ECG Lecture Part 1 ECG Interpretation Selim Krim, MD Assistant Professor
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ECG Lecture ECG Lecture Part 1 Part 1 ECG Interpretation ECG Interpretation Selim Krim, MD Selim Krim, MD Assistant Professor Assistant Professor Texas Tech University Health Sciences Center Texas Tech University Health Sciences Center
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ECG Lecture Part 1 ECG Interpretation Selim Krim, MD Assistant Professor Texas Tech University Health Sciences Center. Step wise approach to ECG. Measurements Rhythm Analysis Conduction Analysis Waveform Description ECG Interpretation Comparison with Previous ECG (if any). - PowerPoint PPT Presentation
Transcript of ECG Lecture Part 1 ECG Interpretation Selim Krim, MD Assistant Professor
ECG Lecture ECG Lecture Part 1 Part 1
ECG InterpretationECG Interpretation
Selim Krim, MDSelim Krim, MDAssistant ProfessorAssistant Professor
Texas Tech University Health Sciences CenterTexas Tech University Health Sciences Center
Step wise approach to ECGStep wise approach to ECG
Measurements
Rhythm Analysis
Conduction Analysis
Waveform Description
ECG Interpretation
Comparison with Previous ECG (if any)
MeasurementsHeart rate 60-90 bpmHeart rate 60-90 bpm
PR interval (from beginning of P to beginning of PR interval (from beginning of P to beginning of QRS) =QRS) =0.12-0.20 sec0.12-0.20 sec
QRS duration (width of most representative QRS) QRS duration (width of most representative QRS) <0.12 sec<0.12 sec
QT interval (from beginning of QRS to end of T) QT interval (from beginning of QRS to end of T) = = 0.42 sec0.42 sec
QRS axis in frontal plane QRS axis in frontal plane
Measurements
Heart rateHeart rate
State atrial and ventricular rate.State atrial and ventricular rate.
P wave rate 60-100 bpmP wave rate 60-100 bpm
Rate < 60 = Rate < 60 = Sinus bradycardiaSinus bradycardia
Rate > 90 = Rate > 90 = Sinus tachycardiaSinus tachycardia
How to calculate Heart RateHow to calculate Heart Rate
Standard textbooks of physiology and medicine mention Standard textbooks of physiology and medicine mention that heart rate (HR) is readily calculated from the ECG that heart rate (HR) is readily calculated from the ECG as follows: HR = 1,500/RR interval in millimeters, HR = as follows: HR = 1,500/RR interval in millimeters, HR = 60/RR interval in seconds, or HR = 300/number of large 60/RR interval in seconds, or HR = 300/number of large squares between successive R waves squares between successive R waves
Measurements
Measurements
The P wave represents atrial activation; the PR The P wave represents atrial activation; the PR interval is the time from onset of atrial activation interval is the time from onset of atrial activation to onset of ventricular activation. The QRS to onset of ventricular activation. The QRS complex represents ventricular activation; the complex represents ventricular activation; the QRS duration is the duration of ventricular QRS duration is the duration of ventricular activation. The ST-T wave represents ventricular activation. The ST-T wave represents ventricular repolarization. The QT interval is the duration of repolarization. The QT interval is the duration of ventricular activation and recovery. The U wave ventricular activation and recovery. The U wave probably represents "after depolarizations" in the probably represents "after depolarizations" in the ventricles. ventricles.
How To Determine Axis
How To Determine Axis
How To Determine Axis
How To Determine Axis
How to Determine Axis
How to Determine Axis
Step wise approach to ECGStep wise approach to ECG
Measurements
Rhythm Analysis
Conduction Analysis
Waveform Description
ECG Interpretation
Comparison with Previous ECG (if any)
Rhythm AnalysisRhythm Analysis
State basic rhythm (e.g., "normal sinus rhythm", "atrial State basic rhythm (e.g., "normal sinus rhythm", "atrial fibrillation", etc.) fibrillation", etc.)
