cardiac monitoring egan’s ch. 17, carc ch. 11. objectives (1 of 2) 1.to gain an understanding of...
TRANSCRIPT
Cardiac monitoring
Egan’s Ch. 17, CARC Ch. 11
Objectives (1 of 2)
1. To gain an understanding of basic terminology and techniques of cardiac monitoring.
2. To give you the knowledge and tools you need to assist the advanced provider with the use and implementation of an ECG.
3. To better understand the basic anatomy and physiology of the heart.
Objectives (2 of 2)
4. Identify the components of basic cardiac arrhythmias (because many times the RTs are with the patient during the onset of the initial event).
5. Evaluate the rate and rhythm of a patient’s cardiovascular system, and become familiar with the normal ECG.
6. Familiarize yourself with and apply 4-lead electrodes and identify placements for the 12-lead systems.
Cardiac Monitoring
• Use of 12-lead ECGs in the hospital is essential for cardiac patients.
• Early identification of AMIs allows hospitals to be prepared.
• The RT should know how to place electrodes and leads.
Electrical Conduction System (1 of 2)
• A network of specialized cells in the heart • Conducts electrical current throughout the
heart• The flow of electrical current causes
contractions that produce pumping of blood.
VIDEO
The Process of Electrical Conduction
• Electrical conduction occurs through a pathway of special cells.
• Automaticity– Ability of heart cells to generate a spontaneous
electrical impulse
• Sinoatrial (SA) node: the heart’s main pacemaker– Paces at a ventricular rate of 60–100 beats/min**Any beat that originates outside the SA node is called
“ectopic”**
The Process of Electrical conduction
• Atrioventricular Junction- electrical bridge between atria and ventricles, comprised of:– (AV) node– Bundle of His
• AV node– Acts as secondary (backup) pacemaker– Paces at a ventricular rate of 40-60 beats/min– Impulse is temporarily delayed here to allow better
filling of the ventricles– Protects ventricles from excessively fast rates
The Process of Electrical conduction
• Bundle branches• Purkinje fibers
– Fingerlike projections that pass electrical impulses throughout myocardium to create a coordinated contraction of the ventricles
Formation of the ECG (1 of 4)
Formation of the ECG (2 of 4)
Formation of the ECG (3 of 4)
Formation of the ECG (4 of 4)
Electrodes and Waves
Electrodes pick up electrical activity of the heart.
The ECG Complex
One complex represents one beat in the heart. Complex consists of P, QRS, and T waves.
ECG Paper
Each small box on the paper represents 0.04 seconds.
Five small boxes in larger box represents 0.20 seconds.
Five large boxes equal 1 second.
Normal Sinus Rhythm Consistent P waves Consistent P-R interval (0.12-0.20 seconds) 60–100 beats/min QRS < 0.12 seconds
Sinus Bradycardia
• Consistent P waves• Consistent P-R interval• Less than 60 beats/min• Potential causes are: Hypoxia, hypothermia, heart
disease, electrolyte imbalances(hyperkalemia), parasympathetic stimulation, hypothyroidism
Sinus Tachycardia • Consistent P waves• Consistent P-R interval• 100 – 160 beats/min• Potential causes are: Fever, pain, hyperthermia,
anxiety, medications, hypoxia, sympathetic stimulation
First Degree Block
• Impulse delayed at AV node• Prolonged PR interval• There is always concern that the patient will
progress to the next worse rhythm
2nd Degree Type I (Wenckebach)
• PR progressively longer until a QRS is dropped.
2nd Degree Type II (Mobitz)
• Nonconducted P waves followed by conducted P waves.
3rd Degree Heart Block• Ventricles and atria beat independently of one
another.• There is no relationship between the P waves
and QRS complexes• The patient will need a pacemaker
– Usually a temporary pacer (TCP) until a permanent one can be inserted
Atrial Flutter• Rapidly firing ectopic site in atria• Characteristic “sawtooth” pattern• At risk for thrombi• Rate: 180-400 beats/min• May progress to atrial fibrillation
Atrial Fibrillation
• Multiple ectopic sites within atria• Atrial rate > 350 beats/min• Decrease in ventricular filling
PVC’s• Wide and bizarre QRS complex is the most distinguishing
feature• No P wave prior to PVC• Bigeminyand trigeminy • Unifocal and Multifocal
– Multifocal is more concerning because there are multiple irritated areas in the ventricles
• Occasional PVC is ok but > 6/min is a sign of irritability• May progress to ventricular tachycardia• Treatment
– Lidocaine (decreases ventricular irritability)– Find the problem and fix it!
PVC’s
Supraventricular Tachycardia (SVT)• Impulse moves from atria – ventricles – atria
(circular)• Rate: 160-220 beats/min• P waves may be unidentifiable, normal QRS• Treatment
– If stable and narrow complex can try adenosine or vagal maneuvers
– If unstable, then immediate cardioversion
Ventricular Tachycardia Three or more PVC’s in a row Rate: 100-250 beats/min No distinguishable P waves Precedes or follows V-fib Treatment
If stable, treat with amiodarone If unstable with a pulse, then cardioversion Pulseless VT is treated with CPR and defibrillation just like VF
Ventricular Fibrillation Rapid, completely disorganized rhythmDeadly arrhythmia that requires immediate treatmentA new onset is coarse and will progress to fine VF which
is harder to defibrillateFine VF can be confused with asystoleTreatment is CPR and immediate defibrillation
Pulseless Electrical Activity (PEA)
• Pattern does not generate a pulse.• May show normal QRS complexes• Can be any kind of a pattern from NSR to one
or two complexes• Treatment is CPR and identify the cause (H’s
and T’s)
Asystole
• Complete absence of electrical cardiac activity
• Patient is clinically dead. • Decision to terminate resuscitation efforts
depends on local protocol.
Cardiac Monitors
• May be 3-, 4-, or 12-lead system• Compact, light, portable• Many monitors now combine functions
beyond ECG.
4-Lead Placement
Four leads are called limb leads.
Leads must be placed at least 10 cm from heart.
12-Lead ECG
• Used to identify possible myocardial ischemia• Studies show 12-lead acquisition takes little
extra time. • Early identification of acute ischemia and
accurate identification of arrhythmias
12-Lead Placement Limbs leads placed at
least 10 cm from heart. Chest leads must be
placed exactly.
Lead Location View
V1 4th intercostal space, right sternal border Ventricular septum
V2 4th intercostal space, left sternal border Ventricular septum
V3 Between V2 and V4 Anterior wall of left ventricle
V4 5th intercostal space, midclavicular line Anterior wall of left ventricle
V5 Lateral to V4 at anterior axillary line Lateral wall of left ventricle
V6 Lateral to V5 at midaxillary line Lateral wall of left ventricle
Holter monitoring
• Portable, battery powered recording device• Done over 24 hours• Useful in patients experiencing irregular heart
beats on an inconsistent basis.
Troubleshooting
• Clean skin. • Use benzoin.• Shave hair.