Cardiovascular Reference Guide 2022.pdf

Full Transcript

UNIVERSITY OF OTAGO
Te Whare Wānanga o Otāgo
ELM
OTAGO MEDICAL SCHOOL
Te Kura Hauora o Otāgo

EARLY LEARNING IN MEDICINE
CLINICAL SKILLS
MICN201 and MICN301 2022

Cardiovascular
Reference Guide

The Clinical Skills Module in ELM provides opportunities to build the foundational
clinical skills used in a consultation with a patient. You will learn these through hands-
on learning activities, tutorial-based discussions and independent learning. Our aim is
that you leave ELM Clinical Skills able to use and develop your consultation skills further
with the patients you work with in ALM.
ELM Clinical Skills – Cardiovascular System Reference Guide 1
 TABLE OF CONTENTS

History Taking in a Cardiovascular Presentation..................................................................................... 3
The Cardiovascular Examination.......................................................................................................... 10
General Observation of a Patient with a Cardiovascular Problem................................................................... 11
Vital Signs.................................................................................................................................................... 11
Peripheral Pulses.......................................................................................................................................... 12
The Jugular Venous Pulse and the Jugular Venous Pressure (JVP)................................................................... 15
The Examination of the Praecordium............................................................................................................ 18
Normal Cardiac Blood Flow and Valvular Heart Disease.................................................................................. 22
The Cardiovascular Examination................................................................................................................... 24
The Cardiorespiratory Examination............................................................................................................... 25
Cardiovascular Symptoms.................................................................................................................... 26
Common Cardiovascular Conditions..................................................................................................... 29

ELM Clinical Skills – Cardiovascular System Reference Guide 2
 History Taking in a Cardiovascular Presentation
There is a wide range of complaints that will prompt a patient to seek medical help. When a
patient initially presents it may not be obvious what system(s) the complaint(s) relate to.

You will need to use your medical knowledge to fully explore the following aspects when you
take the history:
History of the presenting complaint
o biomedical perspective
▪ ensuring you get a clear sequence of events
▪ thoroughly analysing the presenting complaint(s)
▪ asking about and analysing relevant associated symptoms
▪ asking about and exploring relevant features of the presentation
o patient’s perspective
▪ genuinely considering the patient’s views on the presenting complaint(s)
including:
▫ their ideas about the presenting complaint(s)
▫ their concerns regarding the presenting complaint(s)
▫ their expectations of the consultation
▫ the impact of the presenting complaint(s) on their life
allow the patient to express their feelings about anything they tell you
Background information
o Past medical and surgical history
o Medications
o Allergies
o Family history
o Personal and social history

History of Presenting Complaint
Biomedical perspective

Sequence of events
Gaining a full understanding of the sequence of events in a cardiovascular presentation will
help you focus on the conditions that are most likely to be causing the patient’s complaint(s).

If the patient currently has central crushing chest pain that started 20 minutes ago it is likely
that you will consider acute coronary syndrome as a cause. If the patient has had intermittent
chest pain worse on lying down and increasing in frequency over the past three months it is
likely you will consider gastro-oesophageal reflux as a cause. If the patient has had aching
immobilising pain in their calves intermittently for months it is likely you will consider
intermittent claudication as a cause. If the patient has a swollen aching calf that began after

ELM Clinical Skills – Cardiovascular System Reference Guide 3
they travelled from the United Kingdom a week ago it is likely that you will consider deep vein
thrombosis as a cause.

Find out about:
Time of onset
o The date and time it started (if applicable)
o When did it start?
o When they were last completely well. (This can be very useful to ask if the onset
is not well defined in conditions such as worsening heart failure.)
Mode of onset
o How the symptoms started. Was it over seconds, minutes, hours, days, or
months? The chart below lists conditions according to their onset.
Precipitant
o What triggered the symptoms
o What brought it on? Was it related to exertion?
o What was going on around the time the symptoms started?
Time course
Step by step what has happened from the very start until now.
Duration
o How long do/did the symptoms last?
o If symptoms are intermittent find out how long each episode lasts
Frequency
o If symptoms are intermittent find out how often they occur
Pattern
o Is there a pattern?
o Are the symptoms staying the same? Deteriorating?
Recovery
o If the symptoms are intermittent what is the recovery period like?

The table below links the mode of onset with common cardiovascular conditions. (Further
details about these conditions can be found on page 28).

ELM Clinical Skills – Cardiovascular System Reference Guide 4
Condition Typical mode of onset Typical time course

Angina sudden, over seconds to Stable angina is episodic and not
minutes increasing in frequency, occurs with
exertion and relieved by rest
Unstable angina is episodic with
increasing frequency of episodes,
occurring without exertion
Acute Coronary Syndrome sudden, over seconds to Symptoms last for 15-20 minutes
Myocardial infarction minutes

Acute lower limb sudden, over seconds to Symptoms of ischaemia persist until
ischaemia minutes treatment is given

Chronic intermittent Insidious – gradual, over days to Pain occurs with exertion (walking) and
claudication months is relieved by rest. It is episodic and
tends to increase in frequency over
time.
Pulmonary embolism sudden, over seconds to This may present as sudden death.
(large) minutes Symptoms are severe from the start
and persist.
Pulmonary embolism sudden, over seconds to Symptoms are moderate and
(small, multiple) minutes intermittent, occurring with increasing
frequency over hours to days
Vasovagal syncope sudden, over seconds to The collapse is typically short, lasting
minutes seconds to minutes, and relieved when
the patient lies flat

Deep vein thrombosis rapid, over hours to days Calf pain and swelling is dependent on
the size of the thrombosis. This may
increase over hours to days.
Atrial fibrillation variable: The patient may not be aware of the
may be unrecognised problem, or they may have persistent
may present suddenly over heart racing and “fluttering in chest”
seconds
Intermittent atrial sudden, over seconds Each episode has sudden onset, and
fibrillation episodes occur over days- months
Heart failure (acute) rapid over hours-days Symptoms worsen over hours- days
until treatment is given
Heart failure (chronic) insidious over weeks-months Symptoms slowly worsen over weeks -
months

ELM Clinical Skills – Cardiovascular System Reference Guide 5
Symptom analysis

You will need to analyse each symptom. SOCRATES can be useful to analyse chest pain.

