SlideShare ist ein Scribd-Unternehmen logo

Ecg

Als PPT, PDF herunterladen
Mohanad Aljashamy
Mohanad Aljashamy
Gesundheit & MedizinBusinessTechnologie
1 von 36
A guide to electrocardiography Reading and Applying
Major Confusion!!!  Reading an ECG and deciphering what it is telling you can be confusing  ECG’s dictate the electrical impulses of the heart  Electrical impulses are what make the heart contract  This contraction is also known as depolarization
A Little Vocabulary •Artifact: A wave that arises from sources other than the heart or brain. •Cardiac Arrhythmia: Any electrical activity of the heart that differs from that of a healthy awake patient. Can be innocuous or life threatening. •Deflection: movement from one side to the other. •Depolarization: Contractions as a result of cells stimulated by electricity. •Ectopic: occurring in an abnormal position. •Lead: A pair of electrodes, connected by an axis that provides a particular view of the of the electrical activity of the heart. •Repolarization: Relaxation of cells after depolarization.
Cables Placement  Black and white on front limbs (B=Left/W=Right) -Placed at the elbow region  Green and red on back limbs (G=Right/R=Left) -Placed at the stifle region. *Alcohol, ECG paste or ECG pads can be used as conduction agents for more accurate readings. If your patient has long hair, it should be shaved at the site of cable placement in order to achieve adequate conduction in addition to the use of a conduction agent.
•Having the ECG machine Solid Ground well grounded is an important factor for obtaining an accurate reading. •Placing the patient on a rubber mat and ensuring that the machine is plugged into a grounded outlet as well as checking the ECG machine for loose wires or cracked insulation on wires are steps that can be taken for a good ground.
•The cables read the electrical activity Leads of the heart between two points •Selecting specific leads on the ECG machine will cause specific cables to •Lead I: causes right forelimb to become negative or positive poles. (mildly complicated) become a negative pole and the left forelimb to become a positive pole. •Lead II: causes right forelimb to become negative and left rear limb to become positive •Lead III: the left hind limb becomes a positive pole and the left forelimb becomes a negative pole. •What happened to the Green cable you ask? It is only a reference point. Don’t forget it’s there, but concentrate on the Oh, no! Humans, who let them in here? main three!
Mind your PQRST’s  P wave: represents atrial depolarization  Therefore any changes in the P wave could indicate atrial dysfunction, or a degree of heart block  QRS wave: represents ventricular depolarization  So, any changes in the QRS wave could indicate ventricular fibrillation, lack of a QRS wave could indicate a form of heart block, and a wide QRS wave might indicate Premature Ventricular Contractions.  T wave: Represents ventricular repolarization  Myocardial hypoxia, and electrolyte disturbances can be evident with changes in the T wave.
Fill in the Blanks… •P wave: Created with the depolarization of the sinoatrial node, which spreads electrical activity to the atria. This electrical impulse is spread downwards to the left, in the direction of the positive pole of lead II. Because the electrical activity is moving in a downward deflection away from the negative pole, the ECG tracing inscribes the P wave in an upward direction.
Between the Lines…  The PR interval is inscribed due to a delay of depolarization at the atrioventricular node (allowing time for the ventricles to fill) and no wave is produced.
On your mark…. •Q Wave •The wave of depolarization moves through the Bundle of His and it’s branches, and then the interventricular septum is depolarized. This is the first part of the ventricular myocardium to become depolarized. This depolarization occurs from left to right. The electrical current moves through the thin layered interventricular septum in a downward motion, resulting in the Q wave being inscribed on the ECG. The Q wave is aimed downward because the current moves toward the negative pole.
Get ready…  R wave  From the downward inscription of the Q wave on the ECG, depolarization spreads along the ventricular conduction system and depolarization occurs in both ventricles simultaneously. Because the Left Ventricle has greater mass than the right ventricle, most of the electrical impulse travels in a left and downward direction. This electrical activity moving in an upward deflection towards the positive pole of Lead II results in the inscription of the large R wave.
Set…  S wave  Electrical impulses move from the apex to the base of the heart, continuing ventricular depolarization. This results in the ECG inscription of the S wave.
Almost there….  ST interval  After the ventricle is completely depolarized, few impulses take place during this time before repolarization (also called ventricular relaxation). This time is inscribed on the ECG as the ST interval.  At this time the heart is susceptible to any electrical impulse and somewhat unstable. *This is the point where defibrillators are placed during human CPR.
Go!  T wave  Ahhhh! Repolarization.  This occurs from the endocardium to the epicardium. Because the left ventricle has more mass than the right ventricle or atria, electrical impulses travel downward to the left. This produces an upward T wave in Lead II.  A period of electrical inactivity follows repolarization, and is inscribed as a flat line until the SA node begins all over again!
Panic at the T Wave  Sometimes the T wave can deflect downwards depending on the patient, so do not be alarmed if it looks like this on your reading.
Making sense? Or do you feel like this?
So What? •Now that we know how the ECG of a normal, healthy heart is produced and what it should look like, we can detect abnormalities. •Excited? •Some cardiac disturbances which can be detected are PVC’s, myocardial hypoxia, electrolyte disturbances, fibrillation, sinus bradycardia, atrial dysfunction, and other arrhythmias.
Interference  Remember that rubber mat and how you checked the machine for any causes of a bad ground to the machine?  Interference can be caused by other machinery such as a pulse- ox, or BP monitor that is hooked to the animal, even fluorescent lighting.  This is what interference looks like on the reading. Make a mental picture of how fuzzy it looks.
Muscle Tremor •If your patient is not calm and comfortable, or just really nervous and shaky… the reading may look like this. Also caused by happy, purring feline friends. • Reapplying or readjusting the clips may help. •A towel or blanket can be placed on top of patient to help calm them. •You can also place a hand on the chest of your patient. Be careful not to apply too much pressure or it will interfere with •Looks much different than interference right? the reading.
Wandering Baseline  Resistance between the patient and the electrode can cause a wandering baseline.  An example would be respiratory movement.  Placing the patient in sternal recumbancy or a standing position will help to reduce this resistance.  Holding the patient’s mouth closed for a few seconds could also help reduce resistance.
Atrial Premature Contraction •The P wave of a Atrial Premature Contraction is different from that of a normal sinus rhythm. •The origin of a Atrial Premature Contraction is the sinoatrial node or displaced locations in the atria, and may or may not conduct to the ventricles; this depends on when the impulse reaches the AV node. •If depolarization occurs in the ventricles, the QRS wave will be normal. •If depolarization does NOT occur in the ventricles, and reaches the AV node before repolarization, a premature P waves w/o QRS waves will read on the ECG.
Ventricular Premature Contraction  Seen on ECG as wide, bizarre QRS complexes w/o associated P waves. (So this is going to be a weird and bizarre explanation.)  This is because the origin of depolarization is a cell-to-cell depolarization and repolarization from the ventricular myocardium, not the SA node.  In addition, if the impulse originated in the left ventricle, the wave of depolarization will be travel up, and the Ventricular Premature Contraction would be a downward deflection on the ECG.  However, if the impulse originated from the right ventricle, the Ventricular Premature Contraction would travel downward and left. The ECG tracing will read an upward deflection.
Escape Beats  Escape Beat is a safety mechanism in the heart which functions when the SA node fails to fire an impulse.  They are the result of depolarization in other locations of the heart which cause the escape beat.  When the AV node depolarizes, the current travels upward into the atria and then downward to the ventricles along the normal conduction system.
Escape Beats cont’d  Depolarization through the ventricles produces a normal QRS complex.  Depolarization through the atria causes a downward tracing of the P wave in lead II on the ECG. Depending on the speed of the upward wave of polarization, it A B may appear before, after or during the QRS complex.  If the AV node fails to depolarize, the ventricles will take over and resemble a VPC as a wide, bizarre QRS complex w/ o an associated P wave.  The difference between the two is that an escape beat is life-saving, and a VPC disturbs an otherwise healthy rhythm.
Tachycardia  Can result from the use of drugs: ketamine, atropine, or epinepherine.  Also due to surgical stimulation, but may not mean that anesthetic depth is too shallow unless accompanied by increased respiration, movement, or reflex reaction.  Anesthetic complication?  Hypoxia, hypotension, or hypercapnia  Preexisting condition?  Hyperthyroidism, anemia, circulatory shock, septicemia, cardiac dz,, or excitement in an awake patient Direct digital pressure can be applied to the eyeballs, or propranolol can be administered to slow the heart
Sinus Tachycardia  Normal sinus rhythm.  Characterized by a rhythm faster then 160 beats/min in dogs and faster than 240 beats/min in cats.
Ventricular Tachycardia  Three or more ectopic ventricular complexes at a rate of 140 beats/min.  May appear and then disappear during normal rhythm (paraxysmal ventricular tachycardia) or be present throughout.  If the arrhythmia is present at all times, it indicates an irritable ventricular myocardium, and may precede ventricular fibrillation.
How are you feeling? A little green?
Atrial Flutter  Seen as uniform, saw-tooth shaped wavelengths between QRS complexes.  Can be difficult to identify.  An atrial flutter is a rapid atrial depolarization which occurs at the rate of 250 -350 beats/min.  The AV node becomes flooded with depolarizations from the atria.  The ventricular rate varies from the atrial rate because it takes time for the AV node to catch up with all the impulses being fired at it by the atria.  The ventricular rates for this arrhythmia are generally 140-150 beats/min and bizarre P waves my appear between QRS complexes.
Sinus Bradycardia  A normal sinus rhythm.  Originated from the SA node.  Characterized by a rhythm less then 60 beats/min in dogs and 70-80 beats/min in cats.  Based on an individual patient basis, and may be normal for some such as athletic dogs.
Atrial Fibrillation  Lacking P wave  Constant irregular rhythm  Fast rhythm for the atria (350-600 beats/min) and ventricles (220-240 beats/min)  Decreased cardiac output due to insufficient atrial contractions which lead to inadequate filling of the ventricles.
Ventricular Fibrillation  Chaotic depolarization of the ventricles results in disorganized contractions  Inscribed on ECG as small or large undulations of the baseline, but lacking true QRS complexes  Ventricular Fibrillation WILL lead to cardiac arrest!!!
Heart Block: Electrical impulse is not transmitted throughout the heart  First degree heart block  The interval between the P wave and the QRS complex is prolonged, but the sequence is normal  Second Degree heart block  P waves sometimes not followed by QRS complexes  Third Degree heart block  P wave, QRS complex pattern is irregular  2nd and 3rd degree heart block lower the ability for the heart to contract fully. Can be caused by Alpha-2 Agonists, increased vagal tone, hyperkalemia, and cardiac dz.
Heart Block cont’d
Created by Emily L. Dzek Fall 2007 With MUCH help from: McKelvey, Diane and Hollingshead, Wayne K. Veterinary Anesthesia and Analgesia. 3rd ed. St. Louis: Mosby, 2003. Glaze, Kathy. “Basic Electrocardiography Part I”. Veterinary Technician 17(1996):661-667. Glaze, Kathy. “Basic Electrocardiography Part II”. Veterinary Technician 17(1996):719-725. Glaze, Kathy. “basic Electrocardiography Part III”. Veterinary Technician 18(1997). Many pictures from online sources Rhythm strip examples from Veterinary Technician magazine listed above.

