Introduction to Cardiology Terry White, RN, EMT-P.
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Transcript of Introduction to Cardiology Terry White, RN, EMT-P.
![Page 1: Introduction to Cardiology Terry White, RN, EMT-P.](https://reader030.fdocuments.us/reader030/viewer/2022033102/56649e485503460f94b3b8dd/html5/thumbnails/1.jpg)
Introduction to Cardiology
Terry White, RN, EMT-P
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Introduction to Cardiology
Cardiovascular Disease EMS System Role Cardiovascular A&P Cardiovascular Electrophysiology
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Cardiovascular Disease Single greatest cause of death and disability
in the United States– includes heart disease and vascular disease
2 million people diagnosed with an ACS/yr– 1.5 million will experience an acute MI
• Of these, 0.5 million will die– Almost half of these (250,000) will be sudden and within
the first hour of onset of symptoms
500,000 people will suffer a stroke each year in the US– Nearly 1/4 of these will die
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Cardiovascular Disease
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Cardiovascular Disease Atherosclerosis
– plaque accumulation within the lumen of the artery resulting in
• decreased lumen inner diameter• increased vascular resistance• potential for thrombus or embolus formation
– associated with • HTN• Stroke• Angina, Heart Attack• Renal Failure
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Cardiovascular Disease
Risk Factors– Age– Family History– Hypertension– Hypercholesterolemia– Male gender– Smoking– Diabetes
Contributing Risk Factors– Diet– Obesity– Oral contraceptives– Sedentary living– Personality type
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EMS System Role
The original Paramedic idea was based upon the need for rapid response to, identification of and emergency care for victims of:– Sudden Cardiac Death (SCD)– Acute Myocardial Infarction (AMI)
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EMS System Role The EMT and Paramedic roles in the
treatment of sudden cardiac death have been proven to make a difference in survival
Contributions being recognized in acute coronary syndromes
Key is a STRONG chain of survival
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EMS System Role
Weak vs. Strong Chain of Survival
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Anatomy & Physiology
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Anatomy Review
Parietal - pericardial sac
Pericardial fluid
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Anatomy Review
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Blood Flow
(mitral valve)
Chordae tendinae
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Cardiac Cycle
DiastoleSystole
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Cardiac Output
Stroke volume x Heart rate Also dependent upon
– Stroke volume• contractility• preload
– volume in ventricle at end of diastole
• afterload– resistance against which left ventricle must pump
– Starling’s law
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Vascular System
Aorta– ascending thoracic– descending thoracic– abdominal
Vena cava– superior – inferior
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Peripheral Vascular System Arteries & Veins
– 3 layers– tunica media > in
arteries– flow through a
vessel directly proportional to the fourth power of the radius
• atherosclerosis• vascular
constriction
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Peripheral Vascular System Venous Return
– Skeletal muscle pump• Muscular contraction squeezes adjacent veins causing a
milking action• Valves prevent opposite flow
– Respiratory Movements• Diaphragm contraction exerts pressure in abdomen and
decrease pressure in thoracic cavity• Blood moves to area of lower pressure in thorax
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Peripheral Vascular System Venous Return
– Constriction of veins• Sympathetic stimulation causes contraction of the
smooth muscle walls of veins
– Gravity
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Peripheral Vascular System
Subclavian
Axillary
Brachial
Radial
Ulnar
Aorta
Femoral
Iliac
Carotid
Popliteal
Dorsal PedalPosterior Tibial
Innominate
Major Arteries
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Peripheral Vascular SystemInternal Jugular
Subclavian
Axillary
Iliac
Femoral
Saphenous
External Jugular
Superior Vena Cava
Inferior Vena Cava
Major Veins
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Peripheral Vascular System
Negative Effects on Venous Return– Increasd intrathoracic pressure– PEEP/CPAP/BiPAP
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Peripheral Vascular System Arterial Resistance (afterload)
– BP• cardiac output x systemic vascular resistance
– (stroke volume x heart rate) x systemic vascular resistance
– Systemic vascular resistance• vasoconstriction
– Sympathetic NS effects
– Medications (prescription, non-prescription, recreational)
– Renin-Angiotensin-Aldosterone mechanisms
• atherosclerosis
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Coronary Circulation Usually thought of
as 3 arteries– Left (Main)
Coronary Artery• Left circumflex
artery• Left anterior
descending artery
– Right Coronary Artery
Areas affected
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Coronary Circulation
Coronary Sinus– short trunk receiving blood from cardiac
veins– empties into the right atrium between
inferior vena cava and AV orifice Cardiac veins
– feed into the coronary sinus
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Electrophysiology
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Electrical Conduction System
Sinoatrial Node (Sinus Node or SA Node)– “Normal pacemaker” of the heart
Internodal Atrial Pathways Atrioventricular Junction (AV junction)
– AV node• “Gatekeeper”• slows conduction to the ventricles allowing time for
ventricles to fill
– Bundle of His
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Electrical Conduction System His-Purkinje System
– Bundle Branches• Right bundle branch• Left bundle branch
– left anterior fascicle
– left posterior fascicle
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Electrical Conduction System
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Electrical Conduction System
