Cardiovascular

Question 1

What bacteria is responsible for rheumatic valve disease?

Answer 1

Streptococcus pyogenes

Question 2

What are the three leaflets of the aortic valve called?

Answer 2

Right
Left
Non-coronary

Question 3

What are three causes of aortic stenosis?

Answer 3

Age (wear and tear –> calcification)
Rheumatic valve disease
Congenital

Question 4

Describe the murmur associated with aortic stenosis

Answer 4

Ejection systolic murmur

Radiates to the right upper sternal edge, suprasternal notch and carotids

Question 5

What is the progressive effects of aortic stenosis?

Answer 5

Increased LV cavity pressure –> pressure overload –> LV hypertrophy

Question 6

What are the symptoms of aortic stenosis?

Answer 6

SOB
Chest pain
Pre-syncope
Syncope
Reduced exercise capacity

Question 7

What are the causes of aortic regurgitation?

Answer 7

Degenerative
Rheumatic valve disease
Aortic root dilation
Systemic disease
Endocarditis

Question 8

Give examples of systemic diseases that can result in aortic regurgitation

Answer 8

Marfan’s syndrome
Ehler Danlos syndrome
Ankylosing spondylitis
SLE

Question 9

What is the effect of aortic regurgitation?

Answer 9

Blood pushed into aorta 
In diastole, the valves are incompetent
Blood flows back into LV 
Volume overloaded 
LV dilation

Question 10

What are the symptoms of aortic regurgitation?

Answer 10

SOB

Reduced exercise capacity

Question 11

What is the prevalence of people having a bicuspid aortic valve rather than a tricuspid aortic valve?

Answer 11

1-2%

Question 12

What are people with a bicuspid aortic valve prone to developing?

Answer 12

Premature dysfunction

Question 13

Describe the mitral valve

Answer 13

Fibrous annulus - this can become dilated which pulls the valve leaflets apart

Anterior and posterior leaflets - anterior do the most work

Chordae tendinae and papillary muscles

Question 14

What is the nomenclature of the anterior and posterior leaflets of the mitral valve?

Answer 14

A1, A2, A3

P1, P2, P3

Question 15

What is the major cause of mitral stenosis?

Answer 15

Rheumatic valve disease

Question 16

What is the effect of mitral stenosis?

Answer 16

Pressure overload
Dilated LA
AF

Question 17

Other than AF, what are the two other potential effects of mitral stenosis?

Answer 17

Pulmonary hypertension

Secondary right heart dilatation

Question 18

What are the symptoms of mitral stenosis?

Answer 18

SOB
Palpitations
Chest pain
Haemoptysis
Right heart failure symptoms (pitted oedema, ascites etc)

Question 19

What is the effect of mitral regurgitation?

Answer 19

Volume overload in both LA and LV
LA and LV dilation
Pulmonary hypertension and secondary right heart dilation
AF

Question 20

What are the symptoms of mitral regurgitation?

Answer 20

SOB
Palpitations
RHF symptoms

Question 21

Who is most likely to develop pathology of the pulmonary valve?

Answer 21

Children and young adults

Question 22

What are the causes of tricuspid valve pathologies?

Answer 22

Pulmonary hypertension
IVDU
Endocarditis

Question 23

How should valvular disease be assessed?

Answer 23

History 
Examination - murmur 
BP
ECG
ECHO - valvular dysfunction
CT 
MRI 
Exercise tolerance test, CPET, Stress ECHO

Question 24

What medical treatments can be used in the management of valvular disease?

Answer 24

Diuretics - reduce overload on heart

Mainly surveillance - watch and wait

Question 25

What are the different surgical options for the management of valvular disease?

Answer 25

Valve repair
Valve replacement
Mechanical
Tissue

Question 26

What type of valve replacement requires warfarin?

Answer 26

Mechanical

Question 27

What are the two procedures that can be used in the management of valvular disease?