WWQQAA (where, when, quality, quantity, aggravating and alleviating factors) can be useful
for other symptoms such as shortness of breath.
Where: This may help you narrow down the anatomical structures that are involved.
o Is it a localised problem, or more widespread?
o Which part of the body is affected?
o Is it symmetrical?
o Is it in a recognisable pattern? (such as retrosternal pain radiating to the left arm
that can occur with cardiac ischaemia)
When: Determine the onset and sequence of events
o When did it start?
o How long does it last?
o Is it sudden, rapid, or gradual in onset?
o Are the symptoms static, or deteriorating, or intermittent?
Quality: Get a good description and a clear understanding of what the patient
means.
o What is it like?
o Tell me what you mean by...
Quantity: You will get an indication of severity from what the patient is able to do.
o Did the pain stop you walking? (This is likely to happen with intermittent
claudication and cardiac ischaemia)
o Does the breathlessness stop you from getting the housework done? (This
may happen with left heart failure.)
o You may use the pain scale to quantify pain.
Aggravating: Many cardiovascular conditions get worse exertion
o What makes it worse?
o What triggers the symptoms? (lying down flat will make the breathlessness of
left heart failure worse)
Alleviating/Relieving: Rest may relieve symptoms due to ischaemia
o What makes it better?

Associated symptoms
Relevant associated symptoms for a cardiovascular presentation will include:
Cardiovascular symptoms and
General symptoms

Associated symptoms for a cardiovascular presentation may include:
Relevant symptoms from other body systems

The common cardiovascular symptoms are:
Pain
Dyspnoea
o Orthopnoea

ELM Clinical Skills – Cardiovascular System Reference Guide 6
 o Paroxysmal Nocturnal Dyspnoea (PND) Palpitations
Syncope and Pre-syncope
Oedema
Claudication

There is more information about cardiovascular symptoms on page 25.

You will also ask about general symptoms.

General symptoms are:
fever
fatigue
problems sleeping
mood change
appetite change
weight change

Fatigue, sleep disturbance, and weight change are common in cardiovascular presentations.
There is more information about general symptoms in the General Symptoms Reference
Guide.

You may also need to ask about symptoms related to other body systems. A presentation that
initially appears to be cardiovascular in origin may be due to a problem in another system.
For example, central chest pain may be due to gastro-oesophageal reflux. As you progress
through the medical course you will learn more about this.

Relevant features
There may also be specific features of the presenting complaint that you can explore that may
be relevant to a cardiovascular presentation.

Ability to perform the usual activities of daily living can be a useful indicator of the
severity of the problem.
A family history of ischaemic heart disease is significant
A history of smoking is significant

Patient’s perspective
It is essential to explore the patient’s perspective. Cardiovascular conditions can have
significant short and long-term impacts on the patient, their dependants, and their support
network. Make sure you have a clear appreciation of:
The patient’s ideas about the presentation
What the patient is concerned about
What the patient is expecting from the consultation
The effect that the presenting problem is having on the patient’s life

Ensure that you validate the patient’s feelings by allowing them to express their
feelings about anything they tell you at any stage in the interaction.

ELM Clinical Skills – Cardiovascular System Reference Guide 7
Aspects to Consider in the Background Information in a
Cardiovascular Presentation
When you are gathering information about the patient’s background you need to use your
biomedical knowledge to inform your questions. For example in a possible cardiovascular
presentation you need to know if the patient has a history of heart disease or risk factors for
developing heart disease. The following is a summary of what can be considered when a
patient presents with a possible cardiovascular problem. This summary is not exhaustive
and you will continue to add to this as your knowledge grows.

Past Medical History
Previous heart disease (risk factor for heart disease - congenital, infectious,
ischaemic)
Hypercholesterolemia (risk factor for ischaemic heart disease)
Hypertension (risk factor for ischaemic heart disease)
Cerebrovascular disease (risk factor for ischaemic heart disease)
Peripheral vascular disease (risk factor for ischaemic heart disease)
Diabetes (risk factor for ischaemic heart disease)
Rheumatic fever (risk factor for heart disease)
Dental decay or infection (risk factor for infective endocarditis)
Thyrotoxicosis (can cause tachycardia, arrhythmia and heart failure)
Chronic kidney disease (risk factor for ischaemic heart disease)
Marfan’s Syndrome (aortic regurgitation)
Down Syndrome (coarctation of the aorta)
Chronic lung disease (right heart failure)
Rheumatoid arthritis (pericarditis)

Medication
Non-steroidal anti-inflammatory drugs (increase cardiovascular risk and increase risk
of gastrointestinal problems when prescribed with aspirin used as anti-platelet
medication)
Beta blockers (aggravate peripheral vascular disease increasing intermittent
claudication)
Thyroxine (arrhythmia and tachycardia)
Cocaine and amphetamines (increased catecholamines raising heart rate and blood
pressure)
Complementary and alternative medicines (interactions and cardiac side effects)

The triad of ABC (aspirin, beta blocker, cholesterol lowering drug) can suggest ischaemic
heart disease.

ELM Clinical Skills – Cardiovascular System Reference Guide 8
Family History
These conditions have a hereditary component and should be considered in cardiovascular
presentations:
Ischaemic heart disease
Thrombophilia
Inherited arrhythmia
Cardiomyopathy
Diabetes
Hypertension
Hypercholesterolemia

Personal and Social History
Ethnicity - increased risk of cardiovascular disease in Māori, Pacific people, Indo-
Asian (Indian, Fijian Indian, Sri Lankan, Afghani, Bangladeshi, Nepalese, Pakistani,
Tibetan)
Smoking – increases cardiovascular risk
Alcohol – heavy drinking is associated with cardiovascular disease
Other recreational drugs: cocaine, amphetamines, injected drugs
Sedentary Lifestyle
Nutrition (a low-saturated fat, high-fibre, high plant food diet can reduce the risk of
developing heart disease)
Occupation (solvents cause cardiomyopathy or arrhythmia, cold exposure and
Raynauds or angina, a bus driver cannot work with a serious arrhythmia)
Effect of disease on daily life/function/ability to care for themselves/ability to work
(a person with intermittent short runs of VT cannot have a passenger licence)
Physical Activity History
o What does the patient do now?
o What did they do in the past?
o What would they like to be able to do?

