Electrocardiography (ECG), Physiology Lectures series by Dr. Naqvi.pptx
BaqirNaqvi4
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Aug 20, 2024
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Electrocardiography (ECG), Physiology Lectures series by Dr. Naqvi.pptx
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ELECTROCARDIOGRAM (ECG) Book Ref: Jaypee . Page. 551- 558 DAKSON Institute of Health Sciences, Islamabad Lecture by Dr. Baqir Raza Naqvi
LECTURE OBJECTIVES Define ECG Identify waves of ECG and the physiological cause of each Define the normal intervals and segments Discuss the bipolar and un ipolar leads and their locations Discuss the bipolar limb lead and the cardiac axis
Electrocardiography Electrocardiography is the technique by which electrical activities of the heart are studied. The spread of excitation through myocardium produces local electrical potential. This technique was discovered by Dutch physiologist, Einthoven Willem, who is considered the father of electrocardiogram (ECG).
INTRODUCTION Cardiac impulse passes through the heart, electrical current spreads from heart into adjacent tissues surrounding the heart. Current spreads all the way to the surface of the body. If electrodes are placed on the chest, opposite sides of the heart, electrical potentials generated by the current can be recorded; the recording is known as an electrocardiogram A record of the waves (impulses) of electrical excitation in the heart is called ECG. It helps in the diagnosis of muscle damage or electrical problems in the heart.
NORMAL IMPULSE CONDUCTION Sinoatrial node AV node Bundle of His Bundle Branches Purkinje fibers 5
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TYPES OF PATHOLOGY IDENTIFY AND STUDY FROM ECGS? Arrhythmias Myocardial ischemia and infarction Pericarditis Chamber hypertrophy Electrolyte disturbances (i.e. hyperkalemia, hypokalemia) Drug toxicity (i.e. digoxin and drugs which prolong the QT interval )
NORMAL ECG The normal ECG is composed of: P wave QRS complex T wave The separate waves: Q wave, the R wave, and the S wave. P wave: Atria depolarize before atrial contraction begins QRS complex: Ventricles depolarize before contraction. P wave and the components of the QRS complex are depolarization waves. The T wave: Ventricles recover from the state of depolarization This process normally occurs in ventricular muscle 0.25 to 0.35 second after depolarization and the T wave is known as a repolarization wave
The ECG Paper
P wave: Atrial depolarization (completed in 0.1 seconds ) Irregular or absent P waves may indicate arrhythmia . The shape of the P waves may indicate atrial problems QT PR 0.12-0.2 s approx. 0.44 s Atrial muscle depolarization P Q R S T
PR interval: Atrial depolarization & conductive time Measured from the P wave to the beginning of the QRS complex . Through the AV node /0.18 seconds (N. R. 0.12 to 0.2 s) QT PR 0.12-0.2 s approx. 0.44 s Atrial muscle depolarization P Q R S T
QRS complex: Ventrical depolarization Equal 0.08-0.12 s (max time 0.1seconds) Very wide and deep Q waves indicate myocardial infarction QT PR 0.12-0.2 s approx. 0.44 s Atrial muscle depolarization Ventricular muscle depolarization P Q QRS S T
QT interval: Ventricular depolarization & re-polarization (equal . 0.4 seconds QT PR 0.12-0.2 s approx. 0.44 s Atrial muscle depolarization Ventricular muscle depolarization Ventricular muscle repolarization P Q R S T
ST segment: (QT – QRS) Ventricular depolarization (equal . 0.32 seconds ) QT PR 0.12-0.2 s approx. 0.44 s Atrial muscle depolarization Ventricular muscle depolarization Ventricular muscle repolarization P Q R S T
Book Ref: Jaypee. Page. 551- 558
ECG LEADS Leads are electrodes which measure the difference in electrical potential between either: 1. Two different points on the body (bipolar leads) 2. One point on the body and a virtual reference point with zero electrical potential, located in the center of the heart ( uni -polar leads).
ECG LEADS The standard ECG has 12 leads : 3 Standard Limb Leads 3 Augmented Limb Leads 6 Precordial Leads The axis of a particular lead represents the viewpoint from which it looks at the heart.
STANDARD LIMB LEADS
STANDARD LIMB LEADS AUGMENTED LIMB LEADS
ALL LIMB LEADS
PRECORDIAL LEADS
SUMMARY OF LEADS Limb Leads Precordial Leads Bipolar I, II, III (standard limb leads) - Unipolar aVR , aVL , aVF (augmented limb leads) V 1 -V 6
ARRANGEMENT OF LEADS ON THE ECG
ANATOMICAL REPRESENTATION (SEPTUM)
ANATOMIC PRESENTATION (ANTERIOR WALL)
ANATOMICAL PRESENTATION (LATERAL WALL)
ANATOMICAL PRESENTATION (INFERIOR WALL)
ANATOMICAL PRESENTATION (SUMMARY)
RULE OF 300 Take the number of “big boxes” between neighboring QRS complexes, and divide this into 300. The result will be approximately equal to the heart rate Although fast, this method only works for regular rhythms. DETERMINING THE HEART RATE 1. Rule of 300 2. 10 Second Rule
WHAT IS THE HEART RATE? (300 / 6) = 50 bpm (300 / 4) = 75 bpm (300 / 1.5) = 200 bpm
10 Second Rule As most ECGs record 10 seconds of rhythm per page, one can simply count the number of beats present on the ECG and multiply by 6 to get the number of beats per 60 seconds. This method works well for i rregular rhythms .
WHAT IS THE HEART RATE? 33 x 6 = 198 bpm The Alan E. Lindsay ECG Learning Center ; http://medstat.med.utah.edu/kw/ecg/
The QRS Axis The QRS axis represents the net overall direction of the heart’s electrical activity. Abnormalities of axis can hint at: Ventricular enlargement Conduction blocks (i.e. hemi-blocks )
The QRS Axis By near-consensus, the normal QRS axis is defined as ranging from -30 ° to +90 ° . -30 ° to -90 ° is referred to as a left axis deviation (LAD) +90 ° to +180 ° is referred to as a right axis deviation (RAD)
The QRS Axis
ST Elevation - Acute MI or Angina ST depression >1 mm - Ischemia/Angina (flat), digoxin (sloping) Q waves in 2 or more leads - Previous MI (Transmural) Diffuse ST elevation with PR depression – Pericarditis T wave inversions and non-specific ST changes - Can be seen both in normal cases and in many diseases, therefore not useful for diagnosis. Tall P waves - Right atrial hypertrophy Broad (and often bifid) P waves - Left atrial hypertrophy Peaked T waves or loss of P wave – Hyperkalemia U waves - Hypokalemia ('Hump' at the end of T wave) Prolonged QT interval – Hypocalcemia Shortened QT interval - Hypercalcemi Clinical Significance of different waves and segments of ECG
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