Empfohlen

normal-electrocardiogram
normal-electrocardiogramnormal-electrocardiogram
normal-electrocardiogramAkhila Us
 
Stress Testing
Stress TestingStress Testing
Stress TestingAmit Verma
 
Stress test / Treadmill test
Stress test / Treadmill testStress test / Treadmill test
Stress test / Treadmill testKhairul Nizam
 
Paracentesis
ParacentesisParacentesis
ParacentesisAncy Anu
 
Angioplasty
AngioplastyAngioplasty
Angioplastymattksee
 
Catheter & urethral catheterization dr mahesh kumar 22 09-2020
Catheter & urethral catheterization dr mahesh kumar 22 09-2020Catheter & urethral catheterization dr mahesh kumar 22 09-2020
Catheter & urethral catheterization dr mahesh kumar 22 09-2020CBPACS, Khera Dabar, Najafgarh New Delhi- 73
 
Pacemaker powerpoint presentation med surg
Pacemaker powerpoint presentation med surgPacemaker powerpoint presentation med surg
Pacemaker powerpoint presentation med surgNehaNupur8
 
Pulse oxymeter
Pulse oxymeterPulse oxymeter
Pulse oxymeteranjalatchi
 

Empfohlen

normal-electrocardiogram
normal-electrocardiogramnormal-electrocardiogram
normal-electrocardiogramAkhila Us
 
