Cardiology

Question 1

Truncus Arteiosis

Answer 1

• Forms the outflow tracts of the LV
• Imigration of neural crest cells, endocardial cushion tissue and membranous ventricular septation allow for proper looping and function

Question 2

Sinus Venosus

Answer 2

-Forms the smooth part of the RA (Right SV) and the coroncary sinus (Left SV)

Question 3

Bulbus Cordis

Answer 3

-Smooth parts of ventricles

Question 4

Primitive atria and ventricles

Answer 4

• Rotate during development

- Trabechulated muscle

Question 5

Anterior and Common cardinal veins

Answer 5

-Make SVC

Question 6

Posteior Cardinal Vein

Answer 6

-Makes IVC

Question 7

Vitelline Veins

Answer 7

-Make Portal Circulation

Question 8

Aortic Arches

Answer 8

• 1,2 are relatively meaningless with portions of external carotid coming off of pharyngeal arches
  3: Common Carotid
  4: Aortic arch and proximal brachiocephalic
  6: Pulmonary arteries

Question 9

Interventricualar Septation

Answer 9

• Muscular portion forms from the bottom up and is rarely assicated with VSD
• Membranous poriton forms near the top with endochardial cushion (AV) and NC cells
• Membranous is most common site of defect
• Eisenmienger occurs when VSD leads to pHTN leading to RV hypertrophy which will flip the shunt to R to L

Question 10

Atrial Septation

Answer 10

• Septum primum grows from top toward bottom and ednocardial cushin tissues. Is flexible and may not form right with EC in downs elading to primum type of defect
• Secundum forms from top down and bottom up and is rigid
• Together form a one way valve allowing to bypass pulmnary circulation
• Fuse at birht with LA greater than RA
• If don’t fuse is PFO
• Secundum is also common defect with fixed splitting
• PFO can cause DVT to go to systemic circulation

Question 11

Fetal Erythroposesis

Answer 11

• Begins in yolk sac from 3 weeks to 10 weeks
• Liver becomes dominant in early gestation (4-40 wks)
• Spleen provides minimal support
• Bone marrow begins to produce in week 20 and is the definitive site
• Fetal Hgb has decreased affinity for 2,3BPG leading to increased Oxygen binding capabilities

Question 12

Fetal Circulation

Answer 12

• Oxygenated blood comes through umbilical vein and joins IVC dumpin into RA.
• In RA can tak 2 routes, through RV or to LA
• If goes through RV then out to lungs with majority divered via the DA to aorta
• If through PFO goes through LA to LV to aorta
• Systemic circulation becfore draiing into umbilical arteries for delivery back to placenta

Question 13

Three Shunts

Answer 13

• Ductus Venosus allows blood to bypass the portal circuit in the liver
• Ductus Arteriosus allow blood from pulmonary artery to enter the aorta and bypass the lungs
• Foramen Ovale allows majority of oxygen rich blood to flow to LA to LV to aorta to systemic
• PReductal coarctation, majority flows through RV and out through DA to body, no development of collaterals leads to early cyanosis. Post ductal means that collaterals through the internal intercostals and internal throacic develop to allow for communication with superior and infereior epigastrics. These pateints will present later with differential BP

Question 14

Fetal Derivatives in permanent tissue

Answer 14

• Umbilical Vein: Ligamentum tere hepatatis whihc is part of falciform ligament
• Umbilical arteries are medial umbilical ligaments
• Allantois/urachus is median umbilical ligament. Persistence can lead to urachal cyst or adenocarcinoma of the superioer pole of bladder
• Ligamentum Arteriosum: Is close DA (Decrease in PGE with elevated O2 leads to closure). Is a site of anchor of arta, so can be nidus for traumatic tear
• Ligamentum Venosum: Liver Shunt

Question 15

Cardiac Projections

Answer 15

• RA is superior and medial
• RV forms majority of anterior projection
• LV forms majority of diaphragmatic porjection (Inferior border)
• LA in conctact with reccurent laryngeal (Hoarsness) and Esophagus (Dysphagia)

Question 16

Cardiac Circulation

Answer 16

• RCA: Nodal, RV (Marginal), and majority (85%) posterior IV septum
• LCX: LV free wall, L dominant supplies posterior IV septum
• LAD: ANteiror LV and Anterior 2/3 IV septum

Question 17

CO

Answer 17

-HR * SV
MAP = CO * TPR
-MAP = 1/3 systolic + 2/3 diastolic
-EF: ESV-EDV/(EDV)
-Exercise serves to increase CO by increasing HR and decreasing TPR. Eventually TPR maximized and only increase is with increased HR

Question 18

Contractility

Answer 18

• A function of the amount of Ca in cardiac cells
• Increased Contractilty: Caetacholamines (Increase Ca release from SR), Digoxin increases intracellular Na leading to impaired Ca exchange and increased Ca).
• Preload also increases CO by starling law of stretch of sarcomeres
• Decreasd extracellular Na can also increase intracellular Ca
• Contractility is decresed with decreased Ca: Beta blockers, Ca channel blockers (non DHP; verapamil and diltiazem), Acidosis, hypoxia (60 seconds stop contracting), Heart Failure

Question 19

Preload

Answer 19

• EDV a function of volume and venoconstriction
• Decreased with nitrates (Venodilation)
• Increased with caetacholamines (Venoconstriction)
• Increase with exercise and volume overload

