APPROACH TO TACHYCARDIA. Goals  To make tachycardia “less scary”  To give you an approach to tachycardia  Pearls of interpretating 12-2-9.

Slides:

Advertisements

Similar presentations

UNC Emergency Medicine Medical Student Lecture Series

Advertisements

ACLS Rhythms Cheat Sheet

Arrhythmias of Formation Chapters 4-5

ECG Rhythm Interpretation

Name That Rhythm!.

Chapter 2 for 12 Lead Training -RHYTHM PRACTICE-

Introduction to Electrocardiography & Dysrhythmias

Basic Dysrhythmia Kamlya balgoon 2009.

ECG Interpretation Criteria Review

Supraventricular Tachycardia: Making the diagnosis

ECG Interpretation.

Welcome to ASATT Region 7 Educational Meeting

Heart Arrhythmia's Brandy Parker Brianne Negen Jeremy Grimm

Cardiovascular System Assessments

Presentation Information

What’s Wrong With My Patient?

Dysrhythmia examples for residents Elias B Hanna, LSU New Orleans, Cardiology.

Normal ECG: Rate and Rhythm

Clk. Alexander L. Gonzales II December 14, EKG Characteristics: Regular narrow-complex rhythm Rate bpm Each QRS complex is proceeded by a.

Kamlya balgoon 2009 Ventricular Rhythms General characteristics  Wide QRS.  NO P wave  Mostly very fast  Could be Lethal kemo 2009.

Arrhythmia recognition and treatment

Basic Dysrhythmia &Recording ECG

EKG Interpretation.

Basic ECG Strips Sampler of 46 ECG Strips of Cardiac Rhythms.

Electrocardiogram Primer (EKG-ECG)

Prepared by : ANWAR ISSA RN-BSN-CCRT-ICU. P wave : is P wave normal ? PR interval : is PR interval normal ? QRS complex : is QRS normal ? P-QRS relation.

 Any atrial area may originate an impulse.  Rhythms have upright P waves preceding each QRS complex.  Not as well-rounded  Heart rates usually from.

EKG Interpretation: Arrhythmias Humayun J. Chaudhry, D.O., FACP, FACOI Assistant Dean for Pre-Clinical Education and Chairman, Department of Medicine N.Y.

Fast & Easy ECGs – A Self-Paced Learning Program

Disease of Cardiac System

EKG Interpretation.

EKG Interpretation: Arrhythmias Mustafa Salehmohamed, D.O. Assistant Clinical Instructor Department of Medicine N.Y. College of Osteopathic Medicine October.

Introduction to ECGs. Conduction System Heart Beat Graphic from Boston Scientific International. Start the Heart.

ECG Tutorial: Rhythm Recognition Review – the systematic approach Rhythm – the hardest part! –Again – be systematic –Mind your p ’ s & q ’ s & follow the.

September 23, 2010 Morning Report. ECG Rate Rhythm What do you think? What do you want to do?

Name this dysrhythmia:. Idioventricular (ventricular bradycardia)

Morning report ECG Elias B Hanna, MD LSU New Orleans, Cardiology.

Tachyarrhythmia Gaurav Panchal. Arrhythmogenesis Impulse formation –Automaticity – inappropriate Tachy / brady; accelerated Ventricular rate after MI.

ECGs AFMAMS Resident Orientation March Lecture Outline ECG Basics Importance of systematically reading ECGs Rate Rhythm Axis Hypertrophy Intervals.

Clk. Alexander L. Gonzales II December 14, SINUS RHYTHM  >60bpm and

Adel Hasanin, MRCP (UK), MS (Cardiology)

By Dr. Zahoor Atrial Fibrillation There are no P-waves, QRS complexes appear irregularly irregular. 4.

Normal EKG – P wave: Atrial depolarization – PR interval: < 0.20 sec – QRS complex: ventricular depolarization – QRS interval < 0.10 sec SA 0.10 – 0.12.

Kamlya balgoon 2009 AV Blocks  AV block occur when the conduction of impulse through AV node decrease or stop  Prolonged P-R interval or more P waves.

ECG Part II. Rate-measure of frequency of occurrence of cardiac cycles(b/m) < 60 beats/min is a bradycardia beats/min is normal >100 beats/min.

ECG intereptation Abdualrahman ALshehri Lecturer King Saud University

 Any atrial area may originate an impulse.  Rhythms have upright P waves preceding each QRS complex.  Not as well-rounded  Heart rates usually from.

 A premature ventricular complex (PVC) arises from an irritable table site within either ventricle.  A full compensatory pause often follows a PVC.

Q I A 6 Fast & Easy ECGs – A Self-Paced Learning Program QRS Complexes.

