Cardiovascular examination Flashcards

Question 1

Q

what clinical signs should be looked for in general inspection?

Answer

A

cyanosis
SOB
pallor
malar flush
oedema
comfort
position
build

Question 2

Q

what is cyanosis?

Answer

A

a bluish discolouration of the skin due to poor circulation (e.g. peripheral vasoconstriction secondary to hypovolaemia) or inadequate oxygenation of the blood (e.g. right to left cardiac shunting)

Question 3

Q

what is malar flush?

Answer

A

plum-red discolouration of the cheeks associated with mitral stenosis

Question 4

Q

what objects and equipment should be looked for in general inspection?

Answer

A

oxygen delivery devices, ECG leads, medications, catheters (volume/colour of urine), IV access
mobility aids
how many pillows
vital signs
fluid balance
prescriptions

Question 5

Q

what should be looked for in hand inspection?

Answer

A

general observations
finger clubbing
signs in hands associated with endocarditis

Question 6

Q

what general observations should be looked for in hand inspection?

Answer

A

colour
vasodilation/constriction
temperature
xanthomata
arachnodactyly
sweating
pallor of palmar creases
peripheral cyanosis
tendon xanthomas

Question 7

Q

what are xanthomata?

Answer

A

raised yellow cholesterol-rich deposits that are often noted on the palm, tendons of the wrist and elbow; associated with hyperlipidaemia

Question 8

Q

what is arachnodactyly?

Answer

A

fingers and toes are abnormally long and slender, in comparison to the palm of the hand and arch of the foot; is a feature of Marfan’s syndrome, which is associated with mitral/aortic prolapse and aortic dissection

Question 9

Q

what is finger clubbing? what is it associated with?

Answer

A

involves uniform soft tissue swelling of the terminal phalanx of a digit with loss of the normal angle between the nail and the nail bed
associated with underlying diseases, in CV OSCE they’re likely to include congenital cyanotic heart disease, infective endocarditis and atrial myxoma

Question 10

Q

how is finger clubbing tested for?

Answer

A

ask patient to place the nails of their index fingers back to back
in a healthy person, you should see a small diamond-shaped window (Schamroth’s window)
when finger clubbing develops, this window is lost

Question 11

Q

what are signs in the hands associated with endocarditis?

Answer

A

splinter haemorrhages
Janeway lesions
Osler’s nodes
petechiae

Question 12

Q

what are splinter haemorrhages? what are they caused by?

Answer

A

longitudinal, red-brown haemorrhages under nails that look like wood splinters
causes include local trauma, infective endocarditis, sepsis, vasculitis, psoriatic nail disease

Question 13

Q

what are Janeway lesions?

Answer

A

non-tender, haemorrhagic lesions that occur on the thenar and hypothenar eminences of the palms and soles; associated with infective endocarditis

Question 14

Q

what are Osler’s nodes?

Answer

A

red-purple, slightly raised, tender lumps, often with a pale centre, typically found on fingers or toes; associated with infective endocarditis

Question 15

Q

what is palpated in the CV examination?

Answer

A

temperature of hands
capillary refill time
radial pulse
radio-radial delay
collapsing pulse
brachial pulse
BP
carotid pulse
JVP
hepatojugular reflex

Question 16

Q

how is the capillary refill time assessed?

Answer

A

apply 5 seconds of pressure to the distal phalanx of one of the patient’s fingers and then release
in healthy people, the initial pallor of the compressed area should return to its normal colour in less than 2 seconds
a CRT >2seconds suggests poor peripheral perfusion and the need to assess central CRT

Question 17

Q

where is the radial pulse located? how is it assessed?

Answer

A

palpate the radial pulse, located at the radial side of the wrist, with tips of your index and middle fingers aligned longitudinally over the artery
assess rate and rhythm
assess radio-radial delay

Question 18

Q

what is radio-radial delay?

Answer

A

a loss of synchronity between the radial pulse on each arm, resulting in pulses occurring at different times

Question 19

Q

how is radio-radial delay assessed?

Answer

A

palpate both radial pulses simultaneously

2. should occur at same time

Question 20

Q

what are causes of radio-radial delay?

Answer

A

subclavian artery stenosis
aortic dissection
aortic coarctation

Question 21

Q

how is collapsing pulse assessed?

