Cardiovascular Flashcards

Question 1

Q

What is an abdominal aortic aneurysm?

Answer

A

An unruptured AAA is > 3cm across.

Question 2

Q

What are aneurysms of the arteries?

Answer

A

An artery with a dilatation >50% of it’s original diameter .

True aneurysms are abnormal dilatations that involve all layers of the arterial wall.

Question 3

Q

What are the causes of an abdominal aortic aneurysm?

Answer

A

Atheroma
Trauma
Infection, e.g. mycotic aneurysm in endocarditis, tertiary syphillis
Connective tissue disorders (e.g. Marfan’s, Ehler’s-Danlos)
Inflammatory e.g. Takayasu’s aortitis

Question 4

Q

What are the complications of an abdominal aortic aneurysm?

Answer

A

Rupture
Thrombosis
Embolism
Fistulae
Pressure on other structures

Question 5

Q

What are the symptoms of a ruptured abdominal aortic aneurysm?

Answer

A

Intermittent or continuous abdominal pain (radiates to the back, iliac fossae or groans)
Collapse
Expansile abdominal mass (expands and contracts)
Shock

Question 6

Q

What are the symptoms of an unruptured aortic aneurysm?

Answer

A

Often none

- Might cause abdominal/back pain, often discovered incidentally on abdominal examination

Question 7

Q

What tests help identify the size, and rate of growth of an aneurysm?

Answer

A

Abdominal ultrasound
CT
Echocardiogram
Angiogram

Question 8

Q

What is an aortic dissection?

Answer

A

A condition where a tear in the aortic intima allows blood to surge into the aortic wall, causing a split between the inner and outer tunica media which creates a false lumen

Question 9

Q

What is the aetiology of aortic dissection?

Answer

A

Degenerative changes in the smooth muscle of the aortic media are the predisposing event

Question 10

Q

What are the risk factors of aortic dissection?

Answer

A

Hypertension
Aortic atherosclerosis
Connective tissue disease (e.g. SLE, Marfan’s, Ehlers-Danlos)
Congenital cardiac abnormalities (e.g. aortic coarctation)
Aortisis
Iatrogenic
Trauma
Crack Cocaine

Question 11

Q

How does the Stanford classification categorise aortic dissection?

Answer

A

Type A= ascending aortic tear (most common)

Type B= descending aorta tear distal to the left subclavian artery

Question 12

Q

What is the epidemiology of aortic dissection?

Answer

A

Most common in males between 40 and 60 years

Question 13

Q

What are the presenting symptoms of aortic dissection?

Answer

A

Sudden central ‘tearing’ pain which may radiate to the back (might mimic an MI)
Aortic dissection can lead to occlusion of the aorta and its branches

Question 14

Q

What are the symptoms of aortic dissection when the carotid is obstructed?

Answer

A

Hemiparesis
Dysphasia
Blackout

Question 15

Q

What are the symptoms of aortic dissection when the coronary artery is obstructed?

Answer

A

Chest pain (angina or MI)

Question 16

Q

What are the symptoms of aortic dissection when the subclavian is obstructed?

Answer

A

Ataxia

- Loss of consciousness

Question 17

Q

What are the symptoms of aortic dissection when the anterior spinal artery is obstructed?

Answer

A

Paraplegia

Question 18

Q

What are the symptoms of aortic dissection when the coeliac is obstructed?

Answer

A

Severe abdominal pain (ischaemic bowel)

Question 19

Q

What are the symptoms of aortic dissection when the renal artery is obstructed?

Answer

A

Anuria

- Renal failure

Question 20

Q

What are the signs of aortic dissection of physical examination?

Answer

A

Murmur on the back below left scapula, descending to abdomen
BP: Hypertension (discrepancy between arms of >20mmHg), wide pulse pressure. If hypotensive, may signify tamponade, check for pulsus paradoxus
Aortic insufficiency: Collapsing pulse, early diastolic murmur over aortic area.
Unequal arm pulses
Might be palpable abdominal mass

Question 21

Q

What are the investigations for aortic dissection?

Answer

A

Bloods: FBC, U&E , clotting
CXR: Widened mediastinum, localised bulge in aortic arch
ECG: Often normal, signs of ventricular hypertrophy or inferior MI if dissection compromises the ostia of the right coronary artery
CT-Thorac: False lumen of dissection may be visualsed
Echocardiography: transoesopharangeal is highly specific
Cardiac Catheterization and aortography

Question 22

Q

What is aortic regurgitation?

Answer

A

Reflux of blood from aorta into left ventricle during diastole.
Also called aortic insufficiency

Question 23

Q

What is the aetiology of aortic regurgitation?

Answer

A

Aortic valve leaflet abnormalities or damage

- Aortic root/ascending aorta dilation

Question 24

Q

What causes aortic valve leaflet abnormalities or damage leading to aortic regurgitation?

Answer

A

Bicuspid aortic valve
Infective endocarditis
Rheumatic fever
Trauma

Question 25

Q

What causes aortic root/ascending aorta dilation leading to aortic regurgitation?

Answer

A

Systemic hypertension
Aortic dissection
Aortitis
Arthritides
Marfan’s syndrome
Ehler’s-Danlos syndrome
Osteogenesis imperfecta

Question 26

Q

What is the epidemiology of aortic regurgitation?

Answer

A

Chronic AR often begins in the late 50s, documented frequently over 80 years

Question 27

Q

What are the presenting symptoms of aortic regurgitation?

Answer

A

Chronic AR:
Initially asymptomatic. Later, symptoms of heart failure: exertional dyspnoea, orthopnoea, fatigue. Occasionally angina
Severe acute AR:
Sudden cardiovascular collapse
Symptoms related to the aetiology:
E.g. chest or back pain in patients with aortic dissection

Question 28

Q

What are signs of aortic regurgitation on examination?

Answer

A

Collapsing ‘water-hammer’ pulse and wide pulse pressure. Thrusting and heaving (volume-loaded) displaced apex beat.

Question 29

Q

How is an early diastolic murmur heard in AR?

Answer

A

At lower left sternal edge.
Better head with the patient sitting forward with the breath held in expiration
An ejection systolic murmur is often heard because of increase flow across the valve

Question 30

Q

How is an Austin Flint- mid-diastolic murmur head in AR?

Answer

A

Over the apex, from turbulent reflux hitting the anterior cusp of the mitral valve and causing physiological mitral stenosis

Question 31

Q

What rare signs are associated with a hyperdynamic pulse in AR?

Answer

A

Quincke’s sign: Visible pulsations on nail-bed
de Musset’s sign: Head nodding in time with pulse
Becker’s sign: Visible pulsation of the pupils and retinal arteries
Muller’s sign: Visible pulsations of the uvula
Corrigan’s sign: Visible pulsations in the neck
Traube’s sing: ‘Pistol shot’’ heard on auscultation of the femoral arteries
Duroziez’s sign: a systolic and diastolic bruit heard on partial compression of femoral artery with a stethoscope
Rosenbach’s sign: Systolic pulsations of the liver
Gerhard’s sign: Systolic pulsations of the spleen
Hill’s sign: Popliteal cuff systolic pressure exceeding brachial pressure by more than 60mmg

Question 32

Q

What are the investigations for aortic regurgitation?

Answer

A

CXR: Cardimegaly, dilatation of ascending aorta, signs of pulmonary oedema may be seen with left heart failure
ECG: May show signs of left ventricular hypertrophy (Deep S wave is in V1-2, tall R wave in V5-6, Inverted T waves in I, aVL, V5-6 and left axis deviation)
Echo:
Cardiac catheterization with angigraphy

Question 33

Q

What is aortic stenosis?

Answer

A

Narrowing of the left ventricular outflow at the level of the aortic valve

Question 34

Q

What is the aetiology of aortic stenosis?

Answer

A

1) Stenosis secondary to rheumatic heart disease (commonest worldwide)
2) Calcification of a congenital bicuspid aortic valve
3) Calcification/degeneration of a tricuspid aortic valve in the elderly

Question 35

Q

What is the epidemiology of aortic stenosis?

Answer

A

Prevalence in 3% of 75 year olds. Affects males more then females.
Those with bicuspid aortic valve may present earlier (as young adults)

Question 36

Q

What are the presenting symptoms of aortic stenosis?

Answer

A

May be asymptomatic initially.

Angina (because increased oxygen demand of the hypertrophies ventricles)
Syncope or dizziness on exercise
Symptoms of heart failure (e.g. dyspnoea)

Question 37

Q

What are the signs of aortic stenosis of physical examination?

