670 likes | 936 Views
Arrhythmia Recognition An Emergency View. DR. SATHISH BABU P Emergency & Critical care Physician Vinayaka Mission University SALEM. Cardiac conduction. ELECTROCARDIOGRAM. “5” steps approach to arrhythmias
E N D
Arrhythmia Recognition An Emergency View DR. SATHISH BABU P Emergency & Critical care Physician Vinayaka Mission University SALEM
ELECTROCARDIOGRAM “5” steps approach to arrhythmias Step1: Is there a “QRS” Step2: Is there a “P” Wave Step3: What is the relationship between the P waves and the QRS complexes? Step4: Calculate rate Step5:Miscellaneous
Is there a “QRS”(No pulse) YES NO NARROW WIDE CHAOTIC FLAT LINE PEA Asystole VT VF
2) Is there a “P” Wave YES NO RR Interval RATE MORPHOLOGY VARY CONSTANT Inverted 220 to 350 AF JUNCTIONAL JUNCTIONAL Atrial Flutter
3)What is the relationship between the P waves and the QRS complexes?
n“P” = n“QRS” ? Yes No PR interval PR interval Constant ? < 0.2 > 0.2 Normal Io AVB No Yes IIoAVB type 2 RR interval Yes IIIoAVB HEART BLOCK Constant? No Type1 IIo
P-R Interval IST Degree heart block n“P” = n“QRS” ? P-R interval is>0.2 Sec
n“P” = n“QRS” ? Yes No PR interval PR interval Constant ? < 0.2 > 0.2 Normal Io AVB No Yes IIoAVB type 2 RR interval Yes IIIoAVB HEART BLOCK Constant? No Type1 IIo
n“P” = n“QRS” ? Yes No PR interval PR interval Constant ? < 0.2 > 0.2 Normal Io AVB No Yes IIoAVB type 2 RR interval Yes IIIoAVB HEART BLOCK Constant? No Type1 IIo
IIIrd Degree heart block n“P” is not equal to n“QRS”? PR intervals are not constant RR intervals are constant
n“P” = n“QRS” ? Yes No PR interval PR interval Constant ? < 0.2 > 0.2 Normal Io AVB No Yes IIoAVB type 2 RR interval Yes IIIoAVB HEART BLOCK Constant? No Type1 IIo
IInd Degree Type-I heart block n“P” is not equal to n“QRS” ? Both PR and RR intervals are not constant PROGRESSIVE PROLONGATION OF ‘P-R’ INTERVAL DROPPED ‘QRS’ COMPLEX
4)Calculating Heart Rates A Count the number of R waves in a 6-second strip and multiply by 10.(especially for irregular rhythm) • Not very accurate • Used only with very quick estimate
Calculating Heart Rates(cont..) B Count the number of large squares between two consecutive R waves and 300 / Big squares • Very quick • Not very accurate with fast rates • Used only with regular rhythms
Calculating Heart Rates (cont..) C Count the number of small squares between two consecutive R waves and or 1500 / small squares. . • Most accurate • Used only with regular rhythms • Time consuming
Calculating Heart Rates (cont..) D Count the number of BIG squares between two consecutive R waves in descending order as 300,150,100,75,60,50... • Not very accurate • Used only with regular rhythms • Time saving
Supraventricular Tachycardia • Narrow complex • Regular Rate 140 to 220 / minute
VT SVT with aberrancy • Capture beat • Fusion beat • Concordance • Time required to reach either the peak of R wave / the nadir of the S wave > 0.07 second • NO capture or fusion beats • Concordance leads will not have the same polarity • Time required to reach either the peak of R wave / the nadir of the S wave < 0.07 second
ECG Criteria • Concordance • All the ventricular complexes in V1 –V6 is negative or positive diagnosis – VT • Concordant negativity – RVT • Concordant positivity – LVT
VT SVT with aberrancy • Tall R – VT • A complete or almost complete absence of any positive deflection in V6 (QS or rS) – Diagnostic of VT • Tall R1 - RBBB • A triphasic QRS morphology in lead V6- Diagnostic of SVT with aberrancy
Tall R1 - RBBB Tall R – VT complete absence of any positive deflection in V6 A triphasic QRS