ELM Clinical Skills – Cardiovascular System Reference Guide 9
 The Cardiovascular Examination
Examination of the Cardiovascular System in ELM
1. Start the examination (use the mnemonic WIPER):
Wash your hands
Introductions:
o introduce yourself (full name and role)
o explain what you want to do
o explain what the examination will involve
o gain permission to continue
Position:
o Examination couch at 45 degrees
o Patient comfortably with head supported on white pillow
o Yourself so you can access the anterior chest and right arm
Expose the patient as appropriate for each part of the cardiovascular
examination
Right:
o when examining the patient on the examination couch examine from the
patient’s RIGHT
o examining from the right is standard clinical practice that will help you to
correctly identify and record the side of any abnormality you detect
o examining from the right contributes to consistent and reproducible
examination

2. Communicate with the patient throughout the examination as necessary
keep them informed of progress
check they are ok
gain permission where appropriate as you move through your examination
3. Ensure the patient is comfortable with dignity preserved throughout the examination
4. Observe the patient throughout the examination to check whether the examination is
causing pain or distress
5. Make a general observation throughout the examination
6. Assess the vital signs
7. Examine the patient’s hands
8. Examine the patient’s face
9. Examine the patient’s neck
10. Examine the patient’s anterior chest
11. Examine the patient’s posterior chest
12. Examine the patient’s abdomen
13. Examine the patient’s lower limbs
14. End the examination:
Thank the patient
Let the patient know what to do next which might include putting on any
removed footwear or clothing, and returning to their chair

ELM Clinical Skills – Cardiovascular System Reference Guide 10
 Wash your hands

The cardiovascular examination begins with General Observation of the patient. Following
this the convention is to start peripherally and move more centrally.
We start with examination of the patient’s hands including assessment of the radial pulse,
and then move to examine their neck, face and praecordium or anterior chest (from the
Latin prae meaning “in front of” and cor meaning “heart”).
We then examine the patient’s back, abdomen, and lower limbs.
Auscultation of the back will be taught when we study the Respiratory System and palpation
of the liver will be taught when we study the Gastrointestinal System.

General Observation of a Patient with a Cardiovascular Problem
General observation is the first step in all clinical examinations. It begins as soon as you see
the patient.

Does the patient look well? Or unwell?
What is the patient doing when you first see them?
o Are they walking with ease?
o Are they lying flat?
Is the patient’s appearance consistent with his/her stated age?
Do they have a syndrome that may make a cardiovascular condition more likely?
o Marfan’s Syndrome is associated with aortic regurgitation
o Down Syndrome is associated with congenital heart disease
o Turner’s Syndrome is associated with coarctation of the aorta
Is the patient distressed or in pain?
Does the patient’s breathing look comfortable or laboured? Does this vary when they
are at rest or exerting themselves?
What is the patient’s respiratory rate?
What is the patient’s colour or complexion? (Pale, cyanosed, plethoric.)
Does the patient look clammy or sweaty?
What is your estimate of their weight? Are they underweight? Are they overweight?
Has their weight changed? (if you have seen them before)
Is the patient able to exert themselves? (Walking to the examination couch, getting
on the couch, and lying down on the couch is a good test.)
Can the patient lie flat?

Vital Signs
Refer to the Vital Signs Reference Guide on MedMoodle.

ELM Clinical Skills – Cardiovascular System Reference Guide 11
Peripheral Pulses
The arterial pulse is a wave generated by the contraction of the left ventricle of the heart.
Pulses can be palpated at a variety of sites where an artery runs close to the skin.

The normal pulse rate is 55-95 beats/minute.
Bradycardia is a slower than normal pulse or heart rate.
Tachycardia is a faster than normal pulse or heart rate.

Causes of an absent pulse are:
occlusion (thrombus, embolus, dissection, or transection)
cardiac arrest
Peripheral pulses are measured as part of the assessment of the peripheral circulation. They
are assessed during the cardiovascular examination as part of the diagnosis of peripheral
vascular disease. They are also assessed when there is a possibility of disruption to the
peripheral circulation following trauma or surgery.

Assessment of the Pulse
When measuring the pulse note the following:
Rate – count for 15 seconds and multiply by four to give the pulse rate over a minute.
By convention we assess pulse rate with the radial pulse.
Rhythm – note whether the pulse feels regular or irregular. As you will learn in the
coming weeks, an irregular heart rhythm or arrhythmia may be irregularly irregular,
or regularly irregular. It is important to be able to distinguish these two, as they have
different clinical implications. Atrial fibrillation is the commonest cause of an
irregularly irregular pulse. It can be helpful to tap the rhythm you are palpating to
determine if it is regular or irregular.
Character and Volume – carotid or brachial pulses should be used to assess character
and volume as these pulses more accurately reflect the form of the aortic pressure
wave. Words that can be used to describe the volume and character of a pulse are
weak, strong, bounding, collapsing, thready, or full. You will learn how to assess
character and volume in ALM.
o A low volume pulse may be caused by low cardiac output from shock or
myocardial infarct, dilated cardiomyopathy, valvular stenosis, pericardial
tamponade or constrictive pericarditis.
o A high volume pulse may be caused by anxiety, exercise, fever, hyperthyroidism,
anaemia, patent ductus arteriosus with normal pulmonary pressures, large
arterial venous fistulas or severe aortic regurgitation.

The Radial Pulse
The radial pulse is found at the wrist where the radial artery runs just medial to the distal
radius. It should be palpated using the index and middle fingers, rather than the thumb as
there can sometimes be confusion between the pulsation in the examiner's thumb and the
pulse of the patient. By convention, we measure the pulse rate using the radial pulse.

ELM Clinical Skills – Cardiovascular System Reference Guide 12
The Brachial Pulse
The brachial artery is in the antecubital fossa medial to the biceps tendon. This is a large
artery. It can be palpated using the index and middle fingers, or it can be palpated using the
thumb. This artery is conventionally used to assess the blood pressure by auscultation. The
brachial artery is also used to assess character and volume.

The Carotid Pulse
The carotid artery is located medial to the sternocleidomastoid muscle in the anterior part
of the neck. In patients with low blood pressure it can be difficult to palpate the radial pulse,
so on these occasions the carotid pulse should be assessed. The carotid artery is used to
assess character and volume.

The Femoral Pulse
The femoral artery is found in the groin in an anatomical space referred to as the femoral
triangle. It lies lateral to the femoral vein, and medial to the femoral nerve. NAVY is a useful
aide memoire for the order of the structures in the groin. The femoral nerve N is lateral and
the Y representing the groin is medial.

The femoral pulse is best palpated using two hands (one on top of the other) and with the
hip slightly abducted. It can be felt by pressing reasonably deeply below the inguinal
ligament and approximately midway between the symphysis pubis and the anterior superior
iliac spine.

The Popliteal Pulse
The popliteal artery is found in the popliteal fossa behind the knee. The popliteal pulse can
be palpated by placing the index middle and ring fingers of each hand deep in the popliteal
fossa.

The Pedal Pulses
The pedal (foot) pulses are the most distal pulses. There are two pulses palpable in each
foot – in the posterior tibialis and the dorsalis pedis arteries. These pulses are indicators of
the state of the peripheral arterial circulation. We examine these pulses if we are assessing
for peripheral vascular disease or if there is a possibility of vascular trauma or other
impairment of vascular supply.

