M2 Cardiology Key Facts - Week 2

Question 1

Determining ECG Axis - 3 Options

Answer 1

Normal = Lead I + II = Positive
LAD = Lead I Positive and Lead II Negative
RAD = Lead II Positive and Lead I Negative/Positive Depending on Degree of RAD

Question 2

Left Axis Deviation - ECG Findings + Causes (3)

Answer 2

ECG = Lead I Positive + Lead II Negative

Causes - LVH + LAFB + Inferior Wall MI

Question 3

Right Axis Deviation - ECG Findings + Causes (2)

Answer 3

ECG = Lead II Positive + Lead II Negative

Causes - RVH + LPFB

Question 4

Normal Ventricle Depolarization Pathway

Answer 4

Start in Left Septum -
Travel to RV (Up in Lead V1/Down in V6) -
Travel to Left Lateral (Up in V5/6 Down in V1)
Travel to Posterior Left

Question 5

LBBB - ECG Features

Answer 5

WiLLiaM - Big S (W in V1) + Notched R (M in V6)

Wide QRS

Question 6

RBBB - ECG Features

Answer 6

MaRRoW - Rabbit Ears in V1 vs. Big S (W) In V6

Wide QRS

Question 7

Left Anterior Fascicle Block

Answer 7

Superior Left Knocked Out - LAD

Question 8

Left Posterior Fascicle Block

Answer 8

Inferior Right Knocked Out - RAD

Question 9

Inferior MI - Leads with Q Waves + Artery

Answer 9

Leads - II, III, aVF

Artery - RCA

Question 10

Anteroseptal MI - Leads with Q Waves + Artery

Answer 10

Leads - V1-2

Artery - LAD

Question 11

Anteroapical MI - Leads with Q Waves + Artery

Answer 11

Leads - V3-4

Artery - LAD

Question 12

Anterolateral MI - Leads with Q Waves + Artery

Answer 12

Leads - V5-6

Artery - Circumflex

Question 13

Posterior MI - Leads with Q Waves + Artery

Answer 13

Leads - V1-2 with Tall R

Artery - RCA

Question 14

Short PR Causes (2) + Long PR Causes (1)

Answer 14

Short PR - Preexcitaiton Syndrome + Junctional Rhythm

Long - 1st Degree AV Block

Question 15

Long QRS Interval Causes (4)

Answer 15

1) BBB
2) Ventricular Ectopy
3) Drugs
4) Hyperkalemia (Tented T-Wave with Short PR)

Question 16

Long QT Causes (5)

Answer 16

1) Hypokalemia (with U Wave after T)
2) Hypocalcemia
3) MI
4) Long QT Syndrome
5) Drugs - Class IA + III

Question 17

Short QT Causes (2)

Answer 17

1) Hypercalemia

2) Tachycardia

Question 18

Leads for Atrial Enlargement (2)

Answer 18

Leads II and V1

Question 19

Right Atrial Enlargement ECG

Answer 19

Lead II - Big Increase in R Component

V1 - Bigger Bump Up (vs. Down for L)

Question 20

Left Atrial Enlargement ECG

Answer 20

Lead 2 - Notched (Volcano)

V1 - Bigger Down (L Deflection)

Question 21

Escape Rhythm - Define + 2 Types

Answer 21

Something other than the SA Node Sets the Pacemaker Potential
Types - Junctional + Ventricular

Question 22

Junctional Escape Rhythm

Answer 22

Normal QRS with a beat of 40-60 (AV Node takes over pacemaker function + sometimes the P wave is burred in QRS)

Question 23

Ventricular Escape Rhythm

Answer 23

Wide QRS with a beat of 30-40 - Has BBB on side opposite to the one setting the pace (E.g. Left Pace Rhythm = RBBB)

Question 24

Early Afterdepolarization Causes (4)

Answer 24

Long QT - Genetic + Hypokalemia + Class Ia/III Anti-Arrhythmia Meds
Can develop into V-Tachy + Torsades

Question 25

Delayed Afterdepolarization Causes (2)

Answer 25

High Intracellular Ca (Digitalis Poisoning) +_ Massive Catecholamine Surge

Question 26

Causes of Conduction Blocks (4)

Answer 26

Fibrosis + Hyperkalemia + MI + Gap Junction Abnormalities

Question 27

Arrhythmias caused by Reentry (4) + 2 Major Parts of Reentry

Answer 27

Monomorphic V-Tach (s/p MI)
AV Reentry Tachy.
AV Node Reentry Tachy.
Atrial Flutter/Fib

Slowed conduction velocity + unidirectional block

Question 28

AVRTs (3) + Associated Pathology

Answer 28

WPW - Conduction down the Accessory pathway (leads to delta waves as right depolarizes first)
Orthodromic - Anterograde down the AV Node and retrograde up the accessory pathway
Antidronic - Anterograde down the accessory pathway and retrograde up the AV Node

Question 29

Monomorphic vs. Polymorphic V-Tach

Answer 29

Monomorphic = Regular Rate/QRS - Typically Structural Abnormality leading to reentry (E.g. MI Scar)