Answer

A

ask patient if they have any pain in their right shoulder, as you’ll have to move it briskly (if they do, avoid the assessment)
palpate the radial pulse with your right hand wrapped around their wrist
palpate the brachial pulse (medial to biceps brachii tendon) with your left hand, while supporting the patient’s elbow
raise patient’s arm above the head briskly
as blood rapidly empties from the arm in diastole, you should feel a tapping impulse through the muscle bulk; this is caused by the sudden retraction of the column of blood within the arm during diastole

Question 22

Q

what are causes of a collapsing pulse?

Answer

A

normal physiological states (e.g. fever, pregnancy)
cardiac lesions (e.g. aortic regurgitation, patent ductus arteriosus)
high output states (e.g. anaemia, AV fistula, thyrotoxicosis)

Question 23

Q

how is the brachial pulse assessed?

Answer

A

assess volume and character
support the patient’s right forearm with your left hand
position the patient so their upper arm is abducted, their elbow is partially flexed and their forearm is externally rotated
with your right hand, palpate medial to the biceps brachii tendon and lateral to the medial epicondyle of the humerus; deeper palpation is required

Question 24

Q

what are the the types of pulse character?

Answer

A

normal
slow-rising (associated with aortic stenosis)
bounding (associated with aortic regurg and CO2 retention)
thready (associated with intravascular hypovolaemia in conditions e.g. sepsis)

Question 25

Q

what is a narrow pulse pressure?

Answer

A

less than 25mmHg of difference between the systolic and diastolic pulse pressure; causes include aortic stenosis, CHF, cardiac tamponade

Question 26

Q

what is a wide pulse pressure?

Answer

A

more than 100mmHg of difference between the systolic and diastolic blood pressure; causes include aortic regurg and aortic dissection

Question 27

Q

what difference in BP between arms is abnormal? what does it suggest?

Answer

A

more than 20mmHg; may suggest aortic dissection

Question 28

Q

how is the carotid artery auscultated?

Answer

A

before palpating the carotid artery, you need to auscultate it to rule out a bruit (which suggests carotid stenosis), making palpation dangerous due to risk of dislodging a plaque and causing an ischaemic stroke
place the diaphragm of your stethoscope between the larynx and the anterior border of the SCM muscle over the carotid pulse and ask patient to take a deep breath and hold whilst you listen
presence of bruit may be a radiating carotid murmur

Question 29

Q

how is the carotid pulse palpated?

Answer

A

if no bruits were identified in auscultation then it’s safe to palpate
ensure patient is positioned safely on bed
gently place your fingers between the larynx and the anterior border of the SCM to locate pulse
assess character and volume

Question 30

Q

how is the JVP measured?

Answer

A

position the patient in semi-recumbent position (45deg)
ask patient to turn head slightly to left
inspect for evidence of the IJV, running between the medial end of the clavicle and the ear lobe, under the medial aspect of the SCM
measure JVP by assessing the vertical distance between the sternal angle and the top of the pulsation point of the IJV (should be no greater than 3cm)

Question 31

Q

what are cardiac causes of raised JCP?

Answer

A

right-sided heart failure (left-sided heart failure, pulmonary hypertension, COPD, ILD)
tricuspid regurgitation (causes are endocarditis and rheumatic heart disease)
constrictive pericarditis (rheumatoid arthritis, TB, idiopathic)

Question 32

Q

how is the hepatojugular reflex elicited?

Answer

A

there should be at least a 3cm distance from the upper margin of the baseline JVP to the angle of the mandible
position the patient in a semi-recumbent position (45deg)
apply direct pressure to the liver
closely observe the IJV for a rise
in healthy people the rise should last no longer than 1-2 cardiac cycles, then fall
if the rise in JVP is sustained and equal to or greater than 4cm this is a positive result
uncomfortable for patient

Question 33

Q

what is a positive result for the hepatojugular reflex?

Answer

A

rise in JVP is sustained and equal to or greater than 4cm

Question 34

Q

what can cause a positive hepatojugular reflex result?

Answer

A

positive result suggests right ventricle cannot accommodate an increased venous return, can be caused by:

constrictive pericarditis
right/left ventricular failure
restrictive cardiomyopathy

Question 35

Q

what is looked for in eye inspection?

Answer

A

conjunctival pallor
corneal arcus
xanthelasma
Kayser-Fleischer rings
malar flush

Question 36

Q

what is corneal arcus?

