ECG 1 ktn 2023 pdf.pdf

Full Transcript

The Electrocardiogram (ECG):
origins and components
Dr K. Thaxter Nesbeth
Physiology Section
Department of Basic Medical Sciences
 The Electrocardiogram (ECG)
Objectives:
At the end of this lecture, you will be able to:
▪ Describe the origins of the electrocardiogram.
▪ Explain the parts of the electrocardiogram in
relationship to the electrical activity of the heart.
 A Brief introduction to ECG
ECG (EKG)
Measurement and recording of the electrical
activity of the heart
Via electrodes placed on the skin in specific
locations
 Electrocardiogram

Waves recorded on international standard
ECG paper
 Electrocardiogram (ECG/EKG)
recording of
electrical activity
of the heart using
electrodes on the
surface
https://www.youtube.c
om/watch?v=RYZ4daFw
Ma8
Components of the ECG

Atrial depolarisation,
initiated by the SA node,
causes the P wave
Components of the ECG

With atrial depolarisation,
complete, the impulse is
delayed at the AV node –
causing isoelectric PR
segment
Components of the ECG

Ventricular depolarisation
begins at the septum, spreads
to the apex and ventricular
muscle, causing the QRS
complex.
 Ventricular Depolarisation
1st: Interventricular septum, wave of
depolarization LEFT TO RIGHT – Q wave
2nd: wave of depolarization from
interventricular septum to right and left
ventricle via apex – R wave
3rd: Depolarisation of posterior part of
muscular left ventricle – S wave
Components of the ECG

Ventricular depolarisation
is complete
Components of the ECG

Ventricular repolarisation
begins at the apex,
causing the T wave
Components of the ECG

Ventricular repolarisation
is complete
 Where is Atrial Repolarization?
Wave is hidden as it takes place at the same
time as ventricular depolarization!
Small atrial muscle mass produces small
potential that is ‘overshadowed’ by the large
QRS complex
 Components of the ECG
Wave: Deflection from isoelectric baseline
Segment: Region between two waves
Interval: Duration of time that includes ONE
or more waves AND often a segment
 P Wave
Amplitude 0.05-
0.25mV
Duration 0.06-0.10
seconds
Waveform is upright
and slightly
asymmetrical

15
 PR Interval

Duration 0.12-0.20
seconds
 QRS Complex
Amplitude 0.5-
3.0mV
Duration 0.06-0.10
seconds
 ST Segment and T Wave
ST segment is
isoelectric line that
follows QRS
complex
T wave is larger,
slightly
asymmetrical
waveform that
follows ST segment
J point is start of ST
segment
 QT Interval
Distance from onset
of QRS complex until
end of T wave
– Measures time of
ventricular
depolarization and
repolarization
Has normal duration
of 0.36 to 0.44
seconds
 Small upright seen
U Wave
following the T
wave, but before
the next P wave
Repolarisation of
papillary muscles /
Purkinje fibers
Voltage low
U wave often goes
unnoticed
Intervals and segments of the ECG
 Recording the
Electrocardiogram
Video demonstrates practical
aspects of performing an ECG
https://www.youtube.com/watch?v=1k4B_fIX_
t0
 Measuring the ECG: Electrodes
form Leads
Depolarisation produces a negative wave
(outside of the cell becomes more negative)
Wave is detected by positive ECG electrode
Electrodes are positioned to create specific
‘Leads’ for a standard ECG
Form an imaginary line in the body along
which the electrical signals are measured
ECG leads are either bipolar or unipolar
 ECG Leads
Each lead provides a different view of the
heart:
– Electrodes are placed on chest, arms and legs
– Sites vary depending on which view of the heart's
electrical activity is being assessed
Direction (up, or down) of waveforms depend
on whether they move toward or away from
the positive electrode

24
ECG Leads
 https://www.youtube.com/watch?v=xIZQRj
kwV9Q
Deflections explained – stop at 3:30sec for
now…
 Limb Leads 1: Bipolar Leads
Record the flow of
the electrical
impulse between
two (one is
positive, the other
is negative)
selected electrodes
Includes I, II and III G
 Bipolar Leads
Record difference in
electrical potential
between a positive and
negative electrode
Uses a third electrode
called a ground (RL)
Remember! = Leads I, II
and III are bipolar
G
Bipolar leads
 Limb Leads 2: Unipolar Leads
Use only one positive electrode and a
reference point calculated by the ECG
machine
Includes leads aVR, aVL, aVF, (unipolar limb
leads)
– and V1 through V6 (chest leads)
 Augmented Limb Leads
aVR, augmented lead toward the right (arm)
aVL, augmented lead toward the left (arm)
aVF, augmented lead toward the foot