Answer 27

TAVI (transcatheter aortic valve intervention)

Valvuloplasty

Question 28

When can valvuloplasty be used?

Answer 28

Role in mitral valve disease
Mainly young people with RVD
Buy time before valve replacement

Question 29

What is the risk of stroke associated with AF?

Answer 29

5-fold increase compared to general population

Question 30

What percentage of the population have AF?

Answer 30

1.5-2% (prevalence is increasing with the ageing population)

Question 31

Give examples of conditions that predispose to or encourage the progression of AF

Answer 31

HTN
Symptomatic HF 
Valvular heart disease
Cardiomyopathies
ASDs
Coronary artery disease
Thyroid dysfunction
Obesity
DM 
COPD 
Sleep apnoea
Chronic renal disease

Question 32

What symptoms are associated with AF?

Answer 32

Asymptomatic
Palpitation
Dyspnoea

(rare: chest pain, syncope)

May present with the complications of AF (stroke/peripheral emboli)

Question 33

What type of pulse is associated with AF?

Answer 33

Irregularly irregular

Question 34

What are the three types of AF?

Answer 34

Paroxysmal
Persistent
Permanent

Question 35

Describe paroxysmal AF

Answer 35

Intermittent
Starts and stops
Can last from 30s to over 24hrs at a time

Question 36

Describe persistent AF

Answer 36

Requires intervention to terminate the arrhythmia (IV antiarrhythmic drug or DC cardioversion)

Question 37

Describe permanent AF

Answer 37

Continually there, won’t try to restore sinus rhythm

Question 38

What ECG changes are associated with AF?

Answer 38

Absence of P waves

Irregular QRS complex

Question 39

Describe the ECG changes associated with AF

Answer 39

Atria aren’t contracting as a synctium
Different cells are contracting at different rates
There are multiple entry circuits
Ventricles have a variable rate dependent upon which impulses are able to pass through the AV node –> Bundle of His –> activate the ventricles

Question 40

Describe atrial flutter

Answer 40

Re-entry around the tricuspid valve
Atria contracting at a rate of 250-300bpm
Saw-tooth pattern on ECG

Question 41

On what ECG leads can a saw-tooth pattern be seen during atrial flutter?

Answer 41

Inferior leads II, III and aVF

Question 42

What are the haemodynamic effects of AF and atrial flutter?

Answer 42

Loss of cardiac output
Atria are not beating in a coordinated fashion so blood clots may form in the atria –> break off –> thrombus can emboli to the brain, kidneys etc

Question 43

What are the treatment aims in AF?

Answer 43

Prevention of stroke
Symptom relief
Optimum management of concomitant cardiovascular disease
Rate control 
\+/- correction of rhythm disturbance

Question 44

What are the essential investigations for a patient with AF?

Answer 44

ECG - confirm arrhythmia
ECHO - structural heart disease
Thyroid function tests
LFTs

Question 45

What is the target HR for a patient with AF who is:

a) asymptomatic
b) symptomatic

Answer 45

Asymptomatic: <110 bpm
Symptomatic: <80 bpm

Question 46

If a patient doesn’t have cardiac failure, how should their AF be managed?

Answer 46

Beta blocker (bisoprolol 2-5-5mg OD or atenolol 25-50mg BD)
OR
Ca antagonist (verapamil 120-240mg BD)

Question 47

What is the second line treatment for a patient with AF who does not have HF?

Answer 47

Digoxin

Question 48

What scoring system can be used to ascertain a patient’s risk of having a stroke?

Answer 48

CHA2DS2-VASc

out of 9

Question 49

What are the components of the CHA2DS2-VASc scoring system?

Answer 49

Congestive heart failure/LV dysfunction
HTN
Age >/= 75 (2pts)
DM 
Stroke/TIA/thrombo-emobolism (2pts)
Valvular disease
Age 65-74
Female sex

Question 50

What should the INR target be for a patient with AF?

Answer 50

2-3

Question 51

What is the risk of an INR >3?