The posterior tibial artery is located approximately 2cm
behind the medial malleolus of the ankle. It is common
practice to use two or three fingers to palpate the pulse,
placing the index finger of the right hand against the
posterior border of the medial malleolus. The pulse will
commonly be found under one of the fingers. You are
likely to need to move your fingers to find the pulse.

The dorsalis pedis artery runs on the dorsum of the tarsal bones and disappears to supply
the plantar aspect of the foot by passing through the proximal end of the 1st metatarsal
space. It is best palpated by placing two or three fingers along this first space. Take your
time, you are likely to need to check several positions before you palpate the pulse.

ELM Clinical Skills – Cardiovascular System Reference Guide 13
The following images from Talley and O’Connor1 demonstrate how and where to palpate
the pedal pulses.

a) Palpating the posterior tibial pulse: b) Palpating the dorsalis pedis pulse:

Capillary Refill
The capillary refill test assesses peripheral perfusion. This can be affected by conditions such
as peripheral vascular disease, hypovolemic shock, or direct trauma to the affected limb.
To test capillary refill:
Press on a fingertip (with the arm at the level of the heart) or toe (with the leg
horizontal) for 5 seconds. The fingertip or toe will blanch.
Release the pressure and colour should return to the fingertip or toe in less than 2
seconds (this is approximately the time it takes to say “poor capillary refill”).
If the capillary refill is longer than 2 seconds the patient has poor peripheral
perfusion.

1 [Figures from: Talley and O'Connor's "Clinical Examination", (6th edition) and "Macleod’s Clinical Examination" (12th
edition)

ELM Clinical Skills – Cardiovascular System Reference Guide 14
 Reporting findings on palpation of peripheral pulses
(including general observation and capillary refill)

“Today I examined Ted Thomas a 67 year old retired builder who presents with pain in
his right leg when walking. He has history of hypertension and is a smoker who has
smoked 20 cigarettes a day since he was 16.

Mr Thomas is a lean man who looks older than his stated age. He tells his story in a
relaxed way and shows no sign of pain. He is able to walk easily from the chair to the
examination couch and lies down flat on this with no difficulty.

The radial pulse was 72 beats per minute and regular. Both radial and brachial pulses
were easily palpable bilaterally.

The carotid pulse was palpable bilaterally. It was regular, and of normal character and
volume.

I could not palpate his dorsalis pedis, or posterior tibial pulses on the right. On the left I
could palpate his popliteal pulse and posterior tibial pulse but I was unable to palpate his
dorsalis pedis pulse. The capillary refill time was prolonged on each side with the right
being 6 seconds and the left being 4 seconds.”

The Jugular Venous Pulse and the Jugular Venous Pressure (JVP)
The jugular veins take venous blood from the head to the right atrium. The internal jugular
vein has no valves and drains directly into the Superior Vena Cava and from there to the
Right Atrium. This means that the pressure in the Internal Jugular Vein reflects the pressure
in the Right Atrium. The External Jugular Vein drains into the Innominate Vein and then into
the Superior Vena Cava and Right Atrium. It is not as reliable to use for Jugular Venous
Pressure measurement as it does have valves and the vein may be obstructed as it passes
through fascia and muscle layers.

The Jugular Venous Pulse is a venous pulse that can be seen in the jugular vein. This pulse is
made of two waves caused by two events which increase pressure in the right atrium - the
"a" wave which is due to increased pressure in atrial systole and the "v" wave which occurs
during ventricular systole when atrium continues to fill while the tricuspid valve is closed
during ventricular systole.

We are interested in the height of the Jugular Venous Pulse as it reflects the Jugular Venous
Pressure, or JVP.

The right atrium communicates with the right internal jugular vein. The height of the Jugular
Venous Pulse gives an accurate indication of right atrial pressure. When pressure is elevated
in the right atrium this is reflected in the jugular veins which become distended and the

ELM Clinical Skills – Cardiovascular System Reference Guide 15
height of Jugular Venous Pulse increases. Assessment of the height of the Jugular Venous
Pulse is the assessment of the Jugular Venous Pressure (JVP).

If the patient lies down sufficiently the Jugular Venous
Pulse can be seen. The flatter the patient lies the more
likely it is that you will see the Jugular Venous Pulse.

In a healthy person lying on an examination couch with
the head at 45 degrees the Jugular Venous Pulse may not
be seen above the level of the clavicle because the Jugular
Venous Pressure is less than 3cmH2O.

The Right Internal Jugular Vein is used to get the most
accurate indicator of pressure in the right heart.

The right internal and external jugular veins are visible in
the neck above the clavicle, running in a line directly
towards the ear. The internal jugular lies deep to the
medial aspect of the sternocleidomastoid muscle, and the
external jugular vein lies laterally and superficially to it.

Inspiration makes the Jugular Venous Pressure fall (because the volume of the thorax
increases) and the height of the Jugular Venous Pulse will reduce with inspiration. Pressure
over the abdomen causes the Jugular Venous Pulse to rise. This is called abdomino-jugular
reflux and is a useful manoeuvre to identify the Jugular Venous Pulse.

Persistent elevation of the Jugular Venous Pressure is a reliable sign of right heart failure.
Anything that causes an increase in pressure in the right atrium raises the Jugular Venous
Pressure. This increase in pressure can be due to abnormalities in the heart, abnormalities
in the pulmonary system, or an increase in circulating blood volume.

Common causes for a raised JVP include right ventricular failure, tricuspid stenosis, an Atrio-
septal defect (ASD) with Mitral Valve disease, pericardial compression (pericarditis or
tamponade), Superior Vena Cava obstruction, pulmonary embolism affecting a large
pulmonary artery, lung conditions that cause pulmonary hypertension such as emphysema
or pulmonary fibrosis, renal failure, excessive intravenous fluid administration, an Atrio-
septal defect (ASD) with Mitral Valve disease.

ELM Clinical Skills – Cardiovascular System Reference Guide 16
Measuring the jugular venous pressure

When the patient is lying at 45°, the manubriosternal
angle is horizontal with the base of the neck and is taken
to be the zero point from which to measure the venous
column. (Note that the sternal angle is about 5cm above
the right atrium).

In a "normal" subject the JVP will sit at or just below the
level of the clavicle, which is less than 3 cm above the
manubriosternal angle. If you see the JVP at the level of
the clavicle with the patient at 45° this is normal. If the
pulsation is higher in the neck the JVP is elevated by that
amount.

Lying the patient down flat may make the vein fill and make it easier to see. It can also be
seen more easily if you gently occlude the top of the column with your fingers will cause the
vein to back-fill above the occlusion. This is a useful way of trying to identify where the vein
lies.