Answer

A

BP: Narrow pulse pressure
Pulse: Slow-rising
Palpation: Thrill in aortic area (if severe). Forceful sustained thrusting undisplaced apex beat
Auscultation: Harsh ejection systolic murmur at aortic area, radiating to carotid artery and apex. Second heart sound may be softened or absent. Bicuspid valve may produce ejection click.

Question 38

Q

What are the investigations for aortic stenosis?

Answer

A

ECG: signs of left ventricular hypertrophy, LBBB
CXR: Enlargement of ascending aorta, calcification of aortic valve
Echo
Cardiac angiography: allows differentiation from other causes of angina

Question 39

Q

What are arterial ulcers?

Answer

A

Caused by poor perfusion to the lower extremities.
The overlying skin and tissues are deprived oxygen, kill the tissues and causing the area to form an open wound.
The lack of blood supply can result in minor scrapes or cutes, failing to heal and eventually developing into ulcers
Also known as ischaemic ulcers

Question 40

Q

What is aetiology of arterial ulcers?

Answer

A

Restrictions to blood vessels due to peripheral vascular disease
Chronic vascular insufficiency
Vasculitis
Diabetes mellitus
Renal failure
High blood pressure
Arteriosclerosis
Atherosclerosis
Trauma
Limited joint mobility
Increased age

Question 41

Q

What are the risk factors for arterial ulcers?

Answer

A

Diabetes mellitus
Foot deformity and callus formation resulting in focal areas of high pressure
Poor footwear that inadequately protects against high pressure and shear
Obesity
Absence of protective sensation due to peripheral neuropathy
Limited joint mobility

Question 42

Q

What are the signs of arterial ulcers on examination?

Answer

A

Ulcer with punched out appearance
Intensely painful
Gray or yellow fibrotic base and undermining skin margins
Pulses not palpable
Most common on distal ends of limbs

Question 43

Q

What is Curling’s ulcer?

Answer

A

Special type of ischaemic ulcer developing in duodenum after sever burns

Question 44

Q

What symptoms do arterial ulcers present with?

Answer

A

Pain in the extremity at rest and increased pain with elevation of the extremity and activity
Relief of symptoms with the extremity in a dependent position
Characteristic dependent rubor may be seen

Question 45

Q

What is the epidemiology of arterial ulcers?

Answer

A

Difficult to heal by basic would care and require advanced therapy
IF not taken care of in time, high chances that these may become infected and may need amputation
Individuals with history of previous ulcerations are 36 more likely to develop another ulcer

Question 46

Q

What investigations are used to diagnose arterial ulcers?

Answer

A

Arterial doppler
Pulse volume recordings
Radiographs to rule out osteomyelitis

Question 47

Q

What is atrial fibrillation?

Answer

A

Characterised by rapid, chaotic and ineffective atrial electrical conduction. Often subdivided into: ‘permanent’, ‘persistent’ and ‘paroxysmal’

Question 48

Q

What is the aetiology of atrial fibrillation?

Answer

A

May be no identifiable cause in ‘lone’ atrial fibrillation. Secondary causes lead to abnormal atrial electrical pathways that results in AF?

Question 49

Q

What are the systemic causes of atrial fibrillation?

Answer

A

Thyrotoxicosis
Hypertension
Pneumonia
Alcohol

Question 50

Q

What are the risk factors in the heart of atrial fibrillation?

Answer

A

Mitral valve disease
Ischaemic heart disease
Rheumatic heart disease
Cardiomyopathy
Pericarditis
Sick sinus syndrome
Atrial myxoma

Question 51

Q

What are the risk factors in the heart of atrial fibrillation?

Answer

A

Bronchial carcinoma

- Pulmonary embolism

Question 52

Q

What is epidemiology of atrial fibrillation?

Answer

A

Very common in the elderly (approx 5% of those more than 65)
May be paroxysmal

Question 53

Q

What are the presenting symptoms of atrial fibrillation?

Answer

A

Often asymptomatic
Some patients experience palpitations or syncope
Symptoms of the cause of the AF

Question 54

Q

What are the signs of atrial fibrillation on examination?

Answer

A

Irregularly irregular pulse
Difference in apical beat and radial pulse
Look for thyroid disease and valvular heart disease

Question 55

Q

What are investigations for atrial fibrillation?

Answer

A

ECG: Uneven baseline with absent P waves, irregular QRS complexes. If saw-tooth baseline, consider if atrial flutter
Blood: Cardiac enzymes, TFT, lipid profile, U&E, Mg2+, Ca2+
Echo: To assess for mitral valve disease, left atrial dilation, left ventricular dysfunction of structural abnormalities

Question 56

Q

What is the management plan for atrial fibrillation?

Answer

A

Treat any reversible cause.

1) Rhythm control
2) Rate control
3) Stroke risk stratification

Question 57

Q

How is rhythm controlled for atrial fibrillation?

Answer

A

If the AF is over 48h from onset, anticoagulate (at least 3-4 weeks) before attempting cardioversion
DC cardioversion: synchronised DC shock
Chemical cardioversion: Flecainide (contraindicated if there is history of ischaemic heart disease) or amiodarone
Prophylaxis against AF: Sotalol, amioadarone or flecainide. Also consider providing ‘pill in the pocket’ strategy for suitable patients

Question 58

Q

How is rate controlled for atrial fibrillation?

Answer

A

Chronic ‘permanent’ AF: Ventricular rate control with digoxin, verapamil and/or beta-blockers. Aim for rate of 90/min

Question 59

Q

How is stroke risk stratification carried out in atrial fibrillation?

Answer

A

Low-risk patients can be managed with aspirin, and high risk-patients require anticoagulation with warfarin. Risk factors indicating high risk are previous thromboembolic event, age >75 years with hyppertension, diabetes or vascular disease, and/or clinical evidence of valve disease, heart failure or impaired left ventricular function

Question 60

Q

What are the possible complications of atrial fibrillation?

Answer

A

Thromboembolism (e.g. embolic stroke 4% risk per year, increased risk with left atrial enlargement or left ventricular dysfunction)
Worsens any existing heart failure

Question 61

Q

What is the prognosis of atrial fibrillation?

Answer

A

Chronic AF in diseased heart does not usually return to sinus rhythm

Question 62

Q

What is cardiac arrest?

Answer

A

Acute cessation of cardiac function

Question 63

Q

What is the aetiology of cardiac arrest?

Answer

A

4 H’s & 4 T’s
Hypoxia, Hypothermia, Hypovolaemia, Hypo- or hyperkalaemia
Tamponade, Tension pneumothorax, Thromboembolism, Toxins and other metabolic disorders (drugs, therapeutic agents and sepsis)

Question 64

Q

What are the signs of cardiac arrest on examination?

Answer

A

Unconscious
Patient is not breathing
Absent carotid pulses

Answer 65

A

Cardiac monitor: Classification of rhythm directs management
Bloods: ABG, U&E, FBC, cross-match, clotting, toxicology screen, glucose

Answer 66

A

Safety
BLS
ALS
Treatment of reversible causes

Answer 67

A

Hypothermia: warm slowly
Hypo-hyperkalaemia: correction of electrolytes
Hypovolaemia: IV colloids, crystalloids or blood products
Tamponade: Pericardiocentesis under xiphisternum up and leftwards
Tension pneumothorac: Needle into second intercostal space, mid-clavicular line
- Thromboembolism
- Toxins

Answer 68

A

Irreversible hypoxic brain damage

- Death

Answer 69

A

Resuscitation is less successful in the arrests that occur outside hispital
Duration of inadequate effective cardiac output is associate with poor prognosis

Answer 70

A

Inability of the cardiac output to meet the body’s demands despite normal venous pressures

Answer 71

A

Low output 
High output (increased demand)

Answer 72

A

Left heart failure: Ischaemic heart disease, hypertension, cardiomyopathy, aortic valve disease, mitral regurgitation
Right heart failure: Secondary to left heart failure, infarction, cardiomyopathy, pulmonary hypertension/embolus/valve disease, chronic lung disease, tricuspid regurgitation constrictive pericarditis/pericardial tamponade
Biventricular failure: Arrhythmia, cardiomyopathy (dilated or restrictive), myocarditis, drug toxicity

Answer 73

A

Anaemia
Berberi
Pregnancy
Paget’s disease
Hyperthyroidism
Arteriovenous malformation

Answer 74

A

10% of over 65 year olds

Answer 75

A

Tachycardia
Tachypnoea
Displaced apex beat
Bilateral basal crackles
Third heart sound (‘gallop’ rhythm: rapid ventricular filling), pansystolic murmur (functional mitral regurgitation)

Answer 76

A

Raised JVP
Hepatomegaly
Ascites
Ankle/sacral pitting
Oedema
Signs of functional tricuspid regurgitation

Answer 77

A

Symptoms caused by pulmonary congestion

Dyspnoea, Othropnoea, paroxysmal nocturnal dyspnoea, fatigue

Answer 78

A

Swollen ankes
Fatigue
Increased weight (resulting from oedema)
Reduced exercise tolerance
Anorexia
Nausea

Answer 79

A

Blood: FBC, U&Es, LFTs, CRP, glucose, lipids, TFTs
CXR: Cardiomegaly, prominent upper lobe vessels, pleural effusion, interstitial oedema (Kerley B lines), perihilar shadowing (bat’s wings), fluid in fissures
ECG: may be normal, may have ischaemic changes, arrhythmia, lvh
Echo: Assess ventricular contraction
Swan-Ganz catheter:

Answer 80

A

Cardiogenic shock: severe cardiac failure with low BP requires the use of inotropes
Pulmonary oedema: sit up patient, 60-100% 02 and consider CPAP.

