posterior (P1,P2,P3).

Question 67

Aortic valve

Answer 67

Between LV and aorta. 3 cusps- trileaflet. Right, left and non-coronary.

Question 68

Pulmonary vlave

Answer 68

Between RV and pulmonary artery

Question 69

What can go wrong with valve leaflets?

Answer 69

Calcification, thickening, degeneration, infection and prolapse.

Question 70

Stenosis

Answer 70

Pressure overload

Question 71

Regurgitation

Answer 71

Volume overload

Question 72

TAVI

Answer 72

Transcatheter aortic valve implantation. Non-surgical alternative to open heart surgery. Done in a cath lab.

Question 73

What is the definition of heart failure?

Answer 73

Pathophysiologic state in which the heart, via an abnormality of cardiac function (detectable or not) failed to pump blood at a rate commensurate with the requirements of the metabolising tissues or is able to do so only with an elevated diastolic filling pressure.

Question 74

What are the stages of congestive heart failure?

Answer 74

Stage 1- Redistribution in pulmonary vessels. PCWP 13-188mmHG.
Stage 2- Interstitial oedema. PCWP 18-25mmHg.

Question 75

What are Kerley B lines?

Answer 75

Seen in congestive heart failure on CXR. Septal lines- fluid leakage into interlobular septa. Seen at the bases perpendicular to pleural surface and measure 1-2cm. If transient or rapidly developing virtually diagnostic of interstitial pulmonary oedema.

Question 76

What is pleural effusions?

Answer 76

Fluid within potential space between parietal and visceral pleura. Transudates and exudates. Protein levels >30g/l, LDH>200IU consistent with exudate. pH<7.1 also suggests exudate.

Question 77

What are the common causes of exudate pleural effusions?

Answer 77

Pulmonary embolism, bacterial infection, bronchial carcinoma.

Question 78

What are the common causes of transudate pleural effusions?

Answer 78

Left ventricular failure, cirrhosis, nephrotic syndrome.

Question 79

What is a subpulmonic effusion?

Answer 79

Fluid can accumulate in a subpulmonic location, can be difficult to detect as upper edge of fluid mimics contour of diaphrgam. Principal sign is elevation of hemidiaphragm.

Question 80

What is acute heart failure?

Answer 80

AHF often used to mean new onset acute or characterised by signs of pulmonary +/ or peripheral oedema.

Question 81

What are the causes of acute arterial occlusion?

Answer 81

Thrombosis or embolism.

Question 82

Thrombosis causing acute arterial occlusion

Answer 82

Thrombosis may occur at the site of a pre-existing atheromatous plaque in a patient with peripheral vascular disease, following plaque rupture. A history of intermittent claudication makes this likely.

Question 83

Embolism causing acute arterial occlusion

Answer 83

Embolus from another source, such as the left atrium in a patient with AF. Embolism would be the more likely diagnosis in the absence of a previous history of PVD.

Question 84

Atheroma in coronary arteries can lead to

Answer 84

Myocardial ischaemia, angina and infarction.

Question 85

Atheroma in carotid artery disease

Answer 85

Transient ischaemic attacks, stroke.

Question 86

Atheroma in mesenteric arteries

Answer 86

Abdominal angina, infarction.

Question 87

Atheroma in renal arteries can lead to

Answer 87

Hypertension, renal failure (ONLY if bilateral renal artery stenosis).

Question 88

Why don’t we use beta blockers in peripheral vascular disease?

Answer 88

They drop peripheral pressures really low- this exacerbates the symptoms as less oxygen then goes to the peripheries.

Question 89

Metabolic syndrome

Answer 89

‘Prediabetic’ group of obese individuals with abnormal lipid profiles who are at risk of vascular disease.

Question 90

What is intermittent claudication?

Answer 90

Pain in the leg brought on by walking and relieved by rest. Most common in the calf muscles but can affect thigh or buttocks IC is an indicator of widespread vascular disease, and patients with PVD are at risk of cardiac, renal and cerebrovascular events.

Question 91

Critically ischaemic limb

Answer 91

Six P’s:

• Pale
• Painful
• Pulseless
• Paretic
• Perinshingly cold
• Paraesthetic

Question 92

What clinical evidence might suggest muscle necrosis?

Answer 92

Loss of sensation and muscle tenderness.

Question 93

How do you treat PVD?

Answer 93

Treat hypertension, avoid beta blockers, stop smoking, reduce weight, introducing regular, sensible exercise.

Question 94

Heparin MOA

Answer 94

Activates antithrombin III. Antithrombin III inhibits thrombin, which converts fibrinogen to fibrin. Hence it is an anticoagulant. It’s activity can be monitored by use of APTT.

Question 95

What is Eisenmenger’s syndrome?

Answer 95

Process in which a long-standing left-to-right cardiac shunt caused by a congenital heart defect (typically by a ventricular septal defect, atrial septal defect, or less commonly, patent ductus arteriosus) causes pulmonary hypertension. and eventual reversal of the shunt into a cyanotic right-to-left shunt. Because of the advent of fetal screening with echocardiography early in life, the incidence of heart defects progressing to Eisenmenger’s has decreased.

Question 96

How is claudication diagnosed?

Answer 96

Ankle-brachial index is a quick, noninvasive way to check for peripheral artery disease. ABI test compares the blood pressure measured at your ankle with the blood pressure measured at your arm. A low ankle-brachial index number can indicate narrowing or blockage of the arteries in your legs.