Answer

A

a hazy white, grey or blue opaque ring located in the peripheral cornea, typically occurring in patients over 60. in older patients it’s considered benign, in under 50s it suggests hypercholesterolaemia

Question 37

Q

what are Kayser-Fleischer rings?

Answer

A

dark rings encircling the iris in Wilson’s disease

Question 38

Q

what is looked for in mouth inspection?

Answer

A

central cyanosis
angular stomatitis
high arched palate
dental hygiene

Question 39

Q

what is looked for on the anterior chest?

Answer

A

pectus excavatum
pectus carniatum
visible pulsations
severe kyphoscoliosis

Question 40

Q

what is pectus excavatum?

Answer

A

a caved in or sunken appearance of the chest

Question 41

Q

what is pectus carniatum?

Answer

A

protrusion of the sternum and ribs

Question 42

Q

what types of thoracic scars should be looked for?

Answer

A

median sternotomy scar
anterolateral thoracotomy scar
infraclavicular scar
left mid-axillary scar

Question 43

Q

where is a median sternotomy scar located? what is it caused by?

Answer

A

located in midline of thorax

- surgical approach is used for cardiac valve replacement and CABG

Question 44

Q

where is an anterolateral thoracotomy scar located? what is it caused by?

Answer

A

located between lateral border of the sternum and the mid-axillary line at the 4th or 5th intercostal space
surgical approach is used for minimally invasive cardiac valve surgery

Question 45

Q

where is an infraclavicular scar located? what is it caused by?

Answer

A

located in the infraclavicular region

- surgical approach used for pacemaker insertion

Question 46

Q

where is a left mid-axillary scar located? what is it caused by?

Answer

A

surgical approach used for insertion of a subcutaneous ICD

Question 47

Q

what is assessed for in chest palpation?

Answer

A

palpate apex beat
heaves
thrills

Question 48

Q

how is the apex beat palpated?

Answer

A

palpate the apex beat with your fingers horizontally across the chest
should be located in the 5th intercostal space in the midclavicular line
displacement of apex beat from its usual location can occur due to ventricular hypertrophy

Question 49

Q

how are heaves palpated for?

Answer

A

a parasternal heave is a precordial impulse that can be palpated
place the heel of your hand parallel to the left sternal edge (fingers vertical)
if heaves are present you should feel the heel of your hand being lifted with each systole
typically associated with right ventricular hypertrophy

Question 50

Q

what is a parasternal heave?

Answer

A

precordial impulse that can be palpated

Question 51

Q

what is a thrill?

Answer

A

a palpable vibration caused by turbulent blood flow through a heart valve (palpable murmur)

Question 52

Q

how are thrills palpated for?

Answer

A

assess for a thrill across each of the heart valves in turn
place your hand horizontally across the chest wall, with the flats of your fingers and palm over the valve to be assessed

Question 53

Q

where are the 4 valves located?

Answer

A

mitral valve: 5th intercostal space in the midclavicular line
tricuspid valve: 4th or 5th intercostal space at the lower left sternal edge
pulmonary valve: 2nd intercostal space at the left sternal edge
aortic valve: 2nd intercostal space at the right sternal edge

Question 54

Q

how should the first heart sound be determined?

Answer

A

by palpating the carotid pulse

Question 55

Q

how do you auscultate the four heart valves?

Answer

A

palpate the carotid pulse to determine the first heart sound
auscultate upwards through the valve areas using the diaphragm whilst continuing to palpate the carotid pulse (mitral, tricuspid, pulmonary and aortic valves)
repeat auscultation across the four valves with the bell of the stethoscope
if extra sounds are heard, palpate the carotid pulse to time them with the first and second heart sounds; the start of the carotid pulsation will be synchronous with the first heart sound

Question 56

Q

what should be done if extra sounds are heard in auscultation?

Answer

A

if extra sounds are heard, palpate the carotid pulse to time them with the first and second heart sounds; the start of the carotid pulsation will be synchronous with the first heart sound

Question 57

Q

what are the accentuation manoeuvres?