Answer 81

A

Treat the cause e.g. hypertension. Treat exacerbating factors e.g. anaemia.
ACE-inhibitors 
B-blockers 
Loop Diuretics 
Aldosterone antagonists
Angiotensin receptor blockers 
Digoxin

Answer 82

A

Respiratory failure
Cardiogenic shock
Death

Answer 83

A

50% of patients with severe heart failure die within 2 years

Answer 84

A

Primary disease of the myocardium

- Cardiomyopathy may be dilated, hypertrophic or restrictive

Answer 85

A

Post-viral myocarditis
Alcohol
Drugs (doxorubicin, cocaine)
Familial
Thyrotoxicosis
Haemochromatosis
Peripartum

Answer 86

A

Up to 50% of cases are genetic with mutations in B-myosin, troponin T or a-tropomyosin (components of the contractile apparatus)

Answer 87

A

Amyloidosis
Sarcoidosis
Haemochromatosis

Answer 88

A

Prevalence of dilated and hypertrophic is 0.05-0.2%.

Restrictive is rare

Answer 89

A

Symptoms of heart failure
Arrhythmias
Thromboembolism
Family of sudden death

Answer 90

A

Usually none
Syncope
Angine
Arrhythmia
Family history of sudden death

Answer 91

A

Dyspnoea
Fatigue
Arrhythmia
Ankle
Abdominal swelling
Enquire about family history of sudden death

Answer 92

A

Raised JVP
Displaced apex beat
Functional mitral and tricuspid regurgitations
Third heart sound

Answer 93

A

Jerky carotid pulse
Double apex beat
Ejection systolic murmur

Answer 94

A

Raised JVP (Kussmaul’s sign: further increase on inspiration)
Palpable apex beat
Third heart sound
Ascites
Ankle oedema
Hepatomegaly

Answer 95

A

CXR: may show cardiomegaly, and signs of heart failure 
ECG
Echo
Cardiac catheterization 
Endomyocardial biopsy 
Pedigree or genetic analysis

Answer 96

A

All types: Non-specific St changed, conduction defects, arrhythmias
Hypertrophic: Left axis-deviation, signs of left ventricular hypertrophy, Q waves in inferior and lateral leads
Restrictive: Low voltage complexes

Answer 97

A

Dilated: Dilated ventricles with global hypokinesia
Hypertrophic: Ventricular hypertrophy
Restrictive: Non-dilated non-hypoertrophied ventricles. Atrial enlargement.

Answer 98

A

Medical condition characterised by a thickened, fibrotic pericardium limiting the heart’s ability to function normally.

Answer 99

A

Tuberculosis
Incomplete drainage of purulent pericarditis
Fungal and parasitic infections
Chronic pericarditis
Postviral pericarditis
Postsurgical
Following MI, post-myocardial infarction

Answer 100

A

Fatigue
Swollen abdomen
Dyspnoea
Swelling of legs
General weakness

Answer 101

A

Raised JVP with inspiration (Kussmaul’s sign)
Pulsus paradoxus
Hepatomegaly
Ascites
Oedema
Pericardial knock (rapid ventricular filling
AF

Answer 102

A

CXR: pericardial calcification, pleural effusions
Echo
ECG

Answer 103

A

Non-surgical procedure used to treat the stenotic coronary arteries of the heart found in coronary heart disease.
A cardiologists feeds a deflated balloon on a catheter from the inguinal femoral artery or radial artery through blood vessels until the sit of blockage in the heart is reached.
Angioplasty involves inflating a balloon to open the artery and allow blood flow

Answer 104

A

Acute ST-elevation myocardial infarction
Non-ST elevation acute coronary syndrome
Unstable angina
Stable angine
Anginal equivalent (e.g. dyspnoea, arrhythmia, dizziness or syncope)
High risk stress test findings

Answer 105

A

Intramural haematoma
Perforation
Distal embolisation
Side branch occlusion
Access site bleeding
Atheroembolism
AKI
Stroke
Infection
Arrhythmia
Peripheral artery disease

Answer 106

A

A surgical procedure aiming to restore normal blood flow to an obstructed coronary artery
The procedure involves the construction of one or more grafts between the arterial and coronary circulations

Answer 107

A

Disease of the left main coronary artery
Disease of all three coronary vessels
Diffuse disease not amenable to treatment with a PCI

Answer 108

A

Postperfusion syndrome
Myocardial infarction
Acute renal failure
Vasoplegic sundrome
Pneumothorax
Haemothorax
Pleural effusion
Pericarditis
Post-operative atrial fibrillation and atrial flutter

Answer 109

A

A medical procedure by which an abnormally fast heart rate (tachycardia) or cardiac arrythmia is converted to a normal rhythm using electricity or drugs

Answer 110

A

Indicated in patients with disabling symptoms. In haemodynamically stable patients with preserved left ventricular function and no evident of hypokalaemia or hypomagnasaemia.
Atrial fibrillation, atrial flutter
Emergency situations to correct an abnormal rhythm when it is accompanied by faintness, low blood pressure, chest pain, difficulty breathing or loss of consciousness

Answer 111

A

Dislodged blood clots: electric cardioversion can cause clots in the heart to move could result in a stroke. May need anticoagulation for several weeks beforehand to reduce risk.
Abnormal heart rhythm
Low blood pressure
Skin burns: from where the electrodes were placed

Answer 112

A

The development of a blood clot in a major deep vein in the leg, thigh, pelvis or abdomen, which may result in impaired venous blood flow and consequent leg swelling and pain. DVT may also occur in the upper extremities or the brain.

Answer 113

A

Medical hospitalisation within the past 2 months
Major surgery within 3 months
Active cancer
Lower-extremity trauma
Increasing age
Pregnancy
Obesity
Factory V Leiden
Protein C or S deficiency
Antithrombin deficiency
Antiphospholipid antibody syndrome
Medical comorbidity
Recent long-distance air travel

Answer 114

A

Incidence increased with age
Comparable in men and women with a slight female dominance in people under the age of 35 years
Incidence 10-15% higher in black people.
Hospital acquired DVT (DVT that occurs during hospitalisation or within 90 days of discharge) is common

Answer 115

A

Pain
Tenderness
Swelling
Warmth
Redness
Discolouration

Answer 116

A

Asymmetric oedema
Collateral superficial veins
Calf swelling
Localised pain along deep venous system
Phlegmasia curulea dolens

Answer 117

A

Anticoagulation
Physical activity
Gradient stockings

Answer 118

A

Serial imaging of the deep veins and/or anticoagulation
Physical activity
Gradient stockings

Answer 119

A

Low molecular weight heparin or subcutaneous unfractionated heparin
Physical activity
Gradient stocks

Answer 120

A

Pulmonary embolism
Acute bleeding during treatment
Heparin induced thrombocytopenia
Heparin resistance
Post-phlebitic syndrome
Delayed bleeding during treatment
Osteoporosis due to heparin treatment

Answer 121

A

Whether a DVT is provoked or idiopathic is a significant determinant of recurrence
Extent and location of the initial clot influence the risk of post-phlebitic syndrome
When a patient dies from DVT, usually it is due to a pulmonary embolus or from a major haemorrhage as a complication of the anticoagulation therapy

Answer 122

A

A complication of necrosis characterised by the decay of body tissues.
2 major categories:
- Infectious gangrene (wet gangrene)
- Ischaemic gangrene (dry gangrene)

Answer 123

A

May result from ischaemia, infection or trauma or a combination of these processed. Ischaemia may result from either arterial or venous comprosis, and may be an acute or chronic process.
Critically insufficient blood supply is the most common cause of gangrene and is often associated with diabetes and long term smoking