Stress Testing
Stress TestingStress Testing
Stress TestingAmit Verma
 
Stress test / Treadmill test
Stress test / Treadmill testStress test / Treadmill test
Stress test / Treadmill testKhairul Nizam
 
Paracentesis
ParacentesisParacentesis
ParacentesisAncy Anu
 
Angioplasty
AngioplastyAngioplasty
Angioplastymattksee
 
Catheter & urethral catheterization dr mahesh kumar 22 09-2020
Catheter & urethral catheterization dr mahesh kumar 22 09-2020Catheter & urethral catheterization dr mahesh kumar 22 09-2020
Catheter & urethral catheterization dr mahesh kumar 22 09-2020CBPACS, Khera Dabar, Najafgarh New Delhi- 73
 
Pacemaker powerpoint presentation med surg
Pacemaker powerpoint presentation med surgPacemaker powerpoint presentation med surg
Pacemaker powerpoint presentation med surgNehaNupur8
 
Pulse oxymeter
Pulse oxymeterPulse oxymeter
Pulse oxymeteranjalatchi
 
IABP
IABPIABP
IABPJohny Wilbert
 
Holter monitoring
Holter monitoringHolter monitoring
Holter monitoringJeroneTirados
 
Coronary Artery Bypass Graft
Coronary Artery Bypass GraftCoronary Artery Bypass Graft
Coronary Artery Bypass GraftAziza Alamri - UOD
 
.catheterization
.catheterization.catheterization
.catheterizationDr Ashok dhaka Bishnoi
 
ecg machine
ecg machineecg machine
ecg machineadzmierz azizan
 
ECG
ECGECG
ECGjensensam
 
Principles of electrocardiography ppt
Principles of electrocardiography pptPrinciples of electrocardiography ppt
Principles of electrocardiography pptGangaram Chaudhary
 
Nyha
NyhaNyha
NyhaBPT4thyearJamiaMilli
 
12 lead electrocardiogram
12 lead electrocardiogram12 lead electrocardiogram
12 lead electrocardiogramAhmad Amirdash
 
ECG leads
ECG leadsECG leads
ECG leadsmeducationdotnet
 
Heart Transplant
Heart TransplantHeart Transplant
Heart Transplantlevouge777
 
Foleys catheter
Foleys catheterFoleys catheter
Foleys catheterdrmanasidabholkar
 
Central venous pressure
Central venous pressureCentral venous pressure
Central venous pressureDavis Kurian
 
Intraosseous
IntraosseousIntraosseous
IntraosseousKane Guthrie
 
urinary catheterization
urinary catheterizationurinary catheterization
urinary catheterizationibrahim alhedrbi
 
Foley cathetar and cathetarazation
Foley cathetar and cathetarazationFoley cathetar and cathetarazation
Foley cathetar and cathetarazationseragaldin mahmood
 
Coronary angiogram
Coronary angiogramCoronary angiogram
Coronary angiogramMuhammad Mobarock Hossain
 
FOLEYS CATHETER
FOLEYS CATHETER FOLEYS CATHETER
FOLEYS CATHETER samar hopelessness
 
Postural drainage
Postural drainagePostural drainage
Postural drainageMeghan Phutane
 
Management of a patient with pacemaker
Management of a patient with pacemakerManagement of a patient with pacemaker
Management of a patient with pacemakersalman habeeb
 
General Anesthesia
General AnesthesiaGeneral Anesthesia
General Anesthesiameckelbt
 
Anesthesia monitoring bulger
Anesthesia monitoring bulgerAnesthesia monitoring bulger
Anesthesia monitoring bulgereyedogtor
 

Weitere ähnliche Inhalte

Was ist angesagt?

Principles of electrocardiography ppt
Principles of electrocardiography pptPrinciples of electrocardiography ppt
Principles of electrocardiography pptGangaram Chaudhary
 
12 lead electrocardiogram
12 lead electrocardiogram12 lead electrocardiogram
12 lead electrocardiogramAhmad Amirdash
 
Heart Transplant
Heart TransplantHeart Transplant
Heart Transplantlevouge777
 
Central venous pressure
Central venous pressureCentral venous pressure
Central venous pressureDavis Kurian
 
Foley cathetar and cathetarazation
Foley cathetar and cathetarazationFoley cathetar and cathetarazation
Foley cathetar and cathetarazationseragaldin mahmood
 
Management of a patient with pacemaker
Management of a patient with pacemakerManagement of a patient with pacemaker
Management of a patient with pacemakersalman habeeb
 

Was ist angesagt? (20)

IABP
IABPIABP
IABP
 
Holter monitoring
Holter monitoringHolter monitoring
Holter monitoring
 
Coronary Artery Bypass Graft
Coronary Artery Bypass GraftCoronary Artery Bypass Graft
Coronary Artery Bypass Graft
 
.catheterization
.catheterization.catheterization
.catheterization
 
ecg machine
ecg machineecg machine
ecg machine
 
ECG
ECGECG
ECG
 
Principles of electrocardiography ppt
Principles of electrocardiography pptPrinciples of electrocardiography ppt
Principles of electrocardiography ppt
 
Nyha
NyhaNyha
Nyha
 
12 lead electrocardiogram
12 lead electrocardiogram12 lead electrocardiogram
12 lead electrocardiogram
 
ECG leads
ECG leadsECG leads
ECG leads
 
Heart Transplant
Heart TransplantHeart Transplant
Heart Transplant
 
Foleys catheter
Foleys catheterFoleys catheter
Foleys catheter
 
Central venous pressure
Central venous pressureCentral venous pressure
Central venous pressure
 
Intraosseous
IntraosseousIntraosseous
Intraosseous
 
urinary catheterization
urinary catheterizationurinary catheterization
urinary catheterization
 
Foley cathetar and cathetarazation
Foley cathetar and cathetarazationFoley cathetar and cathetarazation
Foley cathetar and cathetarazation
 
Coronary angiogram
Coronary angiogramCoronary angiogram
Coronary angiogram
 
FOLEYS CATHETER
FOLEYS CATHETER FOLEYS CATHETER
FOLEYS CATHETER
 
Postural drainage
Postural drainagePostural drainage
Postural drainage
 
Management of a patient with pacemaker
Management of a patient with pacemakerManagement of a patient with pacemaker
Management of a patient with pacemaker
 