Answer 51

Increased risk of intracranial bleed

Question 52

What is the risk of an INR <2?

Answer 52

Increased risk of stroke

Question 53

What treatment for AF requires INR measurements?

Answer 53

Warfarin

Question 54

What are the new oral anti-coagulants that can be used in the management of AF?

Answer 54

Dabigatran - thrombin inhibitor
Rivaroxaban - factor Xa inhibitor
Apixaban - factor Xa inhibitor
Edoxaban - factor Xa inhibitor

Question 55

Who should be referred for specialist assessment?

Answer 55

Patients who are symptomatic despite adequate rate control

Younger patients <60

Inadequate rate control despite beta-blocker/Ca antagonists + digoxin

Structural heart disease on ECHO

Co-existing HF

Question 56

How can rhythm control be managed in patients with AF?

Answer 56

Direct current cardioversion
Antiarrhythmic drugs
Catheter ablation

Question 57

What are class 1 antiarrhythmic drugs?

Answer 57

Na channel blockers

(Flecainide 100mg bd
Propafenone 150-300mg bd)

Question 58

What are class 3 antiarrhythmic drugs?

Answer 58

K channel blockers –> prolong action potential duration/QT interval

Sotalol 80mg bd
Amiodarone 200mg OD

Question 59

Give an example of a multichannel blocker that can be used in the management of AF

Answer 59

Dronedarone 400mg bd

Question 60

Which veins can be the trigger of paroxysmal AF?

Answer 60

Pulmonary veins

Question 61

What are the two ways of performing catheter ablation?

Answer 61

Radiofrequency current (burning)

Cryo-ablation (freezing)

Question 62

In what patient group is catheter ablation more effective?

Answer 62

Structurally normal hearts

Minimal heart disease

Question 63

In what proportion of patients is catheter ablation curative in:

a) paroxysmal AF?
b) persistent AF?

Answer 63

Paroxysmal - 65-80%

Persistent - 50-60%

Question 64

Define endocarditis

Answer 64

Inflammation of the endocardium which results in vegetation formation and ultimately damage to the cusps of the valves

Question 65

What are the components of the endocarditis vegetation?

Answer 65

Fibrin mesh 
Platelets
White blood cells
Red blood cell debris 
Organisms

Question 66

Give some example microorganisms that can cause endocarditis

Answer 66

Staph. aureus
CoNS
Strept. viridans
HACEK
Coliforms

Question 67

Describe HACEK

Answer 67

5 gram negative bacteria which cause endocarditis
Relatively rare
Culture negative endocarditis

Question 68

What are the three classifications of endocarditis?

Answer 68

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

Question 69

What microorganisms commonly cause NVE?

Answer 69

S.viridans (oral flora –> transient bacteraemia caused by brushing teeth –> underlying valve disease)
Staphylococcus

Question 70

What microorganisms commonly cause Endocarditis in IVDUs?

Answer 70

S.aureus
E.coli
Pseudomonas
Fungal endocarditis

Question 71

What microorganisms commonly cause PVE?

Answer 71

Staphylococcus endocarditis eps CoNS
E.coli
Pseudomonas
Fungal endocarditis

Question 72

What risk factors are associated with NVE?

Answer 72

Underlying valve abnormalities
Aortic stenosis
Mitral valve prolapse

Question 73

Describe aortic stenosis

Answer 73

Narrowing of the aortic valve
Age-related calcification (50%)
Calcification of congenitally abnormal valve (30-40%)
Rheumatic fever (10%)

Question 74

Briefly describe how Rheumatic Fever can cause NVE

Answer 74

Group A Strept or Strept. progenes infection
Contains streptolysin O toxin
Infection from streptococcus pyogenes –> strept. throat
Partially or untreated liberates the streptolysin toxin
Toxin attracts ASO antibodies
Causes destruction of streptolysin toxin
Protein of heart valves is similar to that of streptolysin toxin
Ab attack the heart valves
Stenosis/regurgitation

Question 75

In IVDU endocarditis, what valve is most commonly affected?