Answer 124

A

Diabetes mellitus
Atherosclerosis (ischaemic)
Smoking (ischaemic)
Renal disease
Drug and alcohol abuse
Malignancy
Trauma or abdominal surgery (infectious)
Contaminated wounds (infectious)
Weak factors:
Malnutrition (infectious)
Hypercoagulable states (ischaemic)
Prolonged application of tourniquets (ischaemic)

Answer 125

A

Occurs equally in men and women
Type I necrotising fasciitis occurs most commonly in patients with diabetes and patients with peripheral vascular disease

Answer 126

A

Pain: history of chronic claudication-type pain in patients with ischaemic gangrene. A sudden onset of pain is usually the first symptoms of infectious gangrene
Oedema (ischaemic)
Skin discolouration: ecchymosis, purpura, skin blebs and haemorrhagic bullae

Answer 127

A

Crepitus (gas gangrene): Gentle palpation may demonstrate crepitus

Answer 128

A

Intravenous heparin
Surgical revascularisation and amputation
Percutaneous transluminal angioplasty and amputation
Thrombolytic therapy

Answer 129

A

Intensive supportive care, surgical debridement and amputation
Intravenous antibiotics
Hyperbaric oxygen therapy

Answer 130

A

Surgical debridement and intensive supportive care

- Empiric broad-spectrum antibiotics

Answer 131

A

Impairment of the atrioventricular node impulse conduction, as represented by the interval between P wave and QRS complex

Answer 132

A

Prolonged conduction through the AV node

Answer 133

A

Mobitz type I (Wenckebach): Progressive prolongation of AV node conduction culminating in one atrial impulse failing to be conducted through the AV node.
The cycle then begins again

Answer 134

A

Intermittent or regular failure of conduction through the AV node.
Also defined by the number of normal conductions per failed or abnormal one (e.g. 2:1 or 3:1)

Answer 135

A

No relationship between atrial and ventricular contraction.
Failure of conduction through the AV node leads to a ventricular contraction generated by a focus of depolarisation within the ventricle (ventricular escape)

Answer 136

A

MI or ischaemic heart disease (most common cause)
Infection (e.g. rheumatic fever, infective endocarditis)
Drugs (e.g. digoxin, B-blockers, Ca channel antagonists)
Metabolic (e.g. hyperkalaemia, cholestatic jaundice, hypothermia)
Infiltration of conducting system (e.g. sarcoidosis, cardiac neoplasms, amyloidosis)
Degeneration of the conducting system)

Answer 137

A

Majority of the 250,000 pacemakers implanted are for heart block

Answer 138

A

First degree: Asymptomatic
Wenckebach: Usually asymptomatic
Mobitz type II & third degree: May cause Strokes-Adams attacks (syncope caused by ventricular asystole) Other presentations include dizziness, palpitations, chest pain and heart failure

Answer 139

A

Often normal. Examine for signs of the cause

Complete heart block: Slow large volume pulse: JVP may show ‘cannon waves’
Movitz type II and third degree: Signs of reduced cardiac output (e.g. hypotension, heart failure)

Answer 140

A

ECG (Consider ambulatory Holter or 24h)
Look for other signs of causes.e.g. ischaemia:
CXR: cardiac enlargement, pulmonary oedema
Blood: TFT, digoxin level, cardiac enzymes, troponin
Echocardiogram: Wall motion abnormalities, aortic valve disease, vegetations

Answer 141

A

Prolonged PR interval (>0.2s)

Answer 142

A

Progressively prolonged PR interval, culminating in a P wave that is not followed by a QRS. The pattern then begins again

Answer 143

A

Intermittently a P wave is not followed by a QRS. There may be a regular pattern of P waves, not followed by a QRS (e.g. two P waves per QRS, indicating 2:1 heart block)

Answer 144

A

No relationship between P waves and QRS complexes. If QRS initiated by focus in the bundle of His, the QRS is narrow. QRS initiated more distally are wide and slow rate (30 beats/min)

Answer 145

A

Permanent pace maker (PPM) insertion is recommended in patients with third degree heart block, advanced Mobitz type II and symptomatic Mobitz type I

Answer 146

A

If associated with clinical deterioration, IV atropine and consider temporary (external) pacemaker

Answer 147

A

Asystole
Cardiac arrest
Heart failure
Complications of any pacemaker inserted

Answer 148

A

Mobitz type II and third-degree block usually indicate serious underlying cardiac disease

Answer 149

A

Defined as systolic BP over 140mmHg and/or diastolic BP over 85mmHg, measured on three separate occasions
Malignant hypertension is defined as BP over 200/130 mmHg

Answer 150

A

Essential or idiopathic hypertension (Commonest, over 90% of cases)

Answer 151

A

Renal: Renal artery stenosis, chronic glomerulonephritis, chronic pyelonephritis, polycystic kidney disease, chronic renal failure
Endocrine: Diabetes mellitus, hyperthyroidism, Cushing’s syndrome, Conn’s syndrome, hyperparathyroidism, phaeochromocytoma, congenital adrenal hyperplasia, acromegaly
Cardiovascular: Aortic coarctation, increased intravascular volume
Drugs: Sympathomimetics, corticosteroids, oral contraceptive pill
Pregnancy: Pre-eclampsia

Answer 152

A

Very common

10-20% of adults in the Western World

Answer 153

A

Often asymptomatic
Symptoms of complications
Symptoms of cause
Accelerated or malignant hypertension: Scotomas (visual field loss), blurred vision, headache, seizures, nausea, vomiting, acute heart failure

Answer 154

A

Measure on two or three different occasions before diagnosing hypertension and record lowest reading

May be loud second heart sound, fourth heart sound
Examine for causes e.g. radiofemoral delay (aortic coarctation, renal artery bruit (renal artery stenosis). Examine for end-organ damage e.g. fundoscopy for retinopathy

Answer 155

A

1) Siver wiring
2) As above, plus arteriovenous nipping
3) As above, plus flame haemorrhages and cotton wool exudates
4) As above, plus papilloedema

Answer 156

A

Fibrotic intimal thickening of arteries, reduplication of elastic lamina and smooth muscle hypertrophy. Arteriolar wall layers replaced by pick hyaline material with luminal narrowing (hyaline arteriosclerosis)

Answer 157

A

Blood: U&E, glucose, lipids
Urine dipstick: Blood and protein
ECG: May show signs of left ventricular hypertrophy or ischaemia
Ambulatory BP monitoring (BP measured throughout the day): Excludes ‘white coat’ hypertension, allows monitoring of treatment response, assesses preservation of nocturnal dip
Others: Especially in patients <35 years or other suspected secondary cases (see relevant topics)

Answer 158

A

Assessment and modification of other cardiovascular risk factors
Conservative: Stop smoking, lose weight, reduced alcohol, reduce dietary Na+
Investigate for secondary causes: Worthwhile in young patients, malignant hypertension or poor response to treatment
Medical

Answer 159

A

Thiazide diuretics: e.g. bendrofluamethiazide). Recommended in first line, especially in over 55 yr olds or black patients
ACE inhibitors (e.g. ramipril) or angiotensin-II-antagonist (e.g. losartan): First line in under 55yr olds, diabetic pts, heart failure or left ventricular dysfunction
Ca++ channel antagonists (e.g. amlodipine): Recommended first line, especially over 60 yr olds or black patients
B-blockers (e.g. atenolol): Not preferred initial therapy, but may be considered in younger patients. Avoid combining with thiazide diuretic to reduce patient risk of developing diabetes. May increase risk of heart failure
a-blockers (e.g. doxazosin): Fourth-line agent. May be useful for patients with prostatism

Answer 160

A

Treatment recommended for systolic BP over160 mmHg and/or diastolic BP over100 mmHg, or if evidence of end-organ damage. Other hypertension patients may still require treatment depending on other cardiac risk factors. Multiple drug therapies often necessary

Answer 161

A

Less than 140/85 mmHg (non-diabetic
Less than 130/80 mmHg (diabetes without proteinuria)
Less than 125/75 mmHg (diabetes with proteinuria)

Answer 162

A

Diastolic more than 140 mmHg

Atenolol or nifedipine

Answer 163

A

IV B-blocker
Labetolol or hydralazine sodium nitropruside
Avoid very rapid lowering which can cause cerebral infarction

Answer 164

A

Heart failure
Coronary artery disease and MI
CVA
Peripheral vascular disease
Emboli
Retinopathy
Renal failure
Hypertensive encephalopathy
Posterior reversible encephalopathy syndrome (PRES)
Malignant hypertension

Answer 165

A

Good if BP controlled
Uncontrolled hypertension linked with increased mortality (6x stroke risk and 3x cardiac death risk)
Treatment reduces incidence of renal damage, stroke and heart failure

Answer 166

A

Small device placed in the abdomen.
Constantly monitor a patient’s heart rhythm and automatically administer shocks for life-threatening arrhythmias, according to the device’s programming
It is able to perform cardioversion and defibrillation

Answer 167

A

Used to prevent cardiac death indicated under various conditions
Primary prevention for patient’s who have not suffered a life threatening arrhythmia episode
Secondary prevention for survivors of cardiac arrest secondary to ventricular fibrillation or hemodynamically unstable sustained ventricular tachycardia after reversible causes are excluded.