Andere mochten auch

General Anesthesia
General AnesthesiaGeneral Anesthesia
General Anesthesiameckelbt
 
Anesthesia monitoring bulger
Anesthesia monitoring bulgerAnesthesia monitoring bulger
Anesthesia monitoring bulgereyedogtor
 
Translating into Clinical Practice: NASA 12-lead ECG Inventions for Patient-C...
Translating into Clinical Practice: NASA 12-lead ECG Inventions for Patient-C...Translating into Clinical Practice: NASA 12-lead ECG Inventions for Patient-C...
Translating into Clinical Practice: NASA 12-lead ECG Inventions for Patient-C...Health Informatics New Zealand
 
Administration of general anesthesia
Administration of general anesthesiaAdministration of general anesthesia
Administration of general anesthesiaSumit Prajapati
 
Lect 1-pituitary insufficiency
Lect 1-pituitary insufficiencyLect 1-pituitary insufficiency
Lect 1-pituitary insufficiencyMohanad Aljashamy
 
Lect.3.diseases of esophagus
Lect.3.diseases of esophagusLect.3.diseases of esophagus
Lect.3.diseases of esophagusMohanad Aljashamy
 
Lect.2. salivary gland pathology
Lect.2. salivary gland pathologyLect.2. salivary gland pathology
Lect.2. salivary gland pathologyMohanad Aljashamy
 

Andere mochten auch (20)

General Anesthesia
General AnesthesiaGeneral Anesthesia
General Anesthesia
 
Anesthesia monitoring bulger
Anesthesia monitoring bulgerAnesthesia monitoring bulger
Anesthesia monitoring bulger
 
Translating into Clinical Practice: NASA 12-lead ECG Inventions for Patient-C...
Translating into Clinical Practice: NASA 12-lead ECG Inventions for Patient-C...Translating into Clinical Practice: NASA 12-lead ECG Inventions for Patient-C...
Translating into Clinical Practice: NASA 12-lead ECG Inventions for Patient-C...
 
thyroid tumor
thyroid tumorthyroid tumor
thyroid tumor
 
Administration of general anesthesia
Administration of general anesthesiaAdministration of general anesthesia
Administration of general anesthesia
 
Ecg basics 1
Ecg basics 1Ecg basics 1
Ecg basics 1
 
Lect 4- gastric disorder
Lect 4- gastric disorderLect 4- gastric disorder
Lect 4- gastric disorder
 
Lect 1-pituitary insufficiency
Lect 1-pituitary insufficiencyLect 1-pituitary insufficiency
Lect 1-pituitary insufficiency
 
Electrocardiograma normal mt
Electrocardiograma normal mtElectrocardiograma normal mt
Electrocardiograma normal mt
 
Tdm of dig
Tdm of digTdm of dig
Tdm of dig
 
Liver disease
Liver diseaseLiver disease
Liver disease
 
Lect.3.diseases of esophagus
Lect.3.diseases of esophagusLect.3.diseases of esophagus
Lect.3.diseases of esophagus
 
Anatomy terminology
Anatomy terminologyAnatomy terminology
Anatomy terminology
 
Basic Pulmonary anatomy
Basic Pulmonary anatomyBasic Pulmonary anatomy
Basic Pulmonary anatomy
 
Lect.2. salivary gland pathology
Lect.2. salivary gland pathologyLect.2. salivary gland pathology
Lect.2. salivary gland pathology
 
inflammatory bowel disease
inflammatory bowel diseaseinflammatory bowel disease
inflammatory bowel disease
 
parathyroid disorder
parathyroid disorderparathyroid disorder
parathyroid disorder
 
thyroid tumor
thyroid tumorthyroid tumor
thyroid tumor
 
Tumors of intestine
Tumors of intestineTumors of intestine
Tumors of intestine
 
adrenal glands disorder
adrenal glands disorderadrenal glands disorder
adrenal glands disorder
 

Ähnlich wie Ecg

Ecg How read. dr mahipal india
Ecg How read. dr mahipal indiaEcg How read. dr mahipal india
Ecg How read. dr mahipal indiamahipal33
 
Basics of electrocardiogram
Basics of electrocardiogramBasics of electrocardiogram
Basics of electrocardiogramKavitha Sunil
 
ecg-130715033518-phpapp02-1.pdf
ecg-130715033518-phpapp02-1.pdfecg-130715033518-phpapp02-1.pdf
ecg-130715033518-phpapp02-1.pdfAtiqurRahman7153
 
Ecg by Ns Nining
Ecg by Ns NiningEcg by Ns Nining
Ecg by Ns Niningsri nining
 
Electrical activity of heart
Electrical activity of heartElectrical activity of heart
Electrical activity of heartAmeel Yaqo
 
BASICS OF ECG pptx.pptx
BASICS OF ECG pptx.pptxBASICS OF ECG pptx.pptx
BASICS OF ECG pptx.pptxsandhiyaraja5
 
topic ECG and heart diseases+treatments
topic ECG and heart diseases+treatmentstopic ECG and heart diseases+treatments
topic ECG and heart diseases+treatmentsmariarani2
 
Ecg1 DR NIKUNJ R SHEKHADA (MBBS,MS GEN SURG,DNB CTS SR)
Ecg1 DR NIKUNJ R SHEKHADA (MBBS,MS GEN SURG,DNB CTS SR)Ecg1 DR NIKUNJ R SHEKHADA (MBBS,MS GEN SURG,DNB CTS SR)
Ecg1 DR NIKUNJ R SHEKHADA (MBBS,MS GEN SURG,DNB CTS SR)DR NIKUNJ SHEKHADA
 

Ähnlich wie Ecg (20)

Ecg How read. dr mahipal india
Ecg How read. dr mahipal indiaEcg How read. dr mahipal india
Ecg How read. dr mahipal india
 
Basics of electrocardiogram
Basics of electrocardiogramBasics of electrocardiogram
Basics of electrocardiogram
 
ecg-130715033518-phpapp02-1.pdf
ecg-130715033518-phpapp02-1.pdfecg-130715033518-phpapp02-1.pdf
ecg-130715033518-phpapp02-1.pdf
 
IVMS-CV-Basic Electrocardiography Notes
IVMS-CV-Basic Electrocardiography NotesIVMS-CV-Basic Electrocardiography Notes
IVMS-CV-Basic Electrocardiography Notes
 