Answer 75

Tricuspid

Question 76

Describe the acute clinical features associated with endocarditis

Answer 76

Patient appears very sick
Progressive valve destruction and metastatic infection
S.aureus and gram negative bacteria

Question 77

Out of all congenital heart defects, what percentage are atrial septal defects?

Answer 77

10%

Question 78

What type of atrial septal defect is the most common, and what does this result in?

Answer 78

Secundum (80%)

Patent foramen ovale

Question 79

What type of ASD results in an atroventricular septal defect?

Answer 79

Primum

Question 80

What is the physiological effect of an ASD?

Answer 80

Abnormal mixing of blood
Blood flows path of least resistance (LV –> RV = left-right shunt)
Increased volume in RV (blood from RA and from LV)
RV dilates to accommodate blood
Will eventually fail –> Right Ventricular Failure

Question 81

What symptoms are associated with ASD?

Answer 81

Often asymptomatic
Murmur –> ECHO –> diagnosis
Stretching of RA –> vulnerable to supraventricular arrhythmias such as AF/atrial flutter (palpitations, SOB, signs of peripheral heart failure)
May present with stroke (thrombus passes from RHS - LHS of heart –> carotid arteries –> stroke)

Question 82

If a young person has a stroke, what should they be investigated for?

Answer 82

ASD

Question 83

What are the O2 sats like in a patient with ASD?

Answer 83

Normal

Question 84

What is coarctation of the aorta?

Answer 84

Narrowing of the aorta generally at the site of the ductus arterioles insertion

Question 85

What is the physiological implication of coarctation of the aorta?

Answer 85

LV has to pump harder to force blood through the narrowing
LV hypertrophy
LVF
Collateral vessels may develop to bypass blood flow around the narrowing

Question 86

Describe the presentation of coarctation of the aorta

Answer 86

Severe narrowing –> poor peripheral perfusion (cold feet, claudication, abdominal angina)

Symptoms of pre-coarctation HTN (before coarctation, the BP is very high –> headaches and nose bleeds)

Question 87

When performing a CV examination on a patient with coarctation of the aorta, what signs would you expect to see?

Answer 87

Discrepancies in limb BP (lower limb BP is lower than upper limb BP - should. be the other way around)
Radio-femoral delay
Continuous murmur
Normal O2 sats

Question 88

Describe transposition of the great arteries

Answer 88

Aorta and pulmonary arteries switch

Aorta comes off RV
Pulmonary arteries come off LV

Question 89

What is the physiological effect of transposition of the great arteries?

Answer 89

Two separate circulations - incompatible with life

Systemic circulation:
Deoxygenated blood –> RA –> RV –> AORTA –> systemic circulation

Pulmonary circulation:
Oxygenated blood –> LA –> LV –> PULMONARY ARTERIES –> lungs

Question 90

Describe foetal circulation

Answer 90

Receives oxygenated blood from placenta –> IVC –> RA
Lungs under-developed therefore high pressure
Blood follows path of least resistance –> foramen ovale –> LHS of heart
(Some blood may pass into pulmonary circulation but most of this blood will pass into the aorta via the ductus arteriosus)

Question 91

Describe what happens at birth to the components of the foetal circulation

Answer 91

First breath
Change in pressure in heart and lungs
Within a few hours, foramen ovale and ductus arteriosus will close

Question 92

Neonates with transposition of the great arteries depend on what for survival?

Answer 92

Patent ductus arteriosus and foramen ovale

Question 93

In a neonate with transposition of the great arteries, what needs to be administered at the time of birth and why?

Answer 93

IV prostaglandins
Maintains patency of the foramen ovale and the ductus arteriosus - allows mixing of blood - allows time for surgical intervention

Question 94

Describe the surgical intervention for transposition of the great arteries

Answer 94

Historically - atrial switch (baffle connects SVC, IVC and mitral valve to LV –> remove atrial septum = O2 blood —> atrial septum –> RA –> RV –> aorta –> systemic circulation)

Now: arterial switch (cut aorta and pulmonary arteries –> switch them over and reconnect ie pulmonary arteries to RV; aorta to LV)

Question 95

What complications are associated with atrial switch?