Polymorphic = Irregularily Irregular = Multiple Ectopic Foci causing changing reentry circuits - Torsades de Pointes

Question 30

Typical AV Node Block Causes (4)

Answer 30

1) Age
2) Fibrosis
3) STEMI
4) Cardiomyopathy

Question 31

Mobitz Type 1 Causes (3)

Answer 31

Inferior MI + Digitalis + High Vagal Tone

Question 32

Mobitz Type II Causes (3)

Answer 32

Extensive Anterior MI + Degenerative Disease + More Serious

Question 33

Supraventricular Arrhythmias - 3 Groups + 2 Major Treatment Classes

Answer 33

1) Sinus Node
2) Atrial - APCs + Atrial Tachy + Afib
3) AV Node Reentry - Junctional Complexes + AVNRT + AVRT

Question 34

Atrial Fibrilation Presentations (5)

Answer 34

Palpitations + CVA + HF + HTN + Hyperthyroid

Question 35

AVNRT vs. AVRT

Answer 35

AVNRT - Narrow QRS with hidden P-Wave + Tachy - Based on Slow AV Pathway
AVRT - Wider QRS with Delta Wave
Based on Accesory Pathway

Question 36

AVNRT Termination (3)

Answer 36

Adenosine + Valsalva + Carotid Massage

Question 37

V-Fib Causes (3)

Answer 37

1) Acute MI
2) Cardiomyopathy
3) Degeneration of V-Tach/Torsades

Question 38

Congenital Long QT Genes (3)

Answer 38

1 = Activity (swimming)
2 = Noise (Alarm)
3 = Sleeping

Question 39

Stunned Myocardium - Description

Answer 39

Decreased contractile without necrosis + bounce back after a short episode of transient ischemia

KEY : Prolonged systolic function without necrosis after

Question 40

Hibernating Myocardium - Description

Answer 40

Chronic contractile dysfunction due to reduced blood supply without necrosis

Question 41

Variant Angina

Answer 41

Vasospasm leads to random ST elevation due to transmural ischemia

Question 42

Silent Ischemia

Answer 42

ECG Ischemia without symptoms

Question 43

Syndrome X

Answer 43

Ischemia signs/symptoms without coronary flow pathology

Question 44

Myocardial ISCHEMIA Signs/Symptoms (6)

Answer 44

Rales + S4 + Mitral Regurgitation + Diaphoresis + Increase HR + Increase BP

Question 45

Signs/Symptoms - ACS (2) vs. Pericarditis (4) vs. Aortic Dissection (3)

Answer 45

ACS
Retrosternal pressure pain + radiates left
ECG with ST Elevation/Depression

Pericardits
Sharp pleuritic pain (worsens on inspirtaion) + Relieved by sitting forward + Friction Rub + Diffust ST Elevation

Aortic Dissection
Tearing/Ripping Pain (10/10 Acute Onset) + Widening of Mediastinum on CXR

Question 46

Signs/Symptoms ACS (2) vs. Esophageal Spasm (3)

Answer 46

ACS
Retrosternal pressure pain + radiates left
ECG with ST Elevation/Depression

Esophogeal Spasm
Retrostrenal but worse with swallowing + dysphagia + antiacid relief

Question 47

Acute MI Complications (2)

Answer 47

0-4 Hours - Cardiogenic Shock

4-24 Hours - Arrhythmias due to lack of conduction + decreased membrane potentials (treat with lidocaine)

Question 48

Inflammatory MI Complications (4)

Answer 48

1-3 Days - Neutrophils (Yellow)
1) Acute Fibrinous Pericarditis - Chest Pain + Friction Rub
4-7 Days - Marcophages (Yellow)
1) Septal Rupture - Shunt Forms
2) Papillary Muscle Rupture - Mitral Regurgitation
3) Ventricle Fee Wall Rupture - Tamponade

Question 49

Fibrinous MI Complications (2)

Answer 49

1) Aneurysm of weakened wall or thrombus

2) Dressier Syndrome - Autoimmune Antibody Pericardia - Inflammation of the Pericardium

Question 50

Aortic Stenosis - Physical Exam Findings - Murmur (3) + Signs (2)

Answer 50

Murmur - Systolic Coarse Crescendo-Decrescendo Murmur with Ejection Click + Possible S4 (from Stiff LV)

Pulsus Parvus - Weak/Delay Carotid Pulse
Paradoxical S2 Splitting

Question 51

Aortic Regurgitation - Physical Exam Findings - Murmur (2) + Signs (2)

Answer 51

Murmur - Decrescendo Diastolic Murmur - Best heard at the end of expiration with the patient leaning forward

Findings - Bounding Pulses + Wide Pulse Pressures

Question 52

Aortic Stenosis Causes (2)

Answer 52

1) Normal Wear and Tear

2) Chronic Rheumatic Fever (along with mitral valve issues) - Key pathology is fusion of the commisures

Question 53

Aortic Stenosis Symptoms (5)

