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Elektrokardiogramm) Is A Graphic Produced by An Electrocardiograph

An ECG records the electrical activity of the heart using electrodes placed on the limbs and chest. It produces a graph of the heart's voltage over time. There are 12 standard leads that measure the heart's electrical activity from different angles, including 6 chest leads (V1-V6) that view the anterior heart and 3 limb leads (I, II, III) that view the frontal plane. The combination of these 12 leads allows doctors to understand the heart's normal and abnormal electrical patterns and diagnose cardiovascular conditions.

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Reverie Manalaysay
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216 views5 pages

Elektrokardiogramm) Is A Graphic Produced by An Electrocardiograph

An ECG records the electrical activity of the heart using electrodes placed on the limbs and chest. It produces a graph of the heart's voltage over time. There are 12 standard leads that measure the heart's electrical activity from different angles, including 6 chest leads (V1-V6) that view the anterior heart and 3 limb leads (I, II, III) that view the frontal plane. The combination of these 12 leads allows doctors to understand the heart's normal and abnormal electrical patterns and diagnose cardiovascular conditions.

Uploaded by

Reverie Manalaysay
Copyright
© Attribution Non-Commercial (BY-NC)
We take content rights seriously. If you suspect this is your content, claim it here.
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Download as DOC, PDF, TXT or read online on Scribd
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An electrocardiogram (ECG or EKG, abbreviated from the German

Elektrokardiogramm) is a graphic produced by an electrocardiograph,


which records the electrical voltage in the heart in the form of a continuous
strip graph. It is the prime tool in cardiac electrophysiology, and has a
prime function in screening and diagnosis of cardiovascular diseases.

Lead placement

An ECG is constructed by measuring electrical potential between various


points of the body using a galvanometer. Leads I, II and III are measured
over the limbs: I is from the right to the left arm, II is from the right arm to the
left leg and III is from the left arm to the left leg. From this, the imaginary point
V is constructed, which is located centrally in the chest above the heart. The
other nine leads are derived from potential between this point and the three
limb leads (aVR, aVL and aVF) and the six precordial leads (V1-6).

Related Topics:
Electrical potential -
Galvanometer

~~~~~~~~~~

Therefore, there are twelve leads in total. Each, by their nature, record
information from particular parts of the heart:

~~~~~~~~~~

• The inferior leads (leads II, III and aVF) look at electrical
activity from the vantage point of the inferior region (wall) of the
heart. This is the apex of the left ventricle.
• The lateral leads (I, aVL, V5 and V6) look at the electrical
activity from the vantage point of the lateral wall of the heart, which
is the lateral wall of the left ventricle.
• The anterior leads, V1 through V6, and represent the anterior
wall of the heart, or the frontal wall of the left ventricle.
• aVR is rarely used for diagnostic information, but indicates if
the ECG leads were placed correctly on the patient.

Understanding the usual and abnormal directions, or vectors,


of depolarization and repolarization yields important diagnostic
information. The right ventricle has very little muscle mass. It
leaves only a small imprint on the ECG, making it more difficult
to diagnose than changes in the left ventricle.

Rela
ted
Topi
cs:
Ventr
icle

~~~~~~~~~~

The leads measure the average electrical activity


generated by the summation of the action potentials of the
heart at a particular moment in time. For instance, during
normal atrial systole, the summation of the electrical
activity produces an electrical vector that is directed from
the SA node towards the AV node, and spreads from the
right atrium to the left atrium (since the SA node resides
in the right atrium). This turns into the P wave on the EKG,
which is upright in II, III, and aVF (since the general
electrical activity is going towards those leads), and
inverted in aVR (since it is going away from that lead).

It is important to remember that the 12-lead ECG provides


spatial information about the heart's electrical activity in 3
approximately orthogonal directions:

Right Left
Superior Inferior
Anterior Posterior

Each of the 12 leads represents a particular


orientation in space, as indicated below (RA = right
arm; LA = left arm, LF = left foot):

Bipolar limb leads (frontal plane):


Lead I: RA (-) to LA (+) (Right Left, or lateral)

Lead II: RA (-) to LF (+) (Superior Inferior)

Lead III: LA (-) to LF (+) (Superior Inferior)

Augmented unipolar limb leads (frontal


plane):
Lead aVR: RA (+) to [LA & LF] (-)
(Rightward)
Lead aVL: LA (+) to [RA & LF] (-)
(Leftward)

Lead aVF: LF (+) to [RA & LA] (-)


(Inferior)

Unipolar (+) chest leads


(horizontal plane):

Leads V1, V2, V3: (Posterior


Anterior)

Leads V4, V5, V6:(Right Left, or


lateral)

Behold: Einthoven's Triangle! Each of the 6 frontal plane leads has a


negative and positive orientation (as indicated by the '+' and '-' signs). It is
important to recognize that Lead I (and to a lesser extent Leads aVR and
aVL) are right ⇔left in orientation. Also, Lead aVF (and to a lesser extent
Leads II and III) are superior ⇔inferior in orientation. The diagram below
further illustrates the frontal plane hookup.

LOCATION OF CHEST ELECTRODES IN 4TH AND 5TH INTERCOSTAL


SPACES:
V1: right 4th intercostal space

V2: left 4th intercostal space

V3: halfway between V2 and V4

V4: left 5th intercostal space, mid-clavicular line

V5: horizontal to V4, anterior axillary line

V6: horizontal to V5, mid-axillary line

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