Answer 95

RV dilates due to increased blood volume
RVF
+ Tricuspid regurgitation –> compounds RVF

Question 96

What complications are associated with arterial switch?

Answer 96

Pulmonary arteries supplies coronary arteries –> occlusion/stenosis –> MI/sudden death post op

Question 97

What are the components of Tetralogy of Fallot?

Answer 97

1. VSD
2. Overriding aorta
3. Right outflow tract obstruction
4. Right ventricular hypertrophy

Question 98

Tetralogy of Fallot is a _____ abnormality

Answer 98

cyanotic

Question 99

How is Tetralogy of Fallot treated?

Answer 99

IV prostaglandins to maintain patency 
BT shunt (improves blood supply to lungs)
Complete repair

Question 100

What is associated with a patient who has had a BT shunt to treat Teratology of Fallot?

Answer 100

Unrecordable BP in that arm

Question 101

After a complete repair of Teratology of Fallot, what will happen eventually?

Answer 101

Pulmonary regurgitation (needs replacing)

Increased pressure in RV –> RV hypertrophy –> RVF

Increased pressure in RV is transmitted to RA –> dilatation of RA –> vulnerable to Arrhythmia (AF/atrial flutter)

Question 102

Describe univentricular heart

Answer 102

Only have one functional ventricle

Question 103

What is the most common cause of an univentricular heart?

Answer 103

Tricuspid atresia

Question 104

In treating an univentricular heart, if it is not feasible to produce two ventricles from the ventricle, what circulation needs to be created?

Answer 104

Fontan circulation

Question 105

Describe Fontan circulation

Answer 105

Ventricle is dedicated to systemic circulation

Venous blood supply directly supplies the pulmonary arteries (deoxygenated blood does not pass through the heart)

Question 106

What problems are associated with a Fontan circulation?

Answer 106

Pulmonary circulation is dependent upon sufficient pressure to supply the lungs
Univentricle needs to supply enough pressure in order to push the blood into the lungs
The lungs need to be at a low pressure (must have low vascular resistance)

Question 107

Describe an aortic stenosis murmur

Answer 107

Low pitch ejection systolic murmur

Aortic area and radiates up into neck

Question 108

Describe an aortic regurgitation murmur

Answer 108

High pitch early diastolic murmur

Left sternal edge with patient sat forward in expiration

Question 109

Describe a mitral stenosis murmur

Answer 109

Low pitch mid systolic murmur

Heard at apex with patient on left side

Question 110

Describe a mitral regurgitation murmur

Answer 110

High pitch pan-systolic murmur

Apex radiating to axilla

Question 111

Describe a tricuspid stenosis murmur

Answer 111

Rare

Diastolic murmur at left sternal edge

Question 112

Describe a tricuspid regurgitation murmur

Answer 112

Soft high pitch pan systolic murmur at left sternal edge

Increases during inspiration

Question 113

Describe a pulmonary stenosis murmur

Answer 113

Soft ejection murmur in pulmonary area

Question 114

Describe a pulmonary regurgitation murmur

Answer 114

Soft early diastolic murmur in pulmonary area

Question 115

Define heart failure

Answer 115

The inability of the heart to keep up to the demands of the body. This is due to inadequate cardiac function due to damage of the heart that prevents it from pumping effectively

Question 116

Give some causes of HF

Answer 116

Coronary artery disease
HTN
Idiopathic
Toxins (alcohol, chemo)
Valve disease

Question 117

Define Ejection Fraction

Answer 117

EF = SV/Total left ventricle volume

Question 118

What are the two classifications of HF depending on EF?