Answer 53

1) LV Hypertrophy
2) Angina
3) CHF
4) Exertion Syncope
5) A-Fib (LA Dilation)

Question 54

Aortic Regurgitation Causes (2)

Answer 54

1) Congentital/Bicuspid Leaflet

2) Aortic Root Dilation (E.g. Dissection or Aneurysm)

Question 55

Acute Aortic Regurgitation

Answer 55

LV is normal and non-compliant - Transfers the pressure increase back to the LA and Pulm Circuit
Causes Pulm Edema + Dyspnea

Question 56

Chronic Aortic Regurgitation

Answer 56

Long term the LV becomes compliant via hypertrophy and dilation - CHF due to inability to maintain CO

Question 57

Austin-Flint Murmur

Answer 57

Occurs in Aortic Regurgitation - Low frequency diastolic rumble
High LV Pressure (from Aortic Regurgitation) creates a change in the LA-LV pressure gradient during diastole
New gradient causes murmur while blood crosses the mitral valve

Question 58

Acute Rheumatic Fever - Cause + Pathophysiolgy

Answer 58

Caused by Group A Beta Hemolytic Streptococci (Pharyngitis) - 2-3 Weeks After

Bacterial M-Protein triggers Auto-Immune Response via molecular mimicry

Question 59

Acute Rheumatic Fever - JONES

Answer 59

J - Joints - Poly-arthritis
O = Heart = Acute Pancardits + Chronic Endocarditis
N = Nodules = Subcutanus Nodules
E = Erythemia Marginatum = Skin rash with spreadiny red edge
S = Sydenham Chorea = Longest Lasting 1=2 Years

Question 60

Acute Rheumatic Fever - Histopathology (3)

Answer 60

Aschoff Bodies = Foci of Chronic Inflammation with Reactive Histiocytes
Histiocyes = Slender Wavy Nuclei = Antischkow Cells
Giant Cells

Question 61

Chronic Rheumatic Fever - Cardiac Sequel

Answer 61

Almost Always Mitral Valve - Then Aortic - Then Tricuspid (won’t get tricuspid without mitral)
Thickening of the chordae tendinae + cusps
Fusion of the aortic valve commisures

Question 62

Mitral Stenosis - Physical Exam Findings - Murmur (3)

Answer 62

Opening snap followed be decrescendo diastolic murmur
Accentuated S1 (Atrial Contraction = Late Accentuation Murmur)
The closer the opening snap is to S2 = Increased Murmur Severity

Question 63

Mitral Regurgitation - Physical Exam Findings - Murmur (2)

Answer 63

Holosystolic Blowing Murmur

Accentuated with clenched fists + squatting + expiration

Question 64

Mitral Prolapse - Physical Exam Findings - Murmur (1) + Risk Factors (2)

Answer 64

Mid-Systolic Click accentuated by valsava + decreased by squatting
Risk Factors - Marfan + Ehler-Danlos

Question 65

Mitral Prolapse - Increases Risk Of (4)

Answer 65

Infective Endocarditis
Arrhythmia
Emboli
Progressive Mitral Regurgitation

Question 66

Mitral Stenosis Symptoms - Early (1) + Late (4) + End Stage (3)

Answer 66

Early - Dyspnea on Exerction
Late - Left HF - Severe Pulm. Congestion + Dyspnea at Rest + Orthopnea + PND
End Stage - Right HF - Ascities + Hepatomegaly + Peripheral Edema

Question 67

Mitral Regurgitation - Acute Causes (3) + Symptoms (2)

Answer 67

Causes - Papillary Muscle Rupture (MI) + Endocardities + Ruptured Chordae Tendonae

Symptoms - Acute = Pulm Overload = Pulm Edema + Congestion

Question 68

Mitral Regurgitation - Chronic Cause (4) + Symptoms (1)

Answer 68

Causes - DIlated Cardiomyopathy + Rheumatic Fever + Mitral Prolapse + Calcified annulus

Symptoms - More Dilated Heart Spares the LA/Pulm but eventually mimics Left HF

Question 69

Pulmonic Stenosis - Key Points (2)

Answer 69

1) Rare In Adults + Okay to treat with valvuloplasty

2) Linked with RBBB to Widened S2 Splitting

Question 70

Pulmonic Regurgitation - Key Points (2)

Answer 70

1) Functional (Pulm. HTN)

2) Left Sternal Border - High Pitched Decrecendo Murmur

Question 71

Tricuspid Stenosis - Key Points (3)

Answer 71

1) Opening Snap + Decrescendo Diastolic Murmur
2) Large Alpha Wave on JVD (Atria Contracts Hard)
3) Similar Symptoms to MS with Right Heart

Question 72

Tricuspid Regurgitation - Key Points

Answer 72

1) Usually a functional issue (not a problem with the valve
2) Holosystolic Murmur that increases on inspiration
3) Typical Causes = High RV Pressure + Rheumatic Valve Disease (will see Mitral disease too)
4) Elevated P wave on JVD Tracing (due to increased atrial filling volume during systole)