Answer 168

A

Unnecessary electrical pulses: pulses sent too often or at the wrong time can damage the heart or trigger an irregular or dangerous heart beat
Risks related to surgery:
Swelling, bruising or infection around the site the ICD was placed
Bleeding from the site
Blood vessel, heart or nerve damage
Collapsed lung
Increased risk of heart failure

Answer 169

A

Infection of the intracardiac endocardial structures (mainly heart valves)

Answer 170

A

The endocardium can be colonised by virtually any organism, but the most common are:

1) Streptococci (40%) Mainly a-haemolytic Streptococcus viridans or Streptococcus bovis
2) Staphylococcus (35%) Staphylococcus aureus and occasionally Staphylococcus epidermidis (in IV drug users)
3) Enterococci (20%) Usually Enterococcus faecalis
4) Other organisms: HACEK (Haemophilus, Actinobacillus, Cardiobacterium, Eikenella, Kingella) Coxiella burnetii, histoplasma

Answer 171

A

Vegetations form as a results of lodging of the organisms on the heart valves during a period of bacteraemia. These vegetations are made platelets, fibrin and infective organisms and are poorly penetrated by the cellular or humoral immune system. Vegetations proceed to destroy the valve leaflets, invade the myocardium or aortic wall leading to abscess cavities. Activation of the immune system also causes formation of immune complexes leading to cutatneous vasculitis, glomerulonephritis or arthritis

Answer 172

A

Abnormal valves (e.g. congenital, post-rheumatic, calcification/degeneration)
Prosthetic heart valves
Turbulent flow (e.g. patent ductus arteriosus or VSD)
Recent dental work
Bacteraemia
S bovis may be associated with GI malignancy

Answer 173

A

Incidence 16-22 million per year (United Kingdom)

Answer 174

A

Fever with sweats/chills/rigors (may be relapsing and remitting)
Malaise, arthralgia, myalgia, confusion (particularly in elderly)
Skin lesions
Inquire about recent dental surgery or IV drug abuse

Answer 175

A

Pyrexia, tachycardia or signs of anaemia
Clubbing (if long-standing)
New regurgitant or muffled heart sounds (right-sided lesions may imply IV drug use)
Vasculitic lesiosn

Answer 176

A

Mitral > aortic > tricuspid > pulmonary

Splenomegaly

Answer 177

A

Petechiae particularly or retinae (Roth’s spots)
Pharyneal and conjunctival mucosa
Janeway lesions (painless palmar muscles, which blanch on pressure)
Osler’s nodes (tender nodules on finger/toe pads)
Splinter haemorrhages (nail-bed haemorrhages)

Answer 178

A

Blood: FBC (increased neutrophils, normocytic anaemia, Increased ESR and CRP, U&E’s, rheumatoid factor positive
Urinalysis: Microscopic haematuria, proteinuria
Blood culture: At least three sets 1h apart (aseptic technique). Culture and sensitivity is vital, but empirical treatment should be started first. Cultures remain negative in 2-5%
Echo: Transthoracic. Transoesophageal echo is more sensitive for detection of endocarditis, especially useful for the detection of vegetations and valve abscess, diagnosis or prosthetic valve endocarditis and assessment of embolic risk
Other: ECG (abscesses can cause conduction changes), CXR (septic pulmonary emboli: focal lung infiltrates and central cavitation, particularly in tricuspid valve endocarditis

Answer 179

A

Antibiotics for 4-6 weeks (at least 6 weeks for prothetic valve endocarditis)
On clinical suspicion: Benzylpenicillin & gentamicin
Streptococci: Continue as above
Staphylococci: Flucoxacillin/vancomycin & gentamycin (for prosthetic valves: vancomycin & gentamicin & rifampin)
Enterococci: Ampicillin & Gentamicin
HACEK: Ampicillin & Gentamicin
Culture negative: Vancomycin & Gentamycin

Answer 180

A

Valve incompetence
Intracardiac fistulae or absecces
Aneurysm formation
Heart failure
Renal failure
Glomeulonephritis
Artieal emboli from the vegetations (brain, kidneys, lungs, spleen)

Answer 181

A

Fatal if untreated
Even when treated
15-30% mortality

Answer 182

A

Characterised by decreased blood supply (ischaemia) to the heart muscle resulting in chest pain (angina pectoris). May present as ‘stable angina’ or ‘acute coronary syndrome’ ACS
ABS can further be subdivided into unstable angina (no cardiac injury), non-ST elevation myocardial infarction (NSTEMI) or ST-elevation MI (STEMI, transmural infarction)
MI refers to cardiac muscle necrosis resulting from ischaemia

Answer 183

A

Angina pectoris occurs when myocardial oxygen demand exceeds oxygen supply. The most common cause if athersclerosis. Other causes of coronary artery narrowing such as spasm (e.g. from cocaine) arteritis and emboli are rare
MI is caused by sudden occlusion of coronary artery due to rupture of an atheromatous plaque and thrombus formation

Answer 184

A

Male
Diabetes mellitus
Family history
Hypertension
Hyperlipidaemia
Smoking
Previous history

Answer 185

A

Common, prevalence is more than 2%
More common in males
Annual incidence of MI in the United Kingdom is approx 5 in 1000

Answer 186

A

Chest pain or discomfort of acute onset
Central heavy tight ‘gripping’ pain that radiates to arms (usually left), neck, jaw, or epigastrum
Occurring at rest, increased severity and frequency of previously stable angina
May be associated with breathlessness, sweating, nausea, and vomiting

Answer 187

A

Look for signs of risk factors

Answer 188

A

May have no clinical signs. Pale, sweating, restless, low-grade pyrexia. Check both radial pulses for aortic dissection
Arrhythmias, disturbances of BP. New heart murmurs (e.g. pansystolic murmur of mitral regurgitation from papillary muscle rupture or ventricular septal defect)
Signs of complications i.e. acute heart failure, cardiogenic shock (hypotension, cold peripheries, oliguria)

Answer 189

A

Blood: FBC, U&Es, CRP, glucose, lipid profile, cardiac enzymes, CK-MB and troponin-T (sensitive marker of cardiac injury) amylase (pancreatitis may mimic MI), TFTs. AST and LDH increase after 24h and 48h.
ECG: Unstable angina or NSTEMI: May show ST depression, T wave inversion (Q waves in these patients may indicate old MIs)
ST-elevation MI: Hyperacute T waves, ST elevation, new onset LBBB
- CXR
- Exercise ECG testing
- Radionuclide myocardial perfusion imaging
- Echocardiogram
- Pharmacological stress testing
- Cardiac catheterisation/angiography
- Coronary calcium scoring

Answer 190

A

Minimise cardiac risk factors
- Control BP, hyperlipidaemia and diabetes
- Provide advice smoking, exercise weight loss and low-fat diet
- All patients should receive aspirin (75mg/day) unless contraindicated
Immediate symptom relief: GTN as a spray or sublingually
Long term treatment: B-blockers
Percutaneous coronary intervention
CABB

Answer 191

A

Admit to coronary care unit
Aspirin
Clopidogrel
Low molecular weight heparin
B-blocker
Glucose-insulin infusion if blood glucose over 11mmol/L

Answer 192

A

Admit to CCU, oxygen, IV access, monitor vital signs and serial ECG
Aspirin
Clopidogrel
B-blocker

Answer 193

A

At risk of MI and other vascular disease (e.g. stroke, peripheral vascular disease). Cardiac injury can lead secondarily to heart failure and arrhythmias

Early complications of MI (24h-72h): Death, cardiogenic shock, heart failure, ventricular arrhythmias, heart block, pericarditis, myocardial rupture, thromboembolism
Late complications: Ventricular wall (or septum) rupture, valvular regurgitation, ventricular aneurysms, tamponade, Dressler’s syndrome (pericarditis), thromboembolism

Answer 194

A

TIMI score (range 0-7) can be used for risk stratification (high scores are associated with high risk of cardiac events within 30 days), Consists of:

Over 65 years
Known coronary artery disease
Aspirin in last 7 days
Severe angina (more than 2 episodes in 24h)
ST deviation more than 1mm
Elevated troponin levels
More than 3 coronary artery disease risk factors (hypertension, hyperlipidaemia, family history, diabetes, smoking

Answer 195

A

Class I: no evidence of heart failure
Class II: mild to moderate heart failure
Class III: overt pulmonary oedema
Class IV: cardiogenic shock

Answer 196

A

Retrograde flow of blood from LV to left atrium during systole

Answer 197

A

Mitral valve damage of dysfunction

Rheumatic heart disease (most common)
Infective endocarditis
Mitral valve prolapse (prolapse of mitral valve leaflets into the left atrium during systole)
Papillary muscle rupture or dysfunction (secondary to ischaemic heart disease or cardiomyopathy)
Chordal rupture and floppy mitral valve associated with connective tissue diseases ( Ehlers Danlos, Marfan syndromes, SLE)

Answer 198

A

Affects approx 5% of adults.