Aims The ECG complex Step by step interpretation Rhythm disturbances Axis QRS abnormalities Acute and chronic ischaemia Miscellaneous ECG abnormalities.

Thank you for this difficult ECG

ARRHYTHMIA Objectives At the end of this session students should be able to:  Distinguish the normal from abnormal rhythms.  Understand the pathophysiologic.

Introduction to Cardiac Arrythmias Arrythmia is a generalized term used to denote disturbances in the heart's rhythm. Normal sinus rhythm is characterized.

ECG Review Atrial and Ventricular Rhythms. Atrial rhythms Do not always have a visible P wave Usually have a QRS May have a T wave also, but it may be.

Instructions for using this template. Remember this is Jeopardy, so where I have written “Answer” this is the prompt the students will see, and where.

Lecture Objectives Describe sinus arrhythmias Describe the main pathophysiological causes of cardiac arrhythmias Explain the mechanism of cardiac block.

EKG’s By: Robby Zehrung. Leads  In a 3-lead View there are two types of Leads:  Bipolar  Lead I: Right Arm to Left Arm  Lead II: Right Arm to Left.

Palpitations and Common Arrhythmias J. Philip Saul, M.D. West Virginia University Morgantown, WV.

Chapter 5. Remember…  If sinus node loses its pacemaking role for whatever reason, the next fastest site will take over.  Rhythms that start in the.

Arrhythmias and EKGs.

Rhythm Practice Wendy Langen.

RHYTHM ANALYSIS DAN MUSE, MD.

ARRHYTHMIA DR MANSOUR ALQURASHI

What is the QRS axis? Is it normal or abnormal?

EKGs…The Basics for FP Residents

Differential diagnosis in narrow QRS complex tachycardias

ECG Review Atrial and Ventricular Rhythms

ECG Dr. Sara Al Abdulhadi.

Basic Rhythm Recognition

Presentation transcript:

APPROACH TO TACHYCARDIA

Goals  To make tachycardia “less scary”  To give you an approach to tachycardia  Pearls of interpretating

Tachycardia Definition – HR > 100bpm – Or Cycle Length < 600msec Narrow complex tachycardia – QRS < 120msec Wide complex tachycardia – QRS > 120 msec

Narrow Complex Tachycardia What are the questions to ask?  Is the rhythm regular or irregular?  Is there P with everything QRS or is P > QRS?  How did the tachycardia start, with PAC or PVCs?  How did the tachycardia terminate, with P or QRS?

Sinus tachycardia  There is one P with one QRS  Regular rhythm

Atrial Flutter  More P then QRS, 3:1, 4:1 ratio  Regular Rhythm  Saw tooth appearance

Atrial Tachycardia P before QRS. (may have different p morphology) May be indistinguishable from sinus tachycardia Usually abrupt onset and offset (as opposed to gradual with sinus tachycardia

Multifocal atrial tachycardia One P wave with one QRS Irregular rhythm Varying p wave morphology and PR segments Usually Seen in patients with lung disease

Questions?

Atrial fibrillation  No clear visible P waves  Irregular rhythm

Atrial Fibrillation

Supraventricular tachycardia  Narrow complex, regular  Starts and stops suddenly, usually with PAC  May see inverted p waves in the ST segment or T wave  P waves may be invisible

Narrow Complex Tachycardia RegularIrregular Irregularly Irregular: Afib Multifocal Atach Regularly Irregular: Aflutter with variable response Atach with var response P before QRS: Sinus tachy Atach Aflutter with 1:1 AV No p wave: SVT Atach ?very fast AFIB P>QRS: Aflutter

Click to edit the outline text format Second Outline Level  Third Outline Level Fourth Outline Level  Fifth Outline Level  Sixth Outline Level  Seventh Outline Level  Eighth Outline Level Ninth Outline LevelClick to edit Master text styles – Second level Third level – Fourth level » Fifth level Questions?

WIDE COMPLEX TACHYCARDIAS

Ventricular tachycardia

Wide complex tachycardia May be monomorphic or polymorphic Usually preceded by PVC Look for more QRS then P

Polymorphic VT/Torsade de Pointes Classic pattern of “twisting” of QRS in an axis Can be seen with electrolyte abnormalities- Hypo K, Hypo Mg or Long QT syndrome Typical onset- bradycardia, long R-R interval followed by premature ventricular complex (PVC)

SVT with Aberrancy SVT with native bundle branch block or rate-related aberrancy May be difficult to distinguish VT from SVT with aberrancy even with most skilled Electrophysiologists

Ventricular Fibrillation  No clear visible P  Very fast > 300 bpm

** This may not be ASYSTOLE ALWAYS check that leads are properly put on ALWAYS check gain is not too low!

Wide Complex tachycardia

Questions ?