Electrocardiogram
ElectrocardiogramElectrocardiogram
Electrocardiogram
 
Electrocardiogram
ElectrocardiogramElectrocardiogram
Electrocardiogram
 
Ecg for candidate 2021
Ecg for candidate 2021Ecg for candidate 2021
Ecg for candidate 2021
 
ECG
ECGECG
ECG
 
Ecg by Ns Nining
Ecg by Ns NiningEcg by Ns Nining
Ecg by Ns Nining
 
BASICS IN ECG.pptx
BASICS IN ECG.pptxBASICS IN ECG.pptx
BASICS IN ECG.pptx
 
Electrical activity of heart
Electrical activity of heartElectrical activity of heart
Electrical activity of heart
 
basics of ecg
basics of ecg basics of ecg
basics of ecg
 
6a electrophysiology of heart
6a electrophysiology of heart6a electrophysiology of heart
6a electrophysiology of heart
 
ECG
ECGECG
ECG
 
CVS-2.pptx
CVS-2.pptxCVS-2.pptx
CVS-2.pptx
 
ECG1.pptx
ECG1.pptxECG1.pptx
ECG1.pptx
 
ECG(EKG) BASICS
ECG(EKG) BASICSECG(EKG) BASICS
ECG(EKG) BASICS
 
BASICS OF ECG pptx.pptx
BASICS OF ECG pptx.pptxBASICS OF ECG pptx.pptx
BASICS OF ECG pptx.pptx
 
topic ECG and heart diseases+treatments
topic ECG and heart diseases+treatmentstopic ECG and heart diseases+treatments
topic ECG and heart diseases+treatments
 
Ecg1 DR NIKUNJ R SHEKHADA (MBBS,MS GEN SURG,DNB CTS SR)
Ecg1 DR NIKUNJ R SHEKHADA (MBBS,MS GEN SURG,DNB CTS SR)Ecg1 DR NIKUNJ R SHEKHADA (MBBS,MS GEN SURG,DNB CTS SR)
Ecg1 DR NIKUNJ R SHEKHADA (MBBS,MS GEN SURG,DNB CTS SR)
 

Mehr von Mohanad Aljashamy

Upper respiratory system- anatomy
Upper respiratory system- anatomyUpper respiratory system- anatomy
Upper respiratory system- anatomyMohanad Aljashamy
 

Mehr von Mohanad Aljashamy (6)

Upper respiratory system- anatomy
Upper respiratory system- anatomyUpper respiratory system- anatomy
Upper respiratory system- anatomy
 
Goiter
GoiterGoiter
Goiter
 
Trachea
TracheaTrachea
Trachea
 
appetite regulation
appetite regulationappetite regulation
appetite regulation
 
Heart sounds and murmurs
Heart sounds and murmursHeart sounds and murmurs
Heart sounds and murmurs
 
Chapter 11 blood
Chapter 11 bloodChapter 11 blood
Chapter 11 blood
 

Kürzlich hochgeladen

PULMONARY EMBOLISM AND ITS MANAGEMENTS.pdf
PULMONARY EMBOLISM AND ITS MANAGEMENTS.pdfPULMONARY EMBOLISM AND ITS MANAGEMENTS.pdf
PULMONARY EMBOLISM AND ITS MANAGEMENTS.pdfDolisha Warbi
 
low cost antibiotic cement nail for infected non union.pptx
low cost antibiotic cement nail for infected non union.pptxlow cost antibiotic cement nail for infected non union.pptx
low cost antibiotic cement nail for infected non union.pptxdrashraf369
 
Primary headache and facial pain. (2024)
Primary headache and facial pain. (2024)Primary headache and facial pain. (2024)
Primary headache and facial pain. (2024)Mohamed Rizk Khodair
 
Presentation for Bella Mahl 2024-03-28-24-MW-Overview-Bella.pptx
Presentation for Bella Mahl 2024-03-28-24-MW-Overview-Bella.pptxPresentation for Bella Mahl 2024-03-28-24-MW-Overview-Bella.pptx
Presentation for Bella Mahl 2024-03-28-24-MW-Overview-Bella.pptxpdamico1
 
Clinical Pharmacotherapy of Scabies Disease
Clinical Pharmacotherapy of Scabies DiseaseClinical Pharmacotherapy of Scabies Disease
Clinical Pharmacotherapy of Scabies DiseaseSreenivasa Reddy Thalla
 
CEHPALOSPORINS.pptx By Harshvardhan Dev Bhoomi Uttarakhand University
CEHPALOSPORINS.pptx By Harshvardhan Dev Bhoomi Uttarakhand UniversityCEHPALOSPORINS.pptx By Harshvardhan Dev Bhoomi Uttarakhand University
CEHPALOSPORINS.pptx By Harshvardhan Dev Bhoomi Uttarakhand UniversityHarshChauhan475104
 
Presentation on Parasympathetic Nervous System
Presentation on Parasympathetic Nervous SystemPresentation on Parasympathetic Nervous System
Presentation on Parasympathetic Nervous SystemPrerana Jadhav
 
SGK HÓA SINH NĂNG LƯỢNG SINH HỌC 2006.pdf
SGK HÓA SINH NĂNG LƯỢNG SINH HỌC 2006.pdfSGK HÓA SINH NĂNG LƯỢNG SINH HỌC 2006.pdf
SGK HÓA SINH NĂNG LƯỢNG SINH HỌC 2006.pdfHongBiThi1
 
Statistical modeling in pharmaceutical research and development.
Statistical modeling in pharmaceutical research and development.Statistical modeling in pharmaceutical research and development.
Statistical modeling in pharmaceutical research and development.ANJALI
 
Big Data Analysis Suggests COVID Vaccination Increases Excess Mortality Of ...
Big Data Analysis Suggests COVID Vaccination Increases Excess Mortality Of ...Big Data Analysis Suggests COVID Vaccination Increases Excess Mortality Of ...
Big Data Analysis Suggests COVID Vaccination Increases Excess Mortality Of ...sdateam0
 
ANTI-DIABETICS DRUGS - PTEROCARPUS AND GYMNEMA
ANTI-DIABETICS DRUGS - PTEROCARPUS AND GYMNEMAANTI-DIABETICS DRUGS - PTEROCARPUS AND GYMNEMA
ANTI-DIABETICS DRUGS - PTEROCARPUS AND GYMNEMADivya Kanojiya
 