Identify additional rhythm events if present (e.g., Identify additional rhythm events if present (e.g., "PVC's", "PAC's", etc) "PVC's", "PAC's", etc)
Consider all rhythm events from atria, AV junction, and Consider all rhythm events from atria, AV junction, and ventricles ventricles
Rhythm AnalysisRhythm Analysis
Sinus rhythm defined as;Sinus rhythm defined as;
Each P wave is followed by QRSEach P wave is followed by QRS
P wave is positive in lead I, IIP wave is positive in lead I, II
Constant PR intervalConstant PR interval
Rhythm Analysis
Rhythm Analysis
Step wise approach to ECGStep wise approach to ECG
Measurements
Rhythm Analysis
Conduction Analysis
Waveform Description
ECG Interpretation
Comparison with Previous ECG (if any)
Conduction AnalysisConduction Analysis
Sino-Atrial Exit Block (SA Block): Type 1,2
Atrio-Ventricular (AV) Block: 1st, 2nd and 3rd degree
AV Dissociation
Intraventricular Blocks; RBBB, LBBB, LAFB, RPFB, Bifascicular
Nonspecific Intraventricular Conduction Defects (IVCD)
Wolff-Parkinson-White Preexcitation
Conduction Analysis
Step wise approach to ECGStep wise approach to ECG
Measurements
Rhythm Analysis
Conduction Analysis
Waveform Description
ECG Interpretation
Comparison with Previous ECG (if any)
Carefully analyze the 12-lead ECG for abnormalities in each of the waveforms in the order in which they appear:
P waves: are they too wide, too tall, look funny (i.e., are they ectopic), etc.?
QRS complexes: look for pathologic Q waves, abnormal voltage, etc.
ST segments: look for abnormal ST elevation and/or depression.
T waves: look for abnormally inverted T waves.
U waves: look for prominent or inverted U waves.
Waveform Description
Waveform Description
Waveform Description
Waveform Description
Waveform Description
The normal U wave has the same polarity The normal U wave has the same polarity as the T wave and is usually less than as the T wave and is usually less than one-third the amplitude of the T wave. U one-third the amplitude of the T wave. U waves are usually best seen in the right waves are usually best seen in the right precordial leads especially V2 and V3. The precordial leads especially V2 and V3. The normal U wave is asymmetric with the normal U wave is asymmetric with the ascending limb moving more rapidly than ascending limb moving more rapidly than the descending limb (just the opposite of the descending limb (just the opposite of the normal T wave). the normal T wave).
Step wise approach to ECGStep wise approach to ECG
Measurements
Rhythm Analysis
Conduction Analysis
Waveform Description
ECG Interpretation
Comparison with Previous ECG (if any)
ECG Interpretation
This is the conclusion of the above analyses. Interpret the ECG as This is the conclusion of the above analyses. Interpret the ECG as "Normal", or "Abnormal". Occasionally the term "borderline" is used "Normal", or "Abnormal". Occasionally the term "borderline" is used if unsure about the significance of certain findings. List all if unsure about the significance of certain findings. List all abnormalities. Examples of "abnormal" statements are: Inferior MI, abnormalities. Examples of "abnormal" statements are: Inferior MI, probably acute probably acute Old anteroseptal MI Old anteroseptal MI
Left anterior fascicular block (LAFB) Left anterior fascicular block (LAFB)
Left ventricular hypertrophy (LVH) Left ventricular hypertrophy (LVH)
Nonspecific ST-T wave abnormalities Nonspecific ST-T wave abnormalities
Any rhythm abnormalities Any rhythm abnormalities
Step wise approach to ECGStep wise approach to ECG
Measurements
Rhythm Analysis
Conduction Analysis
Waveform Description
ECG Interpretation
Comparison with Previous ECG (if any)
Let’s practice!Let’s practice!
ECG 1
ECG 2
ECG 3
ECG 4
ECG 5
ECG 6
Questions ?Questions ?
Thank youThank you