Mitral valve prolapse is more common in young females

Answer 199

A

May present with symptoms of left ventricular failure

Answer 200

A

May be asymptomatic or present with exertional dyspnoea, palpitations if in AF and fatigue

Answer 201

A

Asymptomatic or atypical chest pain or palpitations

Answer 202

A

Pulse may be normal or irregularly irregular (AF)
Apex beat may be laterally displaced and thrusting (left ventricular dilation)
Pansystolic murmur loudest at apex, radiating to axilla (palpable as a thrill) S1 is soft, S3 may be heart (rapid ventricular failure in acute mitral regurgitation)
Signs of left ventricular failure in acute mitral regurgitation

Answer 203

A

Mid-systolic click and late-systolic murmur. The click moves towards the first heart sound on standing and moves away on lying down

Answer 204

A

ECG: Normal or may show AF or broad bifid p wave (p mitrale) indicating delayed activation of left atrium due to left atrium enlargement
CXR: Acute mitral regurgitation may produce signs of left ventricular failure. Chronic mitral regurgitation shows left atrial enlargement, cardiomegaly (caused by LV dilation) or mitral valve calcification in rheumatic cases
Echo: Every 6-12 months for moderate-severe MR to assess the LV ejection fraction and end-systolic dimension

Answer 205

A

Mitral valve narrowing causing obstruction to blood flow from the left atrium to the ventricle

Answer 206

A

Most common cause is rheumatic heart disease (90%)
Rarer causes are congenital mitral stenosis, SLE, rheumatoid arthritis, endocarditis and atrial myxoma (rare cardiac tumour)

Answer 207

A

Incidence is declining in industrialised countries because of declining incidence of rheumatic fever

Answer 208

A

May be asymptomatic
Presents with fatigue, shortness of breath on exertion or lying down (orthopnoea)
Palpitations (related to AF)
Rare symptoms
Cough, haemoptysis, hoarseness caused by compression of the left laryngeal nerve by an enlarged left atrium

Answer 209

A

May have peripheral or facial cyanosis (malar flush)
- Pulse: May be ‘thready’ or irregular irregular (AF)
- Palpation: Apex beat is undisplaced and tapping. Parasternal heave (right ventricular hypertrophy and pulmonary hypertension)
- Auscultation: Loud first heart sound with opening snap.
Mid diastolic murmur
Evidence of pulmonary oedema on lung auscultation (if decompensated)

Answer 210

A

ECG: May be normal, broad bifid p wave caused by LA hypertrophy, AF or evidence of right ventricular hypertrophy in cases of severe pulmonary hypertension
CXR: Left atrial enlargement, cardiac enlargement, pulmonary congestion, mitral valve may be calcified in rheumatic cases
Echo
Cardiac catheterisation

Answer 211

A

Acute inflammation and necrosis of cardiac muscle (myocardium)
Usually idiopathic but can be caused by cocaine abuse, heavy metals and radiation

Answer 212

A

Viruses e.g. Coxackie B, echovirus, EBV, CMV, adenovirus, influenza
Bacterial e.g. post-streptococcal, tuberculosis, diphtheria, Lyme disease
Fungal: e.g. candidiasis
Protozoal: e.g. trypanosomiasis (Chagas disease)
Helminths: e.g. trichinosis

Answer 213

A

Systemic disorders (e.g. SLE, sarcoidosis, polymyositis)

- Hypersensitivity myocarditis (e.g. sulphonamides)

Answer 214

A

Chemotherapy agents

e.g. doxorubicin, streptomycin

Answer 215

A

True incidence is unknown, as many cases are not detected at the time of acute illness. Coxsackie B virus is a common cause in Europe and the USA. Chagas disease is a common cause in South America

Answer 216

A

Prodromal ‘flu like’ illness, fever, malaise, fatigue, lethargy
Breathlessness (pericardial effusion, myocardial dysfunction)
Palpitations
Sharp chest pain (suggesting associated pericarditis)

Answer 217

A

Signs of concurrent pericarditis or complications: heart failure, arrhythmia

Answer 218

A

Blood: FBC, U&E, Raised ESR or CRP, cardiac enzymes may be raised,
ECG: Non-specific T wave ad ST changes, widespread saddle shaped ST elevation in pericarditis
CXR: May be normal or show cardiomegaly with or without pulmonary oedema
Pericardial fluid drainages: Measure glucose, protein, cytology, culture and sensitivity
Echo
Myocardial biopsy

Answer 219

A

Life-threatening soft-tissue infection which may extend to deep fascia but not into deep underlying muscle
Type I: polymicrobial infection with an anaerobe such as Bacteroides or Peptostreptococcus
Type II: most commonly a monomicrobial infection with Streptococcus pyogenes (group A streptococci)

Answer 220

A

Fever
Palpitations, tachycardia, tachypnoea, hypotension, and lightheadedness
Nausea and vomiting
Delirium

Answer 221

A

Anaesthesia or severe pain over site of cellulitis
Crepitus
Vesicles or bullae
Grey discouloration of skin
Oedema or induration

Answer 222

A

Type I is more common than Type II
Type II complicates about 5% of invasive group A streptococcal infections at an estimated rate of 2 cases per million population per year

Answer 223

A

FBC: abnormally high or low WBC count with or without a left shift (elevated percentage of polymorphonuclear leukocytes and/or bands)
Serum electrolytes:
sodium may be decreased
Serum urea and creatinine: elevated
Gram stain: variables
ABG: hypoxaemia, acidosis
CT/MRI:
oedema extending along fascial plane

Answer 224

A

Inflammation of the pericardium, may be acute, subacute or chronic

Answer 225

A

Idiopathic
Infective (commonly, coxsackie B, echovirus, mumps virus, streptococci, fungi, staphylococci, TB)
Connective tissue disease (e.g. sarcoid, SLE, scleroderma)
Post-myocardial infarction (24h-72h) in up to 20% of patients
Dressler’s syndrome (weeks to months after acute MI)
Malignancy (lung, breast, lymphoma, leukaemia, melanoma)
Metabolic (myxoedema, uraemia)
Radiotherapy
Thoracic surgery
Drugs e.g. hydralazine, isoniazid

Answer 226

A

Uncommon
The clinical incidence is less than 1 in 100 hospital admissions.
More common in males

Answer 227

A

Chest pain: Sharp and central, may radiate to neck or shoulders. Aggravated by coughing, deep inspiration and lying flat. Relieved by sitting forward
Dyspnoea, nausea

Answer 228

A

Fever, pericardial friction rub (best heard lower left sternal edge, with patient leaning forward in expiration, heart sounds may be faint in the presence of an effusion
Cardiac tamponade: Increased JVP, Decreased BP and muffled heart sounds (Beck’s triad). Tachycardia, pulsus paradoxus
Constructive pericarditis (chronic): Increased JVP with inspiration (Kussmaul’s sign), pulsus paradoxus, hepatomegaly, ascities, oedema, pericardial knock, AF

Answer 229

A

ECG: Widespread ST elevation that is saddle-shaped
Echo: For assessment of pericardial effusion and cardiac function
Blood: FBC, U&E, CRP, cardiac enzymes (usually normal)
CXR: Usually normal (globular heart shadow if more than 250mL effusion). Pericardial calcification can be seen in constrictive pericarditis

Answer 230

A

Acute: Cardiac tamponade treated by emergency pericardiocentesis
Medical: Treat the underlying cause, NSAIDs for relief of pain and fever
Recurrent: Low dose steroids, immunosuppressants or colchicine
Surgical: Surgical exicision of the pericardium (pericardiectomy) in constrictive pericarditis

Answer 231

A

Pericardial effusion
Cardiac tamponade
Cardiac arrhythmias

Answer 232

A

Depends on the underlying cause
Good prognosis in viral cases (recover within approx 2 weeks)
Poor in malignant pericarditis
Pericarditis may be recurrent (particularly in those caused by thoracic surgery)

Answer 233

A

Includes a range of arterial syndromes that are caused by atherosclerotic obstruction of the lower-extremity arteries.