Apiculture Chapter 1. Introduction 2.ppt
Apiculture Chapter 1. Introduction 2.pptApiculture Chapter 1. Introduction 2.ppt
Apiculture Chapter 1. Introduction 2.pptkedirjemalharun
 
Introduction to Sports Injuries by- Dr. Anjali Rai
Introduction to Sports Injuries by- Dr. Anjali RaiIntroduction to Sports Injuries by- Dr. Anjali Rai
Introduction to Sports Injuries by- Dr. Anjali RaiGoogle
 
systemic bacteriology (7)............pptx
systemic bacteriology (7)............pptxsystemic bacteriology (7)............pptx
systemic bacteriology (7)............pptxEyobAlemu11
 
SYNDESMOTIC INJURY- ANATOMICAL REPAIR.pptx
SYNDESMOTIC INJURY- ANATOMICAL REPAIR.pptxSYNDESMOTIC INJURY- ANATOMICAL REPAIR.pptx
SYNDESMOTIC INJURY- ANATOMICAL REPAIR.pptxdrashraf369
 
Radiation Dosimetry Parameters and Isodose Curves.pptx
Radiation Dosimetry Parameters and Isodose Curves.pptxRadiation Dosimetry Parameters and Isodose Curves.pptx
Radiation Dosimetry Parameters and Isodose Curves.pptxDr. Dheeraj Kumar
 
Measurement of Radiation and Dosimetric Procedure.pptx
Measurement of Radiation and Dosimetric Procedure.pptxMeasurement of Radiation and Dosimetric Procedure.pptx
Measurement of Radiation and Dosimetric Procedure.pptxDr. Dheeraj Kumar
 
Culture and Health Disorders Social change.pptx
Culture and Health Disorders Social change.pptxCulture and Health Disorders Social change.pptx
Culture and Health Disorders Social change.pptxDr. Dheeraj Kumar
 
PULMONARY EDEMA AND ITS MANAGEMENT.pdf
PULMONARY EDEMA AND ITS MANAGEMENT.pdfPULMONARY EDEMA AND ITS MANAGEMENT.pdf
PULMONARY EDEMA AND ITS MANAGEMENT.pdfDolisha Warbi
 

Kürzlich hochgeladen (20)

PULMONARY EMBOLISM AND ITS MANAGEMENTS.pdf
PULMONARY EMBOLISM AND ITS MANAGEMENTS.pdfPULMONARY EMBOLISM AND ITS MANAGEMENTS.pdf
PULMONARY EMBOLISM AND ITS MANAGEMENTS.pdf
 
low cost antibiotic cement nail for infected non union.pptx
low cost antibiotic cement nail for infected non union.pptxlow cost antibiotic cement nail for infected non union.pptx
low cost antibiotic cement nail for infected non union.pptx
 
Primary headache and facial pain. (2024)
Primary headache and facial pain. (2024)Primary headache and facial pain. (2024)
Primary headache and facial pain. (2024)
 
Presentation for Bella Mahl 2024-03-28-24-MW-Overview-Bella.pptx
Presentation for Bella Mahl 2024-03-28-24-MW-Overview-Bella.pptxPresentation for Bella Mahl 2024-03-28-24-MW-Overview-Bella.pptx
Presentation for Bella Mahl 2024-03-28-24-MW-Overview-Bella.pptx
 
Clinical Pharmacotherapy of Scabies Disease
Clinical Pharmacotherapy of Scabies DiseaseClinical Pharmacotherapy of Scabies Disease
Clinical Pharmacotherapy of Scabies Disease
 
CEHPALOSPORINS.pptx By Harshvardhan Dev Bhoomi Uttarakhand University
CEHPALOSPORINS.pptx By Harshvardhan Dev Bhoomi Uttarakhand UniversityCEHPALOSPORINS.pptx By Harshvardhan Dev Bhoomi Uttarakhand University
CEHPALOSPORINS.pptx By Harshvardhan Dev Bhoomi Uttarakhand University
 
Presentation on Parasympathetic Nervous System
Presentation on Parasympathetic Nervous SystemPresentation on Parasympathetic Nervous System
Presentation on Parasympathetic Nervous System
 
SGK HÓA SINH NĂNG LƯỢNG SINH HỌC 2006.pdf
SGK HÓA SINH NĂNG LƯỢNG SINH HỌC 2006.pdfSGK HÓA SINH NĂNG LƯỢNG SINH HỌC 2006.pdf
SGK HÓA SINH NĂNG LƯỢNG SINH HỌC 2006.pdf
 
Statistical modeling in pharmaceutical research and development.
Statistical modeling in pharmaceutical research and development.Statistical modeling in pharmaceutical research and development.
Statistical modeling in pharmaceutical research and development.
 
Epilepsy
EpilepsyEpilepsy
Epilepsy
 
Big Data Analysis Suggests COVID Vaccination Increases Excess Mortality Of ...
Big Data Analysis Suggests COVID Vaccination Increases Excess Mortality Of ...Big Data Analysis Suggests COVID Vaccination Increases Excess Mortality Of ...
Big Data Analysis Suggests COVID Vaccination Increases Excess Mortality Of ...
 
ANTI-DIABETICS DRUGS - PTEROCARPUS AND GYMNEMA
ANTI-DIABETICS DRUGS - PTEROCARPUS AND GYMNEMAANTI-DIABETICS DRUGS - PTEROCARPUS AND GYMNEMA
ANTI-DIABETICS DRUGS - PTEROCARPUS AND GYMNEMA
 
Apiculture Chapter 1. Introduction 2.ppt
Apiculture Chapter 1. Introduction 2.pptApiculture Chapter 1. Introduction 2.ppt
Apiculture Chapter 1. Introduction 2.ppt
 
Introduction to Sports Injuries by- Dr. Anjali Rai
Introduction to Sports Injuries by- Dr. Anjali RaiIntroduction to Sports Injuries by- Dr. Anjali Rai
Introduction to Sports Injuries by- Dr. Anjali Rai
 
systemic bacteriology (7)............pptx
systemic bacteriology (7)............pptxsystemic bacteriology (7)............pptx
systemic bacteriology (7)............pptx
 
SYNDESMOTIC INJURY- ANATOMICAL REPAIR.pptx
SYNDESMOTIC INJURY- ANATOMICAL REPAIR.pptxSYNDESMOTIC INJURY- ANATOMICAL REPAIR.pptx
SYNDESMOTIC INJURY- ANATOMICAL REPAIR.pptx
 