An alternative is to ask the patient to perform a gentle Valsalva manoeuvre, or to exhale as
completely as possible. (Note that these manoeuvres may make the vein more visible but
are not helpful for assessing the actual pressure in the right atrium.)

The assessment of the Jugular Venous Pressure is often a difficult task and it is frequently
not visualised. In Clinical Skills (Second Edition) edited by T.A. Roper this skill is given a 9/10
Difficulty Factor which means it is a skill requiring much practice. We do not expect you to
be able to reliably assess the Jugular Venous Pressure at this stage of your learning.
However, we do expect that you become familiar with the location of the jugular veins, and
that you understand the relevance of the Jugular Venous Pressure as a marker of
cardiovascular disease.

The Jugular Venous Pulse:
Is visible but not palpable – pressure obliterates it.
Is characterised by a complex waveform, often seen as two flickers in each cardiac
cycle.
Varies with respiration, decreasing with inspiration.
Is abolished by gently placing the ulna border of the hand against the base of the
neck. Any visible pulsation will therefore be arterial and likely to be the carotid pulse.
Can often be enhanced by the abdomino-jugular reflux sign. The abdomino-jugular
reflux sign is elicited by applying firm pressure to the right upper quadrant of the
abdomen using the palm of the hand. This will cause a transient increase in the
Jugular Venous Pressure which in healthy people will rapidly return to normal. In
patients with right heart disease it will take a few moments to fall.

ELM Clinical Skills – Cardiovascular System Reference Guide 17
The Examination of the Praecordium
The examination of the praecordium includes:

1. Inspection
2. Palpation
3. Auscultation

Inspection
The examination will begin with inspection. You will inspect for:
Scars – especially the median sternotomy scar from cardiac surgery
Skeletal abnormalities such as pectus excavatum (pigeon chest) or kyphoscoliosis
(curvature of the vertebral column) that can alter the position of the Apex Beat and
interfere with pulmonary function leading to pulmonary hypertension
Pacemaker or cardioverter/defibrillator box
Apex Beat – normally in the 5th left intercostal space in the midclavicular line

Palpation
The position of the Apex Beat is defined as the most lateral and inferior point on the
anterior chest wall where you are able to detect a cardiac impulse. This cardiac impulse is
the result of the heart rotating, moving forward and striking against the chest wall during
systole.

The Apex Beat is palpable in only about 50% of adults. Pathological causes for being unable
to palpate the beat include obesity, emphysema, pericardial effusion, and dextrocardia.

The normal position for the apex beat is in the fifth, left intercostal space, just medial to the
midclavicular line.

If the Apex Beat is displaced laterally or inferiorly (or both) the most common cause for this
is that the heart is enlarged.

ELM Clinical Skills – Cardiovascular System Reference Guide 18
Steps for palpation of the praecordium
Ask the patient to lie on their back at a 45°angle with their anterior chest exposed.
Use a gown open at the front or use a modesty cloth
Locate the Apex Beat by palpation of the praecordium:
o Place your hand on the patient’s chest with the extended fingers applied
reasonably firmly in each of the 4th, 5th, 6th and 7th intercostal spaces
and the tips of the fingers in the mid-axillary line.
o Move the palpating hand progressively medially until the apex is located.
o Determine the position of the apex beat with respect to adjacent
landmarks:
▪ Locate the manubriosternal angle, which is just above the second
intercostal space.
▪ Palpate the manubriosternal angle then palpate laterally to the
second intercostal space.
▪ Count down the intercostal spaces until you reach the fifth space.
(You may place each of the fingers of the right hand in adjacent
spaces the little finger will be in the correct space).
▪ Carefully determine the midpoint of the clavicle and draw an
imaginary line down to the 5th intercostal space.
▪ Palpate at this point where you may feel the normally placed apex
beat.

Tips for palpating and recognising the apex beat
The apex beat is best palpated gently, using the tips of the fingers with the hand laid
flat on the chest
Normally the apex beat is felt in an area about the size of a NZ $2 coin.
The normal apex will gently lift the palpating fingers.

Auscultation
Auscultation (the art of listening with a stethoscope) is a basic but very important part of
any clinical examination. This is especially so with respect to the Cardiovascular
examination. We auscultate heart sounds and assess whether these are normal. We
auscultate for heart murmurs.

ELM Clinical Skills – Cardiovascular System Reference Guide 19
Normal Heart Sounds
Heart sounds are heard with closure of the heart valves. There are normally two heart
sounds, S1 and S2, traditionally described as sounding like “lubb – dup”.

The first heart sound (S1) is the audible representation of the closure of the mitral

and tricuspid (atrioventricular) valves. The mitral valve closes fractionally before
the tricuspid, but generally only one sound is heard. S1 marks the beginning of
ventricular systole.
The second heart sound (S2) represents closure of the aortic and pulmonary valves.
It marks the end of systole.

To determine which sound is which, it is sometimes necessary to 'time' the heart sounds
with the carotid pulse. The pulsation of the carotid pulse corresponds with systole.

There are four auscultation areas relating to heart sounds:
The Aortic area 2nd intercostal space, right sternal border
The Pulmonary area 2nd intercostal space, left sternal border
The Tricuspid area 4th to 5th intercostal space, left sternal border
The Mitral area 5th intercostal space towards the apex

These are the areas where it is generally easiest to hear changes related to the individual
valves. Please note that these areas do not represent the exact location of the valves. 2

Splitting of S2
2(Adapted from:www.radiationoncology.ca / ascm / Physical_Examination / ascm1 / Precordial / images / chest landmarks
precordial title.jpg)

ELM Clinical Skills – Cardiovascular System Reference Guide 20
Because each sound is made up of the combined closure of two valves you will sometimes
hear reference to the “splitting of S2”. This occurs because the pulmonary valve closes later
than the aortic valve. This is because the lower pressure in the pulmonary circulation
compared with the aorta means that flow continues in to the pulmonary artery after the
end of right ventricular systole.

A split S2 is a normal finding when a patient is asked to breathe in. Inspiration causes a
decrease in intrathoracic pressure and this pressure decrease leads to an increase in venous
return. There is delay in the closure of the pulmonary valve producing a distinct double
sound as represented in the following figure. This is often represented phonetically as
“LUBB TaDUB”, and is best heard in the pulmonary region and along the left sternal border.

Abnormal Heart Sounds
Abnormal heart sounds include extra heart sounds (S3 and S4), and additional sounds. You
will learn more about these and what causes them in future years.

Murmurs
Heart murmurs are caused by pathology at the different heart valves. Different pathological
changes generate different murmurs and in future years you learn how to auscultate these.