Answer 234

A

Most commonly caused by atherosclerosis
Rarer causes of claudication are aortic coarctation, arterial fibrodysplasia, arterial tumour, arterial dissection, arterial embolism, thrombosis, vasospasm and trauma

Answer 235

A

Prevalence increases with age, beginning after 40

- In the UK, one-fifth of people aged 65 to 75 years have evidence of PVD on clinical examination.

Answer 236

A

Smoking
Diabetes
Hyperlipidaemia
Being over 40
History of coronary artery disease
Low levels of exercise

Answer 237

A

Asymptomatic
Thigh or buttock pain with walking that is relieved with rest
Sudden onset of severe leg pain accompanied by numbness, weakness, pale, and cold leg
Uncommon
Erectile dysfunction
Pain worse in one leg
Non healing wound/ulcer

Answer 238

A

Intermittent claudication
Diminished pulse
No pulse in lower extremity

Answer 239

A

Ankle brachial index: Less than 0.9
Toe brachial index: Less than 0.6
Segmental pressure examination: Gradient of >20 mmHg between adjacent segments
Angiography: Stenosis
CT angiography: presence of significant stenosis

Answer 240

A

A consistently increased pulmonary arterial pressure (more than 20mmHg) under resting conditions

Answer 241

A

Primary: Idiopathic
Secondary: Left heart disease (mitral valve disease, left ventricular failure, left atrial myxoma/thrombosis), chronic lung disease (COPD), recurrent pulmonary emboli, Increased pulmonary blood flow, connective tissue disease, Drugs e.g. amiodarone

Answer 242

A

Primary pulmonary hypertension is usually seen in young females

Answer 243

A

Dyspnoea (on exertion, chest pain, syncope, tiredness

- Symptoms of the underlying cause (e.g. chronic cough)

Answer 244

A

Increased JVP (Prominent a wave in the JVP waveform

Palpation: Left parasternal heave (right ventricular hypertrophy)
Auscultation: Loud pulmonary component of S2, an early diastolic murmur (Graham-Steele murmur) caused by pulmonary regurgitation may be present, if tricuspid regurgitation develops
Signs of the underlying condition, or right heart failure in severe cases

Answer 245

A

CXR: Cardiomegaly (RV enlargement, RA dilation), prominent main pulmonary arteries, signs of cause (COPD, calcified mitral valves)
ECG: RV hypertrophy (RA deviation, prominent R wave in V1, T wave inversion in V1), RA enlargements
Echo: To visualise RV hypertrophy or dilation and possible underlying cause
LFT: To assess for chronic lung disease
VQ scan: Assess for pulmonary embolism
Cardiac catheterisation: To asses severity, right heart pressures and response to vasodilators
High resolution CT-thorax: Images pulmonary arteries and to diagnose lung disease
Lung biopsy: Assesses structural changes

Answer 246

A

The backflow of blood from the right ventricle to the right atrium during systole

Answer 247

A

Congenital: Ebstein anomaly (malpositioned tricuspid valve), Cleft valve in ostium primum defect
Functional: Consequence of RV dilation (e.g. in pulmonary hypertension), valve prolapse
Rheumatic heart disease: Associated with other valvular disease
Infective endocarditis: Common in IV drug users, usually staphylococcal
Other: Carcinoid syndrome, trauma, cirrhosis (long-standing), iatrogenic (e.g. radiotherapy to the thorax)

Answer 248

A

Differs with various causes.

Infective endocarditis is probably the most common cause

Answer 249

A

Fatigue
Breathlessness
Palpitations
Headaches
Nausea
Anorexia
Epigastric pain made worse by exercise
Jaundice
Lower limb swelling

Answer 250

A

Pulse: May be irregular due to AF
Inspection: Raised JVP with giant v waves which may oscillate the earlobe. Caused by transmission of right ventricular pressure to the great veins. May be giant a wave, if patient is in sinus rhythm
Palpation: Parasternal heave
Auscultation: Pansystolic murmur heard best at lower left sternal edge, louder on inspiration (Carvallo sign). Loud P2 component of second heart sound
Chest: Pleural effusion. Causes of pulmonary hypertension (e.g. emphysema)
Abdomen: Palpable liver (tender, smooth, pulsatile), ascites
Legs: Pitting oedema

Answer 251

A

Blood: FBC, LFT, cardiac enzymes, blood cultures
ECG: Tall P wave (right atrial hypertrophy if in sinus rhythm. Changes indicative of other cardiac rhythm
CXR: Right-sided enlargement of cardiac shadow
Echo: Extent of regurgitation estimated by colour flow Doppler. May be able to detect tricuspid valve abnormality (e.g. prolapse), right ventricular dilation
Right heart catheterisation: Rarely necessary but may be considered to assess pulmonary artery pressure

Answer 252

A

A medical device which uses electrical impulses, delivered by electrodes contracting the heart muscles, to regulate the beating of the heart.
Primary purpose is to maintain an adequate heart rate, either because the heart’s natural pacemaker is not fast enough or there is a block in the heart’s conduction system

Answer 253

A

Symptomatic sick sinus syndrome, including, tachycardia, bradycardia syndrome, atrial fibrillation with sinus node dysfunction, and chronotropic incompetence (inability to increase the heart rate to match a level of exercise)
Symptomatic sinus bradycary
Symptomatic complete AV block (3rd degree heart block)
Bradycardia exacerbating prolonged QT syndrome

Answer 254

A

Pneumothorax
Pericarditis
Infection
Skin erosion
Haematoma
Lead dislodgement
Venous thrombosis

Answer 255

A

Rate over 300 bpm
QRS complex duration less than 120 ms
Can include atrioventricular nodal re-entry tachycardia and Wolff-Parkinson White syndrome

Answer 256

A

Nicotine
Alcohol
Caffeine
Common in young people

Answer 257

A

Episodic
Abrupt onset and termination
Chest discomfort
Dyspnoea
Dizziness
Anxiety
Regular rapid pounding in neck differentiates from WPW

Answer 258

A

Palpitations
AF/Flutter
Sudden cardiac death
Syncope
Presyncope
Tachy in pregnancy

Answer 259

A

Normal except tachycardia

Answer 260

A

Tacycardia
Secondary cardiomyopathy (S3 gallop, RV heave, Displaced point of maximal impulse laterally, HF: elevated JVP, crackles, lower extremity oedema)

Answer 261

A

12 lead ECG: Narrow complex tachycardia, no p waves, retrograde P wave may be seen in inferior leads
TOE: rule out structural heart disease
Echo: Sustained flutter, SVT, AF, wide complex tachycardia, structural heart disease
Exercise testing: Relate to exercise, rule out CAD

Answer 262

A

If rhythm is regular:

1) Vagal manoeuvres- carotid sinus massage, Valsalva manoeuvre e.g. blowing on to a syringe- increase AV block and unmask rhythm. Massage done in younger people and Valsalva in older people and atherosclerosis as risk of dislodging plaque
2) If unsuccessful- Adenosine 6mg bolus injection, can increase to 12mg, can give verapamil if unsuccessful/asthma. Alt- atenolol/amiodarone
3) Unresponsive to chemical cardioversion or if adverse signs (low BP, HF, low consciousness). Sedate and synchronised DC cardiovert. Give amiodarone
4) If no adverse signs: (B blockers, Digoxin, Amiodarone, Overdrive pacing)

Answer 263

A

Rarely life threatening

Answer 264

A

Ischaemia and MI in someone with significant CAD
Heart failure with diseases of heart valves or cardiomyopathy
If persists for long time, normal heart weakens and develops heart failure

Answer 265

A

Subcutaneous, permanently dilated veins more than 3mm or more in diameter when measured in a standing position

Answer 266

A

Predisposing factors:
- Gender, pregnancy, occupation, weight, race
Causative factors:
- Previous DVT 
- Genetic factors

Answer 267

A

Valve incompetence is the most common aetiology
Veins are working against gravity, valves function to compartmentalise the blood, leading to better equalisation of pressures throughout the veins and preventing reflux.
Blood pools when valves do not function properly, leading to increased pressure and distension of the veins

Answer 268

A

Prevalence rates higher in industrialised countries and more developed regions
In Western populations, prevalence is 10-15% in men and 20-25% in women over 15.
Prevalence increases with age

Answer 269

A

Increasing age
Family history
Female gender
Increasing numbers of births
DVT
Weak
Occupation with prolonged standing
Obesity

Answer 270

A

Leg fatigue or aching with prolonged standing
Leg cramps
Restless legs
Itching
Ankle swelling
Ulceration

Answer 271

A

Dilates tortuous veins
Haemosiderin deposition
Corona phlebectatica

Answer 272

A

Duplex ultrasound

Assessed for reversed flow
Valve closure time over 0.5 seconds is indicative of reflux
Valve closure time over 1 second is indicative of reflux in deep system

Answer 273

A

If symptomatic superficial vein insufficiency, no evidence of peripheral vascular disease: Graduated compression stockings + phlebectomy + sclerotherapy+ ablative procedures
If deep vein insufficiency without superficial system insufficiency: phlebectomy and compression stockings

Answer 274

A

Chronic venous insufficiency
Haemorrhage
Venous ulceration
Lipodermatosclerosis
Haemosiderin deposition

Answer 275

A

Although there are small variations in overall efficacy depending on the type of intervention, generally resolution of symptoms occurs in >95% of patients. Patients need to be counselled, however, that new varicosities may occur with time.