Radiation Dosimetry Parameters and Isodose Curves.pptx
Radiation Dosimetry Parameters and Isodose Curves.pptxRadiation Dosimetry Parameters and Isodose Curves.pptx
Radiation Dosimetry Parameters and Isodose Curves.pptx
 
Measurement of Radiation and Dosimetric Procedure.pptx
Measurement of Radiation and Dosimetric Procedure.pptxMeasurement of Radiation and Dosimetric Procedure.pptx
Measurement of Radiation and Dosimetric Procedure.pptx
 
Culture and Health Disorders Social change.pptx
Culture and Health Disorders Social change.pptxCulture and Health Disorders Social change.pptx
Culture and Health Disorders Social change.pptx
 
PULMONARY EDEMA AND ITS MANAGEMENT.pdf
PULMONARY EDEMA AND ITS MANAGEMENT.pdfPULMONARY EDEMA AND ITS MANAGEMENT.pdf
PULMONARY EDEMA AND ITS MANAGEMENT.pdf
 

Ecg

  • 1. A guide to electrocardiography Reading and Applying
  • 2. Major Confusion!!!  Reading an ECG and deciphering what it is telling you can be confusing  ECG’s dictate the electrical impulses of the heart  Electrical impulses are what make the heart contract  This contraction is also known as depolarization
  • 3. A Little Vocabulary •Artifact: A wave that arises from sources other than the heart or brain. •Cardiac Arrhythmia: Any electrical activity of the heart that differs from that of a healthy awake patient. Can be innocuous or life threatening. •Deflection: movement from one side to the other. •Depolarization: Contractions as a result of cells stimulated by electricity. •Ectopic: occurring in an abnormal position. •Lead: A pair of electrodes, connected by an axis that provides a particular view of the of the electrical activity of the heart. •Repolarization: Relaxation of cells after depolarization.
  • 4. Cables Placement  Black and white on front limbs (B=Left/W=Right) -Placed at the elbow region  Green and red on back limbs (G=Right/R=Left) -Placed at the stifle region. *Alcohol, ECG paste or ECG pads can be used as conduction agents for more accurate readings. If your patient has long hair, it should be shaved at the site of cable placement in order to achieve adequate conduction in addition to the use of a conduction agent.
  • 5. •Having the ECG machine Solid Ground well grounded is an important factor for obtaining an accurate reading. •Placing the patient on a rubber mat and ensuring that the machine is plugged into a grounded outlet as well as checking the ECG machine for loose wires or cracked insulation on wires are steps that can be taken for a good ground.
  • 6. •The cables read the electrical activity Leads of the heart between two points •Selecting specific leads on the ECG machine will cause specific cables to •Lead I: causes right forelimb to become negative or positive poles. (mildly complicated) become a negative pole and the left forelimb to become a positive pole. •Lead II: causes right forelimb to become negative and left rear limb to become positive •Lead III: the left hind limb becomes a positive pole and the left forelimb becomes a negative pole. •What happened to the Green cable you ask? It is only a reference point. Don’t forget it’s there, but concentrate on the Oh, no! Humans, who let them in here? main three!
  • 7. Mind your PQRST’s  P wave: represents atrial depolarization  Therefore any changes in the P wave could indicate atrial dysfunction, or a degree of heart block  QRS wave: represents ventricular depolarization  So, any changes in the QRS wave could indicate ventricular fibrillation, lack of a QRS wave could indicate a form of heart block, and a wide QRS wave might indicate Premature Ventricular Contractions.  T wave: Represents ventricular repolarization  Myocardial hypoxia, and electrolyte disturbances can be evident with changes in the T wave.
  • 8.
  • 9. Fill in the Blanks… •P wave: Created with the depolarization of the sinoatrial node, which spreads electrical activity to the atria. This electrical impulse is spread downwards to the left, in the direction of the positive pole of lead II. Because the electrical activity is moving in a downward deflection away from the negative pole, the ECG tracing inscribes the P wave in an upward direction.
  • 10. Between the Lines…  The PR interval is inscribed due to a delay of depolarization at the atrioventricular node (allowing time for the ventricles to fill) and no wave is produced.
  • 11. On your mark…. •Q Wave •The wave of depolarization moves through the Bundle of His and it’s branches, and then the interventricular septum is depolarized. This is the first part of the ventricular myocardium to become depolarized. This depolarization occurs from left to right. The electrical current moves through the thin layered interventricular septum in a downward motion, resulting in the Q wave being inscribed on the ECG. The Q wave is aimed downward because the current moves toward the negative pole.
  • 12. Get ready…  R wave  From the downward inscription of the Q wave on the ECG, depolarization spreads along the ventricular conduction system and depolarization occurs in both ventricles simultaneously. Because the Left Ventricle has greater mass than the right ventricle, most of the electrical impulse travels in a left and downward direction. This electrical activity moving in an upward deflection towards the positive pole of Lead II results in the inscription of the large R wave.
  • 13. Set…  S wave  Electrical impulses move from the apex to the base of the heart, continuing ventricular depolarization. This results in the ECG inscription of the S wave.
  • 14. Almost there….  ST interval  After the ventricle is completely depolarized, few impulses take place during this time before repolarization (also called ventricular relaxation). This time is inscribed on the ECG as the ST interval.  At this time the heart is susceptible to any electrical impulse and somewhat unstable. *This is the point where defibrillators are placed during human CPR.
  • 15. Go!  T wave  Ahhhh! Repolarization.  This occurs from the endocardium to the epicardium. Because the left ventricle has more mass than the right ventricle or atria, electrical impulses travel downward to the left. This produces an upward T wave in Lead II.  A period of electrical inactivity follows repolarization, and is inscribed as a flat line until the SA node begins all over again!
  • 16. Panic at the T Wave  Sometimes the T wave can deflect downwards depending on the patient, so do not be alarmed if it looks like this on your reading.
  • 17. Making sense? Or do you feel like this?
  • 18. So What? •Now that we know how the ECG of a normal, healthy heart is produced and what it should look like, we can detect abnormalities. •Excited? •Some cardiac disturbances which can be detected are PVC’s, myocardial hypoxia, electrolyte disturbances, fibrillation, sinus bradycardia, atrial dysfunction, and other arrhythmias.