Answer 118

HF-REF: EF = <40% (systolic HF)

HF-PEF: EF= >40% (diastolic HF)

Question 119

Describe HF-REF

Answer 119

Ventricles can’t pump blood hard enough during systole
More often seen in younger men
Associated with coronary aetiology

Question 120

Describe HF-PEF

Answer 120

Not enough blood fills into the ventricles during diastole
More often seen in older female patients
Associated with a HTN aetiology

Question 121

What are the two types of congestion associated with HF?

Answer 121

Acute (decompensated)

Chronic (congested)

Question 122

Describe Chronic HF

Answer 122

Present for a period of time

May have been acute or may become acute

Question 123

Describe Acute HF

Answer 123

Usually admitted to hospital
Worsening of chronic
Can be new onset ‘de novo’

Question 124

Describe the pathophysiology of HF

Answer 124

The body interprets the reduced cardiac function as a reducing circulating volume

Activation of SNS, RAAS, BNP to increase fluid retention

Fluid overload –> exacerbates the reduced cardiac function

Question 125

In LVHF, where does the fluid back up and what symptoms does this cause?

Answer 125

Fluid backs up into lungs –> pulmonary HTN and oedema

Dysnpnoea
Orthopnoea (lying flat –> more venous blood flow into heart –> worsens congestion)
Crackles on auscultation

Question 126

What type of pulse may be felt in severe LVHF? What is the mechanism behind this pulse?

Answer 126

Pulsus alternans (alternating strong and weak pulse in the periphery)

Reduced EF –> reduced SV –> more blood in ventricle
At next systole:
Increased myocardium stretch –> increased strength of myocardial contraction –> increased strength of systolic pulse

Question 127

Where does fluid back up into in RVHF and what are the symptoms?

Answer 127

Fluid backs up into body

Raised JVP
Hepatosplenomegaly
Ascites
Pitted oedema

Question 128

Why does a new S3 heart sound occur with chronic HF?

Answer 128

Dilation of the ventricles causes remodelling of the atria in order to accommodate the high filling pressure

S3 is heard (due to volume overload)

Question 129

What type of tachycardia occurs in advanced HF? And what are the results?

Answer 129

Resting sinus tachycardia (reduced tissue perfusion)

Patient is:
Cool
Pale
Cyanotic extremities
Diaphoresis (due to hypotension)
Narrow pulse pressure (reduced SV)

Question 130

Describe the classification of HF

Answer 130

New York Associated Functional Classification

Class 1: Symptoms only during extreme exertion
Class 2: Symptoms during moderate exertion
Class 3: Symptoms during mild exertion
Class 4: Symptoms at rest

Question 131

What investigations are required for all patients with HF?

Answer 131

Bloods: FBCs, U&Es, Cr, urea, LFTs, urate
Natriuretic peptides - BNP
ECG
ECHO
CXR

Question 132

Why is BNP important in the investigation of HF?

Answer 132

BNP low = exclude HF

BNP raised = HF possible diagnosis –> ECG + ECHO to confirm

Question 133

What further tests might be required in a patient with HF?

Answer 133

Coronary angiography
Exercise test
Ambulatory ECG monitoring 
Myocardial biopsy
Genetic testing

Question 134

Describe the basic treatment algorithm for HF

Answer 134

Beta Blocker + ACEi (ARB if unable to tolerate ACEi) + mineralocorticoid receptor antagonist (spironolactone/epenelone)

Question 135

What specialist meds can a cardiologist start a patient with HF on?

Answer 135

Sacubitril/Valsartan + Beta blocker + mineralcorticoid receptor antagonist

Question 136

What is the aim of treatment in patients with HF?

Answer 136

Increase life expectancy

Reduce rate of hospital admissions

Question 137

Why are ARNI drugs useful in HF management?

Answer 137

Angiotensin receptor neprilysin inhibitor

Inhibits breakdown of neprilysin
Increases natriuretic peptide
Vasodilation, natiuresis, diuresis, inhibition of pathological growth/fibrosis
Inhibits AT1 receptor

Question 138

What are the two devices that can be used to increase survival in HF?

