Through out in diversification, monitoring aspect is quite a crucial ideal aspect of focusing on, ECG -ELECTROCARDIOGRAM is abig adjustement for the monitoring of patients cardiac activity. On the above slide slot is emphasized on the better understanding of the ECG.
2. Cont:
An electrocardiogram — also called ECG Or EKG
INDICATION FOR USE
Noninvasive – Used to diagnose many common heart problems.
A health care provider might use an electrocardiogram to determine or detect the
following:
Irregular heart rhythms (arrhythmias)
If blocked or narrowed arteries in the heart (coronary artery disease) are causing
chest pain or a heart attack
Whether you have had a previous heart attack
How well certain heart disease treatments, such as a pacemaker, are working
3. Signs and symptoms
• Patients may need ECG if they have the following symptoms
• Chest pain
• Dizziness, lightheadedness or confusion
• Heart palpitations
• Rapid pulse
• Shortness of breath
• Weakness, fatigue or a decline in ability to exercise
4. Cont:
If symptoms come and go, they may not be detected during a standard ECG
recording.
A health care provider might recommend remote or continuous ECG monitoring .
5. Types
Holter monitor. A Holter monitor is a small, wearable device that records a
continuous ECG, usually for 24 to 48 hours.
Event monitor. This portable device is similar to a Holter monitor, but it records
only at certain times for a few minutes at a time.
Can be worn longer than a Holter monitor, typically 30 days.
Patient can push a button when they feel symptoms.
Some devices automatically record when an irregular rhythm is detected.
6.
7. Application
During an ECG, up to 12 sensors (electrodes) are attached to the chest and limbs
The electrodes are sticky patches with wires that connect to a monitor.
They record the electrical signals that make the heart beat.
A computer records the information and displays it as waves on a monitor or on
paper.
Patient can breathe during the test, but will need to lie still.
Keep the patient warm and ready to lie still.
Moving, talking or shivering may interfere with the test results.
A standard ECG takes a few minutes.
8. RESULTS OF ECG
ECG results can give a health care provider details about the following:
Heart rate.
Usually, heart rate can be measured by checking the pulse.
An ECG may be helpful if the pulse is difficult to feel or too fast or too irregular to
count accurately.
An ECG can help identify an unusually fast heart rate (tachycardia) or an
unusually slow heart rate (bradycardia).
Heart rhythm.
An ECG can detect irregular heartbeats (arrhythmias).
An arrhythmia may occur when any part of the heart's electrical system doesn't
work properly.
9. Cont:
Heart attack.
An ECG can show evidence of a previous heart attack or one that's currently
happening.
The patterns on the ECG may help determine which part of the heart has been
damaged, as well as the extent of the damage.
Blood and oxygen supply to the heart.
An ECG done while having symptoms can help health care provider determine
whether reduced blood flow to the heart muscle is causing the chest pain.
Heart structure changes.
An ECG can provide clues about an enlarged heart, heart defects and other heart
problems.
10. Application
Ask the patient to undress down to the waist and lie down
Remove excess hair where necessary
Attach limb leads (anywhere on the limb)
Attach the chest leads
o V1 and V2: either side of the sternum on the fourth rib (count down from the sternal angle, the second rib
insertion)
o V4: on the apex of the heart (feel for it)
o V3: halfway between V2 and V4
o V5 and V6: horizontally laterally from V4 (not up towards the axilla)
Ask the patient to relax
Press record
12. Limb leads
Three bipolar leads and three unipolar leads are obtained from three electrodes attached to
the left arm, the right arm, and the left leg, respectively.
(An electrode is also attached to the right leg, but this is an earth electrode.)
The bipolar limb leads reflect the potential difference between two of the three limb
electrodes:
lead I: right arm–left arm
lead II: right arm–left leg
lead III: left leg–left arm
13. Cont:
The unipolar leads reflect the potential difference between one of the three limb electrodes
and an estimate of zero potential – derived from the remaining two limb electrodes.
These leads are known as augmented leads.
The augmented leads and their respective limb electrodes are:
aVR lead: right arm
aVL lead: left arm
aVF lead: left leg
14. Chest leads
Another six electrodes, placed in standard positions on the chest wall, give rise to a further
six unipolar leads – the chest leads (also known as precordial leads), V1–V6.
The potential difference of a chest lead is recorded between the relevant chest electrode and
an estimate of zero potential – derived from the average potential recorded from the three limb
leads.
16. Cont:
P wave
The P wave is a small deflection wave that represents atrial depolarization.
PR interval
The PR interval is the time between the first deflection of the P wave and the first deflection of
the QRS complex.
QRS wave complex
The three waves of the QRS complex represent ventricular depolarization.
Note: the most confusing aspects of ECG reading is the labeling of these waves.
The rule is: if the wave immediately after the P wave is an upward deflection, it is an R wave; if
it is a downward deflection, it is a Q wave:
17. Cont:
Small Q waves correspond to depolarization of the interventricular septum.
Q waves can also relate to breathing and are generally small and thin.
They can also signal an old myocardial infarction (in which case they are big and wide)
the R wave reflects depolarization of the main mass of the ventricles –hence it is the largest
wave
the S wave signifies the final depolarization of the ventricles, at the base of the heart
18. Cont:
ST segment
The ST segment, which is also known as the ST interval, is the time between the end of the
QRS complex and the start of the T wave.
It reflects the period of zero potential between ventricular depolarization and repolarization.
T wave
T waves represent ventricular repolarization (atrial repolarization is obscured by the large
QRS complex).
20. Heart Rate
Identify the QRS complex (this is generally the biggest wave); count the number of large
squares between one QRS wave and the next; divide 300 by this number to determine the rate
21. Cont:
Number of large squares between QRS complexes Heart rate (bpm)
5 60
4 75
3 100
2 150
22. Heart Rhythm
P waves are the key to determining whether a patient is in sinus rhythm or not.
If P waves are not clearly visible in the chest leads, look for them in the other leads.
The presence of P waves immediately before every QRS complex indicates sinus rhythm.
If there are no P waves, note whether the QRS complexes are wide or narrow, regular or
irregular.
23. No P waves and irregular narrow QRS
Complexes
This is the hallmark of atrial fibrillation.
Sometimes the baseline appears "noisy" and sometimes it appears entirely flat.
However, if there are no P waves and the QRS complexes appear at randomly irregular
intervals, the diagnosis is atrial fibrillation.
25. Sawtooth P waves
A sawtooth waveform signifies atrial flutter .
The number of atrial contractions to one ventricular contraction should be specified.
27. ST Segment Changes
The ST segment extends from the end of the S wave to the start of the T wave.
It should be flat or slightly upsloping and level with the baseline.
Elevation of more than two small squares in the chest leads or one small square in the limb
leads, combined with a characteristic history, indicates the possibility of MI
ST depression is diagnostic of ischemia .
It is worth noting that although ST elevation can localize the lesion (eg, anterior MI,
inferior MI), ST depression cannot.
Concave upwards ST elevation in all 12 leads is diagnostic of pericarditis.
28. T waves
In a normal ECG, T waves are upright in every lead except aVR.
T-wave inversion can represent current ischemia or previous infarction .
In combination with LVH and ST depression, it can represent "strain". This form of LVH
carries a poor prognosis.
30. QT
Long QT syndrome may also be drug-induced.
Once this occurs, the responsible drug needs to be discontinued.
31. Question
A Nurse is caring for a patient with Atrial Fibrillation, in addition to
antidysrhythmic, what other medication does the nurse administer?
a. Heparin
b. Atropin
c. Amoxicillin
d. Magnesium sulphate