Steps for auscultation of the praecordium
Ensure that the environment is as quiet as possible
Ensure that the patient is comfortable and aware of what will be done
Position the patient correctly - lying on the bed at 45°
Apply the stethoscope to bare skin using the diaphragm
Auscultate (listening for heart sounds, murmurs, and added sounds) in four areas on
the Praecordium
Palpate the carotid while auscultating in order to determine which heart sound is S1
(which occurs during systole and will be synchronous with the carotid pulse)

Reporting findings on examination of the praecordium
“Today I examined Alan Huang who presented for a medical examination before going
to Outward Bound. Alan is a 22 year old junior accountant with no past medical history
of note.
On inspection of the praecordium I noted Alan was slim. There were no scars. There
was no deformity of the chest wall. A pulsation was visible on the left side of his chest,
that I presume to be the apex beat.
On palpation the apex beat was palpable in the area of pulsation. The apex beat was
sited in the left mid-clavicular line, in the 5th intercostal space.

ELM Clinical Skills – Cardiovascular System Reference Guide 21
 I auscultated the heart sounds in each of the four valvular areas – the aortic, the
pulmonary, the tricuspid, and the mitral. The heart sounds were dual, S1 S2, with no
added sounds or murmurs.”

Normal Cardiac Blood Flow and Valvular Heart Disease
In order to understand cardiac valve disease which can significantly disrupt blood flow
through the heart, it will be helpful to know about normal cardiac blood flow.

Normally blood flows unidirectionally through the heart.

Deoxygenated blood enters the heart through the Right Atrium, then passes through the
Tricuspid Valve to the Right Ventricle, and from there passes through the Pulmonary Valve
to the lungs.

Oxygenated blood from the lungs enters the Left Atrium and passes through the Mitral
Valve to the Left Ventricle and is then pumped through the Aortic Valve to the rest of the
body.

As the pressure blood builds in the Atria, the Mitral and Tricuspid Valves open to allow
blood to flow into the Ventricles.

As the ventricles contract, ventricular pressure increases and when it exceeds arterial
pressure the Aortic and Pulmonary Valves open to pump blood in to Pulmonary Artery and
Aorta.

Regurgitation and Stenosis are the two main problems that can occur when heart valves are
diseased or damaged.

Regurgitation occurs when the valve doesn’t completely close. As a result, blood can flow
backwards rather than being pumped out of the heart. A regurgitant lesion causes dilatation
due to volume overload.

Stenosis happens when the tissue of the valve thickens or becomes very stiff. This can block
or limit blood flow through the heart and to the rest of the body. With stenosis, the
myocardium will hypertrophy over time. Initially, this is a helpful situation as the muscle
builds more strength and retains function. But over time the heart fails as the blood supply
is not sufficient to sustain the hypertrophied muscle.

You will learn more about this in other parts of the course.

ELM Clinical Skills – Cardiovascular System Reference Guide 22
Valvular Heart Disease
Cardiac valve disease has many causes. These include congenital causes, rheumatic fever,
atherosclerosis, infarction, hypertension or aging, endocarditis and myocardial disease.
Aortic stenosis: The patient can present with breathlessness, chest pain or tightness
with exertion, palpitations, pre-syncope (a feeling of near blackout) or syncope
(blackout).
Mitral stenosis: The patient can present with breathlessness and can have
paroxysmal nocturnal dyspnoea making them wake at night breathless. They may
have palpitations and may present with ankle swelling.
Aortic regurgitation: The patient can present with breathlessness especially on
exertion, chest pain on exertion, feeling tired, feeling faint, palpitations and
symptoms of heart failure.
Mitral regurgitation: The patient can present with shortness of breath (due to the
increased left atrial pressure), fatigue, orthopnoea (shortness of breath lying flat)
and ankle swelling. Mitral regurgitation causes increased volume in the Left Atrium
and can lead to pulmonary oedema.

ELM Clinical Skills – Cardiovascular System Reference Guide 23
The Cardiovascular Examination
As we noted earlier the Cardiovascular examination begins with General Observation of the
patient. By convention we then continue the cardiovascular examination by starting
peripherally and moving more centrally. We start with examination of the patient’s hands
including taking their radial pulse, and then move to examine their neck, face and
praecordium. We then examine the patient’s back, abdomen, and lower limbs.
A complete cardiovascular examination includes skills that we have not covered in Clinical
Skills as we have chosen to teach you fundamental skills that you can build on in future
years.
What follows is a summary of a modified complete cardiovascular examination:
1. Wash hands
2. Introduce yourself
3. Ensure patient comfort (acceptable position, dignity and modesty preserved)
4. Lie the patient on the bed at 45° with their chest exposed appropriately
draped/covered with a cloth or gown if necessary
5. Look at the patient, observing them in particular for signs of distress
6. Pick up and look at the patient's hands. (At this stage we do not expect you to be
expert at identifying signs of disease which are apparent in the hands but these
include splinter haemorrhages in the nail beds and clubbing3.)
7. Palpate the radial pulse noting rate and rhythm
8. Check the respiratory rate
9. Check the temperature
10. Check the blood pressure
11. Look at the patient's face paying attention to their colour (specifically cyanosis 4and
pallor)
12. Assess the jugular venous pulse and measure JVP
13. Inspect the praecordium for scars, deformity, apex beat, or pacemaker box
14. Palpate for the position of the apex beat
15. Auscultate the heart sounds
16. Move to the lower limbs and palpate the peripheral pulses
17. Check for oedema of the lower legs by inspection
18. Thank the patient
19. Wash hands

You will note that we have not included examination of the lungs. This is as essential part of
the Cardiovascular examination but we will be learning about this when we learn how to
examine the lungs as part of the examination of the Respiratory System.

3 Clubbing is the term for the loss of the nail bed angle and thickening of the distal finger which occurs in
cardiac and respiratory disease. The cause is unknown but a favoured theory is that megakaryocytes which enter
the systemic circulation due to damage in the pulmonary capillaries are trapped in the capillaries of the fingers
where they release growth factors in to the surrounding tissue.
4
Cyanosis is the term for a bluish tinge to the skin caused by hypoxia (among other things). The cardiovascular
examination also includes listening to the patient’s lungs which we will also cover in the coming Respiratory
Module.