Answer 138

Defibs - shock out abnormal heart rhythms

CRT - synchronise the RHS and LHS of heart

Question 139

How is it decided if a patient should either get a Defibs or CRT fitted?

Answer 139

More severe symptoms + narrow QRS –> defib

More severe symptoms + broad QRS –> CRT

Question 140

Describe the MoA of Ivabradine

Answer 140

Inhibits depolarisation of SA node

Decreases rate of hospitalisation

Question 141

Define HTN

Answer 141

Persistent elevation in arterial BP of >140/90mmHg

Question 142

What is the optimum BP?

Answer 142

<120/<80mmHg

Question 143

What is normal BP?

Answer 143

120-129/80-84mmHg

Question 144

What is high-normal BP?

Answer 144

130-139/85-89mmHg

Question 145

What is grade I HTN?

Answer 145

140-159/90-99mmHg

Question 146

What is grade 2 HTN?

Answer 146

160-179/100-109mmHg

Question 147

What is grade 3 HTN?

Answer 147

> /=180 over >/= 100 mmHg

Question 148

What is isolated systemic HTN?

Answer 148

> /= 140/<90 mmHg

Question 149

Give some risk factors for the development of HTN

Answer 149

Non-modifiable:
Age
Gender
Ethnicity
Genetic factors

Modifiable:
Diet
Physical activity
Obesity
Alcohol excess
Stress

Question 150

Give some secondary causes of HTN

Answer 150

Endocrine: phaechromocytoma, hyperaldosteronism, thyroid disorders

Vascular: coarctation of the aorta

Renal: renal artery stenosis

Drugs: NSAIDs, herbal remedies, cocaine, exogenous steroid use

Other: Obstructive Sleep Apnoea

Question 151

How is HTN diagnosed?

Answer 151

2 readings 5 mins apart/2 separate occasions

Question 152

What out of office BP measurements can be taken?

Answer 152

24hr ambulatory - night-time dippers/non-dippers (non-dippers increased CV risk)
Home BP monitoring - 2-3 readings, 2x a day, 4-7 days

Question 153

How does hyperthyroidism affect BP?

Answer 153

Increased SBP

Question 154

How does hypothyroidism affect BP?

Answer 154

Increased DBP

Question 155

How can CV risk be ascertained in patients with HTN?

Answer 155

ASSIGN score (>20 = 20% CV risk in 10 years)
Q-risk

Question 156

What examinations are useful in a patient with HTN?

Answer 156

Measure BP in both arms
Weight/BMI
Xanthelasma 
Pulses
Oedema
Rashes
Heart - murmur
Abdomen - renal masses
Vascular bruit - kidneys, carotids
Eyes

Question 157

What initial investigations should be organised in a patient with HTN?

Answer 157

U&Es
Glucose/HBA1c
Lipid profile
TFTs
LFTs
Urine dipstick ± ACR/PCR
12 lead ECG

Question 158

What additional investigations may be useful for a patient with HTN?

Answer 158

Renin-aldosterone
24h catecholamines
ECHO
Renal US
MRA renal

Question 159

What lifestyle factors can be beneficial in reducing a patient’s BP?

Answer 159

Increased exercise
Reduce Na intake
Reduce alcohol intake
Smoking cessation
DASH diet - more fruit and veg, more wholegrain, less processed food

Question 160

What is the target BP in the management of HTN?

Answer 160

<140/90

<130/80 - if tolerant

Question 161

Describe the treatment algorithm for HTN

Answer 161

<55: ACEi/ARB
>55 or black African/Caribbean: Ca channel blocker

ACEi/ARB + Ca channel blocker

ACEi/ARB + Ca channel blocker + thiazide diuretic

Resistent HTN:
ACEi/ARB + Ca channel blocker + thiazide diuretic + (diuretic/alpha blocker/beta blocker)

Question 162

What is a side effect of amlodipine?

Answer 162

Ankle swelling