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11/13/24, 7\:05 PM Guide | JVP overview

JVP overview

Table of contents

Introduction

This guide provides an overview of jugular venous pressure (JVP) including background physiology, how the JVP should be
assessed, causes of a raised JVP and the JVP waveform.

Background

Jugular venous pressure (JVP) provides an indirect measure of central venous pressure. This is possible because the internal
jugular vein (IJV) connects to the right atrium without any intervening valves, resulting in a continuous column of blood. The
presence of this continuous column of blood means that changes in right atrial pressure are re
atrial pressure results in distension of the IJV).
The IJV runs between the medial end of the clavicle and the ear lobe, under the medial aspect of the sternocleidomastoid,
making it di
sternocleidomastoid muscle).
Because of the inability to easily visualise the IJV, it's tempting to use the external jugular vein (EJV) as a proxy for assessment
of central venous pressure during clinical assessment. However, because the EJV typically branches at a right angle from the
subclavian vein (unlike the IJV which sits in a straight line above the right atrium) it is a less reliable indicator of central venous
pressure.
Anterior view of the SVC, EJV and IJV
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Why do we assess the JVP?

Assessment of the JVP can provide insight into the patient's
hypervolaemic the JVP will appear raised due to increased venous pressure within the right atrium causing a higher than
normal column of blood within the IJV.

Di

When trying to identify the venous pulsation associated with the JVP, it's important to distinguish it from the arterial pulsation of
the nearby carotid artery.
Di
Number of pulses\: the JVP has a double waveform pulse (i.e. 2 pulses) whereas the carotid artery has a single pulsation for
each cardiac cycle.
Palpability\: the pulse of the JVP is not easily palpable, whereas the carotid pulse is typically easy to feel.
The double waveform pulsation associated with the JVP re
changes as a Mexican wave; starting in the right atrium and travelling to the IJV where we observe the pulsations.

How do we assess the JVP?

Assessment of the JVP

1. Position the patient in a semi-recumbent position (at 45ยฐ).
2. Ask the patient to turn their head slightly to the left.
3. Inspect for evidence of the IJV, running between the medial end of the clavicle and the ear lobe, under the medial aspect of
the sternocleidomastoid (it may be visible just above the clavicle between the sternal and clavicular heads of the
sternocleidomastoid). The IJV has a double waveform pulsation, which helps to di
carotid artery.
4. Measure the JVP by assessing the vertical distance between the sternal angle and the top of the pulsation point of the IJV
(in healthy individuals, this should be no greater than 3cm).
Assessing the JVP
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Hepatojugular re

The hepatojugular re
This test can be used to further assess the JVP, particularly if you are unsure if the vessel you are observing is the internal
jugular vein.
Eliciting hepatojugular re
To be able to perform the test, 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 (45ยบ).
Apply direct pressure to the liver.
Closely observe the IJV for a rise.
In healthy individuals, this rise should last no longer than 1-2 cardiac cycles (it should then fall).
If the rise in JVP is sustained and equal to or greater than 4cm this is deemed a positive result.
This assessment can be uncomfortable for the patient and therefore it should only be performed when felt necessary (an
examiner will often prevent you from performing it in an OSCE but you should mention it).
Assess for hepatojugular re

Causes of a raised JVP

A raised JVP indicates the presence of venous hypertension. Cardiac causes of a raised JVP include\:
Right-sided heart failure\: commonly caused by left-sided heart failure. Pulmonary hypertension is another cause of right-
sided heart failure, often occurring due to chronic obstructive pulmonary disease or interstitial lung disease.
Tricuspid regurgitation\: causes include infective endocarditis and rheumatic heart disease.
Constrictive pericarditis\: often idiopathic, but rheumatoid arthritis and tuberculosis are also possible underlying causes.

JVP waveform

The JVP has its own waveform which consists of 5 parts\:
A wave
X descent (part 1)
C wave
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X descent (part 2)
V wave
Y descent

A wave

The A wave is caused by the contraction of the right atrium, where blood is being pumped through the tricuspid valve into the
right ventricle. Increased pressure in the right atrium also forces blood upwards towards and into the IJV. This in
blood into the IJV is known as the A wave.

X descent (part 1)

The
superior vena cava, reducing the height of the column of blood sitting in the IJV (i.e. causing a drop in the JVP). The right
ventricles relaxation also contributes to the X descent, as blood exits the right atrium into the right ventricle, further reducing
the column of blood in the SVC and IJV.

C wave

The C wave is caused by the forceful contraction of the right ventricle which ejects blood out of the heart into the pulmonary
artery. As this occurs, the pressure within the right ventricle increases signi
so that it projects partially into the right atrium. This sudden projection of the tricuspid valve into the right atrium generates
upwards force which is transmitted into the SVC and ultimately the IJV, causing a temporary rise in the JVP referred to as the C
wave.

X descent (part 2)

The second part of the X descent occurs during the
most contracted state, it is physically much smaller than when in its relaxed state, resulting in the creation of extra space within
the pericardium. This extra space within the pericardium allows the right atrium to expand and begin
initial phase of atrial
descent.

V wave

The V wave is caused by the relaxation of the right atrium whilst the tricuspid valve is still closed. The relaxation of the right
atrium combined with a closed tricuspid valve results in blood being drawn into the column of blood that begins at the right
atrium and extends up to the IJV. As blood is drawn into the column, whilst the tricuspid valve is closed, the level of the JVP is
temporality increased.

Y descent

The Y descent occurs when the tricuspid valve opens, resulting in blood from the right atrium
blood from the SVC and IJV
decrease in the JVP.

References

1. Rivard AB, Kortz MW, Burns B. Anatomy, Head and Neck, Internal Jugular Vein. [Updated 2020 May 2]. In\: StatPearls [Internet].
Treasure Island (FL)\: StatPearls Publishing; 2020 Jan-
. Available from\: [LINK].
2. Applefeld MM. The Jugular Venous Pressure and Pulse Contour. In\: Walker HK, Hall WD, Hurst JW, editors. Clinical Methods\: The
History, Physical, and Laboratory Examinations. 3rd edition. Boston\: Butterworths; 1990. Chapter 19. Available from\: [LINK].
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