ELM Clinical Skills – Cardiovascular System Reference Guide 24
The Cardiorespiratory Examination
The cardiovascular examination can be combined with the skills used in the respiratory
examination (see the Respiratory Reference Guide).
In the cardiovascular setting it is posteriorly where signs are most likely to be found with
percussion and auscultation. Generally, this is done after listening to the heart sounds.
What follows is a summary of a cardiorespiratory examination:

1. Wash your hands
2. Introduce yourself, confirm name, explain that you want to examine them with a
focus on the heart and lungs, gain permission to proceed
3. Lie the patient on the bed at 45° with their chest exposed (patients should be
appropriately draped/covered with a cloth and offered a gown)
4. Ensure the patient is comfortable
5. Look at the patient, observing them in particular for signs of distress
6. Listen to the patient. Can you hear anything unusual in their breathing? Is there
wheeze?
7. Pick up and look at the patient's hands. (You may find signs that include clubbing,
splinter haemorrhages, peripheral cyanosis, and nicotine staining).
8. Assess peripheral perfusion in the hands.
9. Palpate the radial pulse noting rate and rhythm
10. Assess the respiratory rate
11. Take the blood pressure
12. Look at the patient's face paying attention to their colour (especially pallor and
cyanosis)
13. Assess the JVP
14. Check the carotid pulse for character and volume
15. Assess the position of the trachea
16. Move to the chest and inspect for scars, deformity (including pacemaker), signs of
respiratory distress, and any other abnormality
17. Palpate the apex beat and determine its position using anatomical landmarks
18. Auscultate the heart sounds
19. Ask the patient to sit forward so that you can access their back
20. Make sure they are comfortable and well supported (you can use a pillow)
21. Assess chest expansion
22. Percuss the lung fields as you have learned to do when examining the respiratory
system. (It is not uncommon to find pleural effusion with severe left heart failure)
23. Auscultate the lung fields, paying particular attention to the lung bases posteriorly
where you can hear fine crackles if left heart failure is present)
24. Palpate the peripheral pulses
25. Assess peripheral perfusion in the feet
26. Check for oedema of the lower legs
27. Thank the patient and advise they can get dressed
28. Wash hands

ELM Clinical Skills – Cardiovascular System Reference Guide 25
 Cardiovascular Symptoms
The symptoms of a patient with a cardiovascular presentation tend to arise from problems
in the heart, lungs, or blood vessels.

Pain
Pain is the most common presentation of ischaemic heart disease.

The classical description of chest pain due to acute coronary syndrome (that may lead to
myocardial infarction) is of severe, central, retrosternal, crushing or heavy pain that comes
on over minutes at rest. It can radiate to the arms, throat, jaw or teeth. It is associated with
dyspnoea (breathlessness), sweating, anxiety (a “sense of impending doom”), nausea, or
vomiting. It is not relieved by sublingual glyceryl trinitrate.

Angina pain is classically precipitated by exercise, and is a dull discomfort, like a pressing
tight band or heavy weight. It is relieved by rest. It is rapidly relieved by sublingual glyceryl
trinitrate. It can be felt in the anterior chest, and can radiate to the arms, throat, jaw or
teeth. Severity can vary widely between patients for a number of reasons – because of this,
asking about “chest discomfort” is considered to be more sensitive than asking about “chest
pain”. As individual experience of cardiac pain can vary widely chest discomfort which is
“atypical” should be assessed carefully before discounting cardiac ischaemia as a cause.

Dyspnoea
Dyspnoea, put simply, means shortness of breath.

Dyspnoea is sometimes also described as “an unexpected awareness of breathing” or “air
hunger”. There are many causes of dyspnoea but it is commonly associated with the
cardiovascular presentation.

Assessment of a patient’s exercise tolerance is important; a commonly useful question is to
ask your patient how well they cope with climbing a flight of stairs. If they get breathless a
cardiovascular cause should be considered.
There are two particular patterns of dyspnoea to be aware of, which are highly suggestive of
cardiac disease:

Orthopnoea refers to shortness of breath on lying flat. This occurs with left ventricular
failure. It is considered to be due to redistribution of the collected fluid in the lungs
causing more widespread lung stiffness, particularly in the upper lobes. Patients affected
by orthopnoea may report needing to be propped up on a number of pillows to be able to
sleep without getting breathless.

Paroxysmal Nocturnal Dyspnoea (PND) refers to nightly (nocturnal) attacks
(paroxysms) of breathlessness (dyspnoea). Patients may report episodes of waking up
from sleep gasping for breath.

ELM Clinical Skills – Cardiovascular System Reference Guide 26
Palpitations
Palpitations are an unexpected or unpleasant awareness of the heartbeat, which may be
reported variably by patients, using terms such as “feeling my heart thumping” or
“butterflies in my chest”.

Reports of palpitations raise suspicions of an arrhythmia such as atrial fibrillation,
ventricular tachycardia, or supraventricular tachycardia. It can be useful to assess the rate
and rhythm of the palpitations by asking the patient to tap the rhythm out with their finger.

Palpitations associated with cardiac arrhythmia usually have a sudden onset. They may be
precipitated by exercise, anxiety, caffeine, or alcohol. Palpitations may be associated with
chest pain, dyspnoea or syncope if cardiac output is compromised due to arrhythmia.

Syncope and Pre-syncope
Syncope is the presentation commonly known as “fainting”. It is a transient loss of
consciousness resulting from cerebral anoxia, usually due to inadequate blood flow.

Presyncope is decreased cerebral perfusion that does not reach the stage of syncope. The
patient feels light-headed and “about to faint”.

Common underlying causes include arrhythmia or sudden emotional stress (“vasovagal
syncope” – a collapse due to a specific trigger such as an exposure to blood or needles). A
number of medications also interfere with blood pressure homeostasis, which can increase
susceptibility to syncope. It is important to enquire about the circumstances of onset;
preceding symptoms (such as pain or palpitations), duration of the syncopal event, and the
nature of the recovery.

Oedema
Oedema is the collection of fluid in the interstitial space.

Peripheral oedema in right ventricular or biventricular failure is usually bilateral. It will most
commonly be noticed in the ankles, or at the sacrum in a patient who is lying in bed. Ankle
swelling due to cardiac failure is usually worse at the end of the day, and improves
overnight.

Pulmonary oedema due to left ventricular failure presents with dyspnoea, orthopnoea, or
paroxysmal nocturnal dyspnoea.

The oedema of cardiac failure can be associated with other symptoms of fluid overload such
as including dyspnoea, orthopnoea and abdominal distension.

Other causes of bilateral oedema include chronic venous disease due to varicose veins,
vasodilating calcium channel antagonists (such as amlodipine) and hypoalbuminaemia (low
albumin).
Unilateral lower limb oedema can occur in deep vein thrombosis. The thrombosis, or clot, in
the venous system causes oedema and swelling in the affected leg.