  • 19. Interference  Remember that rubber mat and how you checked the machine for any causes of a bad ground to the machine?  Interference can be caused by other machinery such as a pulse- ox, or BP monitor that is hooked to the animal, even fluorescent lighting.  This is what interference looks like on the reading. Make a mental picture of how fuzzy it looks.
  • 20. Muscle Tremor •If your patient is not calm and comfortable, or just really nervous and shaky… the reading may look like this. Also caused by happy, purring feline friends. • Reapplying or readjusting the clips may help. •A towel or blanket can be placed on top of patient to help calm them. •You can also place a hand on the chest of your patient. Be careful not to apply too much pressure or it will interfere with •Looks much different than interference right? the reading.
  • 21. Wandering Baseline  Resistance between the patient and the electrode can cause a wandering baseline.  An example would be respiratory movement.  Placing the patient in sternal recumbancy or a standing position will help to reduce this resistance.  Holding the patient’s mouth closed for a few seconds could also help reduce resistance.
  • 22. Atrial Premature Contraction •The P wave of a Atrial Premature Contraction is different from that of a normal sinus rhythm. •The origin of a Atrial Premature Contraction is the sinoatrial node or displaced locations in the atria, and may or may not conduct to the ventricles; this depends on when the impulse reaches the AV node. •If depolarization occurs in the ventricles, the QRS wave will be normal. •If depolarization does NOT occur in the ventricles, and reaches the AV node before repolarization, a premature P waves w/o QRS waves will read on the ECG.
  • 23. Ventricular Premature Contraction  Seen on ECG as wide, bizarre QRS complexes w/o associated P waves. (So this is going to be a weird and bizarre explanation.)  This is because the origin of depolarization is a cell-to-cell depolarization and repolarization from the ventricular myocardium, not the SA node.  In addition, if the impulse originated in the left ventricle, the wave of depolarization will be travel up, and the Ventricular Premature Contraction would be a downward deflection on the ECG.  However, if the impulse originated from the right ventricle, the Ventricular Premature Contraction would travel downward and left. The ECG tracing will read an upward deflection.
  • 24. Escape Beats  Escape Beat is a safety mechanism in the heart which functions when the SA node fails to fire an impulse.  They are the result of depolarization in other locations of the heart which cause the escape beat.  When the AV node depolarizes, the current travels upward into the atria and then downward to the ventricles along the normal conduction system.
  • 25. Escape Beats cont’d  Depolarization through the ventricles produces a normal QRS complex.  Depolarization through the atria causes a downward tracing of the P wave in lead II on the ECG. Depending on the speed of the upward wave of polarization, it A B may appear before, after or during the QRS complex.  If the AV node fails to depolarize, the ventricles will take over and resemble a VPC as a wide, bizarre QRS complex w/ o an associated P wave.  The difference between the two is that an escape beat is life-saving, and a VPC disturbs an otherwise healthy rhythm.
  • 26. Tachycardia  Can result from the use of drugs: ketamine, atropine, or epinepherine.  Also due to surgical stimulation, but may not mean that anesthetic depth is too shallow unless accompanied by increased respiration, movement, or reflex reaction.  Anesthetic complication?  Hypoxia, hypotension, or hypercapnia  Preexisting condition?  Hyperthyroidism, anemia, circulatory shock, septicemia, cardiac dz,, or excitement in an awake patient Direct digital pressure can be applied to the eyeballs, or propranolol can be administered to slow the heart
  • 27. Sinus Tachycardia  Normal sinus rhythm.  Characterized by a rhythm faster then 160 beats/min in dogs and faster than 240 beats/min in cats.
  • 28. Ventricular Tachycardia  Three or more ectopic ventricular complexes at a rate of 140 beats/min.  May appear and then disappear during normal rhythm (paraxysmal ventricular tachycardia) or be present throughout.  If the arrhythmia is present at all times, it indicates an irritable ventricular myocardium, and may precede ventricular fibrillation.
  • 29. How are you feeling? A little green?
  • 30. Atrial Flutter  Seen as uniform, saw-tooth shaped wavelengths between QRS complexes.  Can be difficult to identify.  An atrial flutter is a rapid atrial depolarization which occurs at the rate of 250 -350 beats/min.  The AV node becomes flooded with depolarizations from the atria.  The ventricular rate varies from the atrial rate because it takes time for the AV node to catch up with all the impulses being fired at it by the atria.  The ventricular rates for this arrhythmia are generally 140-150 beats/min and bizarre P waves my appear between QRS complexes.
  • 31. Sinus Bradycardia  A normal sinus rhythm.  Originated from the SA node.  Characterized by a rhythm less then 60 beats/min in dogs and 70-80 beats/min in cats.  Based on an individual patient basis, and may be normal for some such as athletic dogs.
  • 32. Atrial Fibrillation  Lacking P wave  Constant irregular rhythm  Fast rhythm for the atria (350-600 beats/min) and ventricles (220-240 beats/min)  Decreased cardiac output due to insufficient atrial contractions which lead to inadequate filling of the ventricles.
  • 33. Ventricular Fibrillation  Chaotic depolarization of the ventricles results in disorganized contractions  Inscribed on ECG as small or large undulations of the baseline, but lacking true QRS complexes  Ventricular Fibrillation WILL lead to cardiac arrest!!!
  • 34. Heart Block: Electrical impulse is not transmitted throughout the heart  First degree heart block  The interval between the P wave and the QRS complex is prolonged, but the sequence is normal  Second Degree heart block  P waves sometimes not followed by QRS complexes  Third Degree heart block  P wave, QRS complex pattern is irregular  2nd and 3rd degree heart block lower the ability for the heart to contract fully. Can be caused by Alpha-2 Agonists, increased vagal tone, hyperkalemia, and cardiac dz.
  • 36. Created by Emily L. Dzek Fall 2007 With MUCH help from: McKelvey, Diane and Hollingshead, Wayne K. Veterinary Anesthesia and Analgesia. 3rd ed. St. Louis: Mosby, 2003. Glaze, Kathy. “Basic Electrocardiography Part I”. Veterinary Technician 17(1996):661-667. Glaze, Kathy. “Basic Electrocardiography Part II”. Veterinary Technician 17(1996):719-725. Glaze, Kathy. “basic Electrocardiography Part III”. Veterinary Technician 18(1997). Many pictures from online sources Rhythm strip examples from Veterinary Technician magazine listed above.