Reference point
Limb Electrode Locations
RA electrode
– positioned anywhere on the right arm or
below the right clavicle in the midclavicular
line
LA electrode
– positioned anywhere on the left arm or below
the left clavicle in the midclavicular line
LL electrode
– positioned anywhere on the left leg or left
midclavicular line below the last palpable rib
RL electrode
– positioned on the right leg or right
midclavicular line below the last palpable rib
 Comparing limb leads
Only 1 electrode placed on each limb: provides
information from both bipolar (I,II,III) and
augmented limb leads (aVR, aVL, aVF)
 Bipolar Leads
Axes of these 3 leads
form a triangle around
the heart
Einthoven’s triangle
Used for calculations
when interpreting
ECGs

G
 Chest Leads
Positioned in order
across the chest
 The Precordial (Chest) Leads:V1 through
V6

Chest leads –
- starting over the right atrium with V1, and placed in a semi-circle of
positions leftwards, to the left side of the left ventricle
 The Precordial (Chest) Leads
Chest Electrode Placement
V1: Fourth intercostal space to
the right of the sternum.
V2: Fourth intercostal space to
the Left of the sternum.
V3: Directly between leads V2
and V4.
V4: Fifth intercostal space at
midclavicular line.
V5: Level with V4 at left anterior
axillary line.
V6: Level with V5 at left
midaxillary line. (Directly
under midpoint of armpit)
 12 Lead ECG gives 3-Dimensional view of heart
9 Electrodes (and
ground)
on the extremities
and chest wall
view the heart’s
electrical activity
from the frontal and
horizontal planes
– Provides a cross-
sectional view of the
heart
 Frontal Plane
Leads that view this
plane: limb leads
Include leads I, II, III,
aVR, aVL and aVF
Provide inferior,
superior, and lateral
views of heart
 Horizontal Plane
Precordial or chest
leads
Include leads V1, V2,
V3, V4, V5, and V6
Provide anterior,
and lateral views of
heart
 Standard 12-Lead ECG
Usually performed when
person is resting in supine
position.
Composed of three bipolar
limb leads: I, II, and III; three
augmented voltage leads:
aVR, aVL, aVF; and six chest
or precordial leads: V1 – V6.
All limb leads lie in frontal
plane.
Chest leads circle heart in
(horizontal) transverse
plane.
 Views of heart from 12-Lead ECG

Each lead provides a different electrical angle or picture of the
heart.
Anterior view of heart: V1 – V4.
Lateral view of heart: I, aVL, V5 and V6.
Inferior view of heart: II, III, and aVF.
 ECG videos
https://www.youtu Video
be.com/watch?v=1 demonstrates
k4B_fIX_t0 practical aspects of
performing an ECG
https://www.youtu Video explains the
be.com/watch?v=xI ECG waves, and
ZQRjkwV9Q how they appear
on different leads
 ECG Paper

Each small square equals
– 0.04 sec in duration and 0.1 mV in
amplitude
Five small squares (1 large box) equals
– 0.20 seconds in duration
 Artifact
Markings on ECG
tracing that are not a
product of heart’s
electrical activity
– Patient movement is
among its many
causes
– Can mimic life-
threatening
dysrhythmias
 Summary
Graphic record or tracing is called an
electrocardiogram while the machine that
produces it is called the electrocardiograph
Electrodes placed on patient’s skin detect
heart’s electrical activity
Abnormalities in cardiac rate and/or rhythm
are called dysrhythmias
 Summary
Each lead provides a different view of heart.
Impulses traveling toward a positive electrode
are recorded on ECG as upward deflections.
Impulses traveling away from a positive
electrode or toward a negative electrode are
recorded as downward deflections.
 Summary
Limb leads are produced by placing electrodes
on right arm (RA), left arm (LA) and left leg
(LL).
– Include leads I, II, III, augmented vector right
(aVR), augmented vector left (aVL) and
augmented vector foot (aVF).
Precordial leads include leads V1, V2, V3, V4,
V5, and V6.
 Summary
ECG paper consists of horizontal and vertical
lines that form a grid.
Horizontal measurements used to determine
heart rate and duration of various waveforms,
segments and intervals.
Vertically on ECG paper, distance between
lines, or boxes, represents amplitude in
millimeters (mm) or electrical voltage in
millivolts (mV).
 Summary
Calibration
Artifact is markings on ECG tracing that have
no relationship to electrical activity of the
heart.