Answer

A

auscultate the carotid arteries using the diaphragm whilst the patient holds their breath to listen for radiation of an ejection systolic murmur in aortic stenosis
sit the patient forwards and auscultate over the aortic area with the diaphragm during expiration to listen for early diastolic murmur caused by aortic regurgitation
roll patient onto their left side and listen over the mitral area with the diaphragm during expiration to listen for a pansystolic murmur caused by mitral regurgitation; auscultate into the axilla to identify radiation
on left side still, listen again over the mitral area using the bell during expiration for a mid-diastolic murmur in mitral stenosis
switch back to the diaphragm, sit the patient forward and auscultate at the 4th/5th intercostal space to the left of the sternum on held expiration (aortic regurgitation)
auscultate lung bases, assess for sacral oedema; if coarctation is suspected, auscultate to the left of the spine in the 3rd/4th intercostal space
sit the patient back and auscultate the carotids for bruits or a transmitted systolic murmur
lay the patient flat, if they can tolerate it, and palpate for hepatomegaly; if the liver is enlarged, feel for pulsation (tricuspid regurgitation)

Question 58

Q

what are the accentuation manoeuvres for aortic stenosis?

Answer

A

auscultate the carotid arteries using the diaphragm whilst the patient holds their breath to listen for radiation of an ejection systolic murmur caused by aortic stenosis

Question 59

Q

what are the accentuation manoeuvres for aortic regurgitation?

Answer

A

sit the patient forwards and auscultate over the aortic area with the diaphragm during expiration to listen for an early diastolic murmur caused by aortic regurgitation
using the diaphragm, sit the patient forward and auscultate at the 4th/5th intercostal space to the left of the sternum on held expiration

Question 60

Q

what are the accentuation manoeuvres for mitral regurgitation?

Answer

A

roll the patient onto their left side and listen over the mitral area with the diaphragm during expiration to listen for a pansystolic murmur caused by mitral regurgitation; continue to auscultate into the axilla to identify radiation

Question 61

Q

what are the accentuation manoeuvres for mitral stenosis?

Answer

A

with patient still on their left side, listen again over the mitral area using the bell during expiration for a mid-diastolic murmur caused by mitral stenosis

Question 62

Q

what are the accentuation manoeuvres for tricuspid regurgitation?

Answer

A

lay the patient flat, if they can tolerate it, and palpate for hepatomegaly; if the liver is enlarged, feel for pulsation

Question 63

Q

what murmurs are heard during systole?

Answer

A

aortic and pulmonary stenosis
mitral and tricuspid regurgitation
mitral valve prolapse causes a systolic murmur with an opening click

Question 64

Q

what murmurs are heard during early diastole?

Answer

A

aortic and pulmonary regurgitation

Answer 65

A

mitral and tricuspid stenosis

Answer 66

A

ejection systolic (crescendo-decrescendo)

Answer 67

A

pansystolic

Answer 68

A

both are loudest in aortic valve area, during expiration

- aortic stenosis radiates to the carotids, whereas HOCM and aortic sclerosis does not

Answer 69

A

both are loudest in the pulmonary region

- ASDs cause wide and fixed splitting of S2 whereas pulmonary stenosis does not

Answer 70

A

in the region of the valve affected:

aortic area (2nd intercostal space right sternal edge)
pulmonary area (2nd intercostal space left sternal edge)
tricuspid area (4th intercostal space left sternal edge)
mitral area (cardiac apex; usually 5th intercostal space in the left midclavicular line)

Answer 71

A

sitting forwards brings aortic valve closer to the chest wall, so they’re heard louder while they’re sitting forwards

Answer 72

A

the left lateral decubitus position brings apex of the heart closer to the chest wall, so they’re heard loudest in this position

Answer 73

A

during inspiration, the intrathoracic pressure reduces, so more blood flows into the right heart chambers
right-sided valve lesions (pulmonary and tricuspid valves) are loudest during inspiration

Answer 74

A

during expiration intrathoracic pressure increases, forcing pulmonary vessels to constrict, so blood is forced from pulmonary veins into the left atrium and through the left side of the heart
left-sided heart valve lesions (aortic and mitral valves) are loudest during expiration

Answer 75

A

carotid artery

Answer 76

A

left sternal edge

Answer 77

A

left shoulder/infraclavicular region

Answer 78

A

ejection systolic murmur
heard loudest over the aortic area
radiates to the carotid arteries
loudest on expiration and when the patient is sitting forwards
slow rising pulse with narrow pulse pressure
non-displaced, heaving apex beat (if present indicates left ventricular hypertrophy)
reduced or absent S2
reverse splitting of S2 - aortic valve closes after pulmonary valve