Myocardial Cells– Characteristics
• automaticity: cells can depolarize without any impulse from outside source (self-excitation)
• excitability: cells can respond to an electrical stimulus
• conductivity: cells can propagate the electrical impulse from cell to another
• contractility: the specialized ability of the cardiac muscle cells to contract
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Electrical Conduction System Myocardial Cells
– Three groups of cardiac muscle• Atrial• Ventricular• Excitatory/Conductive Fibers
– Atria contract from superior to inferior– Ventricles contract from inferior to superior– Atria and Ventricles separated– Conduction from atria to ventricles only through
AV bundle– “All or None” principle of muscle function
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Electrophysiology Electrolytes
– Allow for electrical and mechanical function of heart
• Sodium: major extracellular cation, role in depolarization• Potassium: major intracellular cation, role in
repolarization• Calcium: intracellular cation, role in depolarization and
myocardial contraction• Chloride: extracellular anion• Magnesium: intracellular cation
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Electrophysiology Depolarization
– Reversal of charges at the cell membrane (opposite charge from resting state)
– Resting Potential• more intracellular negatively charged anions than
extracellular• approximately -90 mV in myocardial cell
– Action Potential• stimulus to myocardial cell allows sodium to enter cell
changing to positive intracellular charge• approximately +20 mV in myocardial cell• slow influx of Calcium follows
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Electrophysiology
Depolarization– Complete depolarization normally results in
muscle contraction Threshold
– minimal stimulus required to produce excitation of myocardial cells
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Electrophysiology Repolarization
– Process of returning to resting potential state• Sodium influx stops and potassium leaves cell• Sodium pumped to outside the cell
– Relative refractory period• cell will respond to a second action potential but the
action potential must be stronger than usual
– Absolute refractory period• cell will not respond to a repeated action potential
regardless of how strong it is
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Electrophysiology
Na+
Na+ Na+ Na+ Na+ Na+ Na+ Na+
Na+ Na+ Na+ Na+ Na+ Na+ Na+Na+
Na+ Na+
K+
K+
K+
K+
K+
Myocardial cells are POLARIZED. They have more positive charges outside than inside.
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Electrophysiology
Na+
Na+ Na+ Na+ Na+ Na+ Na+ Na+
Na+ Na+ Na+ Na+ Na+ Na+ Na+Na+
Na+ Na+
K+ K+ K+ K+ K+
Stimulation of cell opens “fast” channels in cell membrane. Na+ rapidly enters cell. Now there are more positive charges inside than outside. The cell is DEPOLARIZED.
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Electrophysiology
Depolarization causes Ca2+ to be released from storage sites in cell.
Ca2+ release causes contraction.
Calcium couples the electrical event of depolarization to the
mechanical event of contraction
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Electrophysiology
Na+
Na+
Na+
K+
Na+ Na+ Na+ Na+ Na+ Na+ Na+Na+ K+
Na+ Na+ Na+ Na+ Na+ Na+Na+K+ K+
K+
Cell then REPOLARIZES by pumping out K+ then Na+ to restore normal charge balance.
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Electrophysiology
Finally, the Na+-K+ pump in the cell membrane restores the proper balance of sodium and potassiuim.
Na+
Na+
Na+K+
Na+ Na+ Na+ Na+ Na+ Na+ Na+Na+ K+
Na+ Na+ Na+ Na+ Na+ Na+Na+K+ K+
K+
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Cardiac Conduction Cycle
Phase 0 = rapid Na influxPhase 1 = stop Na influx, K efflux, Cl influxPhase 2 = Ca influx, K influxPhase 3 = stop Ca influx, minimal K efflux, Na efflux Phase 4 = resting membrane potential state
Sarcomere: Fast Sodium Channels
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Electrophysiology Pacemaker Sites of the Heart & Intrinsic
Firing Rates– Specialized groups of cells called pacemaker sites
– SA Node 60 to 100 bpm
– AV Junction 40 to 60 bpm
– Ventricles 20 to 40 bpm
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Electrophysiology
SA Node
Internodal Pathways
AV Node
Bundle of His
Bundle Branches
Purkinje Fibers
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Electrophysiology
Na+
Na+ Na+ Na+ Na+ Na+ Na+ Na+
Na+ Na+ Na+ Na+ Na+ Na+ Na+Na+
Na+ Na+
K+
K+
K+
K+
K+
Specialized cells in conducting system (pacemaker cells) undergo spontaneous diastolic depolarization. During diastole, calcium leaks into cell through calcium channels.
Ca2+
Ca2+Ca2+
Ca2+
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Electrophysiology
Na+
Na+ Na+ Na+ Na+ Na+ Na+ Na+
Na+ Na+ Na+ Na+ Na+ Na+ Na+Na+
Na+ Na+
K+ K+ K+ K+ K+
When a critical amount of calcium has entered the cell, fast channels open, sodium enters, and rapid DEPOLARIZATION begins.
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Electrophysiology
Electrical impulse from depolarizing pacemaker cell spreads to working myocardial cells and stimulates them.
Depolarization and contraction result.
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Electrophysiology
The SA Node is the heart’s primary pacemaker
WHY?
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Electrophysiology
If the SA Node does not fire, what site will take over?
What will happen to the heart rate?
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Electrophysiology Ectopic Impulse Formation
– Enhanced Automaticity• Pacemaker cells
– lost function of contractility– acquired function of impulse formation
– May lead to ectopic (extra) beats– Reentry
• abnormal wavefront propagation• “electrical loop”• accessory pathway
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Effects of ANS on Electrophysiology Medulla Carotid Sinus and Baroreceptors Parasympathetic Nervous System
– Acetylcholine– Cholinesterase
Sympathetic Nervous System– Alpha– Beta
• Inotropic effect• Dromotropic effect• Chronotropic effect
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Electrophysiology: Results of Depolarization & Repolarization
Atrial Depolarization
Ventricular Depolarization
Ventricular Repolarization