ELM Clinical Skills – Cardiovascular System Reference Guide 27
Claudication
Claudication refers to ischaemic pain in the muscles of the legs. The classic presentation is a
complaint of crushing, vice-like pain in one or both calves after walking a certain distance. It
is typically relieved by rest. Claudication is due to inadequate vascular supply to the muscles
of the leg, generally due to peripheral vascular disease, and is commonly associated with
other vascular disease such as ischaemic heart disease or cerebrovascular disease.

ELM Clinical Skills – Cardiovascular System Reference Guide 28
 Common Cardiovascular Conditions
Angina: The patient typically presents with heavy, tight, gripping central chest pain or
discomfort that occurs with exercise or emotional stress and eases rapidly with rest. It can
be associated with feeling lightheaded and shortness of breath. Angina is reproducible with
exertion, as opposed to the unstable presentations of acute coronary syndromes. Angina is
caused by atheroma or spasm in the coronary arteries.

Acute Coronary Syndrome: The patient typically presents as unwell and in distress with new
onset chest pain or deterioration of pre-existing angina. The pain is described as central
retrosternal chest pain that is “crushing”, and often radiating to the left arm or the neck. It
is associated with shortness of breath, anxiety, sweating, and restlessness. It is due to
atherosclerosis in the coronary arteries. The artery becomes occluded when a coronary
artery plaque ruptures or erodes and this leads to severe ischemia.

Myocardial infarction: This can occur when acute coronary syndrome is not recognised and
treated. Myocardial infarction occurs when cardiac myocytes die due to myocardial
ischemia. If a patient with acute coronary syndrome presents in a timely fashion and they
have successful treatment with reperfusion therapy with either percutaneous coronary
intervention (PCI) or fibrinolysis then infarction can be prevented or reduced. Myocardial
infarction can lead to heart failure.

Peripheral vascular disease: This can cause intermittent claudication or acute lower limb
ischemia. It is caused by atherosclerosis affecting the aorto-iliac or infra-inguinal arteries. A
patient with intermittent claudication typically presents with aching immobilising pain in the
calves that comes on with exertion and gets better with rest. A patient with an acutely
ischemic limb presents with an unbearably painful white, cold, leg that has reduced
sensation and movement.

Hypertension: The patient typically has no symptoms. Hypertension is diagnosed when the
blood pressure is consistently elevated on examination. Hypertension can cause vascular
disease, arrhythmias, and heart failure and a patient with hypertension may also present
with these complications of hypertension. Please refer to “Vital Signs: T, P, R, BP” that
follows after Cardiovascular Symptoms for more information about blood pressure and
hypertension.

Heart failure: This is a common presentation. It is due to a reduction in cardiac function to
the extent that blood flow is compromised, leading to the signs and symptoms of heart
failure.
Right heart failure: The patient typically presents with ankle, sacral, or abdominal
swelling, weight gain, increased urination, anorexia, and nausea.
Left heart failure: The patient typically presents with shortness of breath on exertion,
orthopnoea (shortness of breath lying flat), and paroxysmal nocturnal dyspnoea
(severe shortness of breath that wakes the patient from sleep). They may have a
cough. They may have fatigue. This can be caused by myocardial disease (such as
ischemic heart disease, or cardiomyopathy), volume overload due to aortic

ELM Clinical Skills – Cardiovascular System Reference Guide 29
 regurgitation, mitral regurgitation, or patent ductus arteriosus, or pressure overload
due to hypertension or aortic stenosis. It may also occur in patients with thyrotoxicosis,
rapid arrhythmia such as atrial fibrillation, or anaemia.
Biventricular heart failure: The patient typically presents with symptoms of both right
and left sided heart failure as both ventricles are failing to pump adequately.

Atrial fibrillation: The patient can present with shortness of breath on exertion, reduced
exercise tolerance, and fatigue. They may present with an unusual feeling in their chest and
they may also be aware of palpitations, noticing their heart beating out of rhythm. They
may present symptoms of a cerebrovascular accident (stoke) due to an embolus from the
atrium. Sometimes they can be asymptomatic.

Neurocardiogenic syncope or vasovagal syncope (simple faint): Patient typically presents
with temporary loss of consciousness after being exposed to a specific trigger such as
standing or emotion. It may be preceded by nausea, sweating, light-headedness, blurred
vision, headaches, palpitations, paraesthesiae (abnormal sensations), and pallor. It usually
occurs when the patient is in in the upright position and resolves almost immediately when
the patient lies down. After recovery patients with neurocardiogenic syncope may complain
of a “washed out” and tired feeling.

Valvular heart disease: Cardiac valve disease has many causes. These include congenital
causes, rheumatic fever, atherosclerosis, infarction, hypertension, aging, endocarditis, and
myocardial disease. The symptomatic patient typically presents with symptoms of cardiac
pump failure. Some conditions such as aortic stenosis can present with chest pain similar to
angina or pre-syncope on exertion.
Aortic stenosis: The patient can present with breathlessness, chest pain or tightness
with exertion, palpitations, pre-syncope (a feeling of near blackout) or syncope
(blackout).
Mitral stenosis: The patient can present with breathlessness and can have paroxysmal
nocturnal dyspnoea making them wake at night breathless. They may have
palpitations and may present with ankle swelling.
Aortic regurgitation: The patient can present with breathlessness especially on
exertion, chest pain on exertion, feeling tired, feeling faint, palpitations and symptoms
of heart failure.
Mitral regurgitation: The patient can present with shortness of breath (due to the
increased left atrial pressure), fatigue, orthopnoea (shortness of breath lying flat) and
ankle swelling. Mitral regurgitation causes increased volume in the left atrium and can
lead to pulmonary oedema.

Deep vein thrombosis (DVT): Patient typically presents with a painful swollen calf, usually
after a period of inactivity due to surgery, injury or travel. It is caused by a clot in the venous
system. The patient typically has calf pain, swelling and redness and has engorged
superficial veins. The patient may be asymptomatic and the DVT is only diagnosed when the
patient presents with a pulmonary embolism.

ELM Clinical Skills – Cardiovascular System Reference Guide 30
Pulmonary embolism: Patient typically presents with sudden unexplained shortness of
breath (dyspnoea). If lung infarction occurs the patient can have chest pain that gets worse
with breathing (pleuritic chest pain) and cough up blood (haemoptysis). It can present as
sudden collapse with severe central chest pain, shock, pallor and sweatiness with syncope
and sudden death. A pulmonary embolism is caused by an embolus from a thrombus in the
venous system, most often the leg veins. The patient may have an associated swollen
painful calf due to a deep vein thrombosis.

ELM Clinical Skills – Cardiovascular System Reference Guide 31