Answer 79

A

degenerative age-related calcification

- bicuspid aortic valve

Answer 80

A

pansystolic murmur
heard loudest over mitral area
radiates to axilla
heard loudest using bell of stethoscope
loudest on expiration in the left lateral decubitus position
displaced, hyperdynamic apex beat

Answer 81

A

degenerative
left ventricular dilatation
ruptured chordae tendinae
papillary muscle rupture
rheumatic heart disease
infective endocarditis
mitral valve prolapse
connective tissue disease

Answer 82

A

decrescendo early diastolic murmur
heard loudest at left sternal edge and sometimes over aortic area
collapsing pulse
displaced, hyperdynamic apex beat
Austin-Flint murmur

Answer 83

A

low pitched rumbling mid-diastolic murmur heard best at the apex
caused by the regurgitated blood through the aortic valve mixing with blood from left atrium, during atrial contraction
sign of severe aortic regurgitation

Answer 84

A

visible distention and collapse of carotid arteries in the neck

Answer 85

A

head bobbing with each heartbeat

Answer 86

A

pulsations are seen in the nail bed with each heartbeat when the nail bed is lightly compressed

Answer 87

A

a stethoscope is placed over the femoral arteries
when gentle pressure is applied proximal to the stethoscope a systolic murmur is heard
when gentle pressure is applied distal to the stethoscope a diastolic murmur is heard

Answer 88

A

pistol shot sound heard when stethoscope placed over the femoral artery during systole and diastole

Answer 89

A

uvula pulsations are seen with each heartbeat

Answer 90

A

ascending aortic arch dissection
infective endocarditis
chest trauma
prosthetic aortic valve failure
connective tissue disease
rheumatological disorders
syphilis

Answer 91

A

snapping sound (opening click when mitral valve opens)
loud S1 with tapping apex beat
Graham Steel murmur
low-pitched, rumbling mid-diastolic murmur with an opening click
heard loudest over the apex
loudest in left lateral decubitus position on expiration
low-volume pulse which may be irregularly irregular

Answer 92

A

early decrescendo murmur heard in pulmonary area due to pulmonary incompetence - a sign of pulmonary hypertension

Answer 93

A

rheumatic heart disease
congenital
left atrial myxoma
connective tissue disorders
mucopolysaccharidosis

Answer 94

A

mid-systolic click
followed by a mid or late-systolic murmur
heard loudest at the apex
loudest in expiration

Answer 95

A

rheumatic heart disease
connective tissue disorders
Ebstein anomaly
associated with ASD and patent ductus arteriosus
SLE

Answer 96

A

pansystolic murmur
heard loudest over tricuspid region
loudest during inspiration
large V waves in jugular veins
visible/palpable hepatic pulsations
signs of right-sided heart failure

Answer 97

A

right ventricular dilatation
rheumatic fever
infective endocarditis
carcinoid syndrome
congenital (ASD, AV canal, Ebstein anomaly)

Answer 98

A

ejection systolic murmur
heard loudest over pulmonary area
loudest during inspiration
radiates to left shoulder/left infraclavicular region
prominent a waves in jugular veins
widely split S2
P2 may be soft and inaudible
right ventricular heave, tricuspid regurgitation, peripheral signs of RHF

Answer 99

A

Turner’s, Noonan’s, Williams, tetralogy of Fallot
rheumatic fever
carcinoid syndrome

Answer 100

A

early decrescendo murmur
heard loudest over the left sternal edge
loudest during inspiration
usually due to pulmonary hypertension

Answer 101

A

mid-diastolic murmur (rarely audible)
loudest at 3rd-4th intercostal space at the left sternal edge
loudest during inspiration
signs of right atrial enlargement

Answer 102

A

rheumatic fever
congenital disease
infective endocarditis

Answer 103

A

detecting low-frequency sounds, including the mid-diastolic murmur of mitral stenosis

Answer 104

A

detecting high-frequency sounds, including the ejection systolic murmur of aortic stenosis, early diastolic murmur of aortic regurgitation and pansystolic murmur of mitral regurgitation

Answer 105

A

posterior chest wall inspection
auscultation of posterior cehst wall
sacral/pitting oedema
leg inspection
test for shifting dullness if ascites is suspected

Answer 106

A

measure BP in both arms, lying and standing
peripheral vascular examination
12-lead ECG
urine dipstick
bedside capillary blood glucose
fundoscopy
opthalmoscopy

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Cardiovascular examination Flashcards

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