Answer 276

A

Malaise mediated by vagus nerve.
Most common type of fainting
Is a type of neurally mediated reflex syncope (NMRS)

Answer 277

A

May be triggered by prolonged periods of upright posture
Relative dehydration
Excessively warm, closed-in environments
Extreme emotions
Common places for these events are churches, restaurants and long queues

Answer 278

A

Nausea
Lightheadedness
Pallor
Diaphoresis
Physical injury
Fatigue after episode
Palpitations

Answer 279

A

Bradycardia
Absence of family history of sudden death
Neuralgia (uncommon)

Answer 280

A

1% of A&E visits in Europe

- Tends to peak in young adults and then again in older people

Answer 281

A

12-Lead ECG: rules out AV block, bradycardia, asystole, long QT, bundle branch block
Serum haemoglobin: Normal, low in anaemia
Plasma blood glucose: Normal: low in hypoglycaemia
Serum beta-human chorionic gonadotrophin: Normal, positive in pregnancy
Cardiac enzymes: Normal, elevated in MI
D-dimer level: Normal, elevated in PE
Serum cortisol: Normal or decreased
Urea and serum creatinine: Normal or elevated

Answer 282

A

Chronic venous insufficiency refers to functional changes that may occur in the lower extremity due to persistent elevation of venous pressures
The wounds are thought to be due to improper functioning of venous valves, usually of the legs

Answer 283

A

Abnormality is usually reflux but can also be chronic obstruction or combination of the two
Congenital absence of the venous valves is a less common cause, and isolated primary varicose veins (pure superficial incompetence) uncommonly causes severe CVI.

Answer 284

A

Occurs in an as many as 50% of people within 5 to 10 years of an episode of DVT

Answer 285

A

Corona phlebectatica (malleolar flare or ankle flare)
Ankle swelling
Hyperpigmentation brawny oedema)
Leg ulcers

Answer 286

A

Atrophic blanche
Lymphedema
Lipodermatosclerosis

Answer 287

A

Duplex ultrasound: Retrograde or reversed flow, valve closure time over 0.5 seconds

Answer 288

A

Graded compression stockings
Moisturiser
Diosmin/ Pentoxifylline
Skin graft

Answer 289

A

Infected
Leading to cellulitis or gangrene
May need amputation of part of limb in future

Answer 290

A

Significant chance they will recur after healing

Answer 291

A

Irregular rapid ventricular fibrillation with no cardiac output

Answer 292

A

Ischaemic heart disease and ongoing ischaemia
Rapid haemodynamic collapse and syncope
History of:
Progressive angina
Cardiac arrest
Valvular disease
Depressed LV systolic function

Answer 293

A

Chest pain
Dizziness
Nausea
Rapid, fluttering heart beat
SOB

Answer 294

A

Absent pulse
Loss of consciousness
Depressed LV systolic function

Answer 295

A

Serum K/Mg: predispose to VT
Cardiac markers: new ischaemia
Tox screen: anti-arrhythmics
TTE: systolic function
Coronary angiogram: CAD
EPS

Answer 296

A

1) High flow 02
2) Rx reversible cause: electrolyte abnormalities of Low Mg, K a) Mg sulphate b) K chloride
3) Cardioversion may be repeated as needed until rhythm is controlled
4) Amiodarone 300mg IV 20 min- 1 hr
5) And lidocaine
6) IV Mg sulphate if Torsades de Pointes
7) ICD- to prevent recurrence
8) Get expert help, sedate, shock

Answer 297

A

Higher in men than women 3:1

Answer 298

A

Central nervous system ischaemic injury
Myocardial injury
Post-defibrillation arrhythmias
Aspiration pneumonias
Anoxic encephalopathy
Death

Answer 299

A

Depends on time elapsed between onset and myocardial intervention
VF that occurs within the first 48 hours of the onset of acute MI has no bearing on prognosis, but VF that occurs more than 48 hours after acute MI is associated with a high rate of recurrence and a poorer prognosis.
After resuscitation, the prognosis is largely dependent on haemodynamic stability, early neurological recovery and duration of the resuscitation

Answer 300

A

Ectopic ventricular rhythm with a wide QRS complex (120 ms or greater), rate faster than 120 bpm, lasting for at least 3 beats that spontaneously resolves in less than 30 seconds

Answer 301

A

Commonly observed in patients with underlying ischaemic or non-ischaemic cardiac disease although can be observed in healthy people
Infectious diseases such as Chagas disease in Central America
Structural heart diseases such as hypertrophic cardiomyopathy, idiopathic dilated cardiomyopathy, congenital heart disease, and valvular heart disease are also associated with NSVT
Electrolyte abnormalities such as hypokalaemia and hypomagnesaemia can contribute

Answer 302

A

Not sex specific

- Men more likely to be affected due to higher incidence of CAD

Answer 303

A

Asymptomatic
Tachycardia
Palpitations
Dizziness
Light-headedness
Pre-syncope
Syncope
Hypotension

Answer 304

A

Weak pulse in carotids
Sustained ventricular tachycardia: canon ‘a’ waves in JVP
Broad complexes on ECG

Answer 305

A

12-lead ECG: +ve QRS concordance in chest leads, L axis deviation, AV disassociation, Fusion beats
24h ambulatory ECG monitoring:
Electrolytes: Low Mg or K associated with Torsades de Pointes
Troponin- checks for ischaemia

Answer 306

A

Ventricular tachycardia faster than 100 bpm lasting at least 30 seconds or requiring termination earlier due to haemodynamic instability
- VT is defined as a wide complex tachycardia (QRS 120 milliseconds or greater) that originates from one of the ventricles, and is not due to aberrant conduction (e.g., from bundle branch block), at a rate of 100 bpm or greater.

Answer 307

A

Synchronised cardioversion according to ACLS protocol & treatment of reversible cause
Anti-arrhythmic medication
Amiodarone/lidocaine

Answer 308

A

No cardiac comorbidity/asymptomatic: correct electrolytes/ reassure and self monitor
Post MI: reperfusion, optimise meds, lifestyle
With HF: reperfuse, anti-failure therapy, lifestyle modifications

Answer 309

A

Ventricular fibrillation
Sudden cardiac death
ICD
Cardiomyopathy
Amiodarone induced thyroid function

Answer 310

A

Worse prognosis if non-idiopathic ventricular tachycardia

Answer 311

A

Short PR interval and ‘Delta’ wave on ECG predisposing to supraventricular tachycardias (SVT)
WPW Syndrome is restricted to symptomatic patients with a typical ECG abnormality
WPW pattern signifies asymptomatic patients with typical ECG abnormalities

Answer 312

A

Ebstein abnormality
HOCM
Transposition of great vessels
Dextrocardia
Marfan’s
Family history
Right and left atrial aneurysms

Answer 313

A

Conduction from the atrium reaches the adjacent ventricle earlier via the AP, and a part of the ventricle is pre-excited.
Accessory pathway (bundle of Kent) bypasses the atrioventricular node causing ventricular pre-excitation

Answer 314

A

Encountered at any age

- Higher incidences in third and fourth decades of life

Answer 315

A

Shortness of breath
Palpitations
Dizziness
Chest pain
Sudden cardiac death
Syncope and presyncope

Answer 316

A

Antrioventricular re-entrant tachycardia (AVRT)
Atrial flutter
Tachy on pregancy

Answer 317

A

ECG
Cardiac electrophysiology
Echocardiogram (to detect any associated cardiac abnormalities)

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