Question 20

Afterload

Answer 20

• MAP, function of arteriolar constricion
• Arteriolar constriction (Caetacholamines)
• Arteriolar dilation (Hydralzaine, minodoxil)

Question 21

Resistance and flow

Answer 21

• P=QR (PRessure = Flow*Resistance)
• Resistance = (viscosity * length)/Radius^4
• Dilation leads to massive loss of R
• Polycythemia, spherocytosis, increased protein (Multiple Myeloma) leads to increased viscosity
• Anemia leads to decreased viscosity

Question 22

Resistance Circuits

Answer 22

Series: R = R1+R2 etc

-Parallel: which is sirculation 1/r=1/r1+1/r2 etc

Question 23

Cardiac and vascular function curves

Answer 23

• Ascending line is contracility
• Descending line is volume status (Can be effected by venocosntriction)
• X intecept is means systemic filling pressure
• Blood volume is also a function of TPR, decreased TPR leads to effectively increased blood volume and vice versa
• Y axis is CO and venous return (Which are equal)
• X axis is Right Atrial Filling Pressure/EDV

Question 24

Cardiac Cycle

Answer 24

• Contractility is a slope from the origin to S2
• Afterload is EDP/MAP
• EDV is preload

Question 25

JVP Trace

Answer 25

• A wave is atrial contraction
• C wave is ventricular contraction that causes a bulge at the tricuspid valce
• X descent is from atrial relaxation
• V wave is atrial filling (gradual)
• Y descent is from rapid ventricular filling
• All curve is in pressure and so corresponds not to volume but to atrial contraction/relaxation

Question 26

Kussmaul Sign

Answer 26

• Increase in JVP with inspiration

- Filling defect. Tamponade, CHF, etc

Question 27

A wave changes

Answer 27

• A waves will be absent in A fib

- Cannon A waves will occur in heart blocks where there is contraction of the atria against a closed AV valve

Question 28

Pulsus Paradoxus

Answer 28

• Inspiration leads to decrease in systolic BP of greater than 10 mmHg
• Inspiration decreases pressure in pulmonary veins and causes blood to pool which leads to a decrease in LV preload. This leads to a decrease in systolic BP which is sensed by baroreceptors leading to increased HR
• Seen in Cardiac Tamponade (Decreased filling leaves little reserve to pool)
• Also seen in obstructive lung diseases (Increased pooling exacebates the effect
• This effect occurs in the pulmonary venous system, the opposite occurs in the arterial system as pressures will rise beause of elevaed RV filling

Question 29

ECG

Answer 29

Electrical signal always occur before contraction.

• QRS is at the very begining of atrial contraction and T wave, repolarization is in the middle
• This leads to discoordination between LV pressure/volume curve and EKG

Question 30

Normal Splitting

Answer 30

• Inspiration leads to increased RV filling leading to a longer time to eject, causing a delay in emptying and heart sounds
• Pulmonic goes later

Question 31

Widened splittin

Answer 31

• When there is exagerated closure of the pulmonic valve

- Pulmonic stenosis, RV dysfunction, RV failure, RBBB

Question 32

Fixed splitting

Answer 32

• Splitting does not vary with inspiration
• ASD
• Allows for pressures between RA and LA to equilibrate at all times, no change in splitting

Question 33

Reversal (Paradoxical spltiting)

Answer 33

• There is a delay in closure of the aortic valve leading to the Aortic S2 to be delayed, during breathing when P2 gets longer they will come together
• Seen in aortic stenosis and LBBB

Question 34

Right 2nd intercostal space

Answer 34

• Aortic listening area

- Systolic: AS

Question 35

Left second intercostal space

Answer 35

• Pulmonic listening area
• Systolic is PS
• Diasolitc is PR
• Also can hear ASD and PDA

Question 36

Left sternal border (not T)

Answer 36

Systolic: Hypertrophic Cardiomyoathy (worse with valsalva, decreased return)
-Diastolic: Aortic and Pulmonic Regurg

Question 37

T Left sternal border (5th rib)

Answer 37

Systolic: Tricuspid regurg (endocarditis)
Diastolic: Tri Stenosis,
-Pansystolic: VSD
Diastolic: ASD

Question 38

M Apex (Midclavicular line) 5th intercostal space

Answer 38

Systolic is mitral regurg

Diastolic is mitral stenosis

Question 39

Maneuvers

Answer 39

• Handgrip is going to increase vascular resistance and afterload leading to increse in regurg flow murmurs. Makes AS and Hypertrophic better
• Inspiration increases righ sided
• Valsalve decreases return to RV, increases hypertrophic cardiomyopathy and MVP

Question 40

Mitral Regurg

Answer 40

• Systolic blowing murmur heard best at the apex. Midclavicular 5th intercostal
• MVP is common cause
• Endocarditis, RF
• Rupture of papillary muscle
• LV dilation (CHF)

Question 41

Trcuspid Regurg

Answer 41

• Systolic, tricuspid

- RF, Endocarditis, RV dilation

Question 42

AS

Answer 42

• Systolic openins snap and crescendo decrescendo murmur
• Weak and delayed pulses
• May cause dyspnea, angina, and syncope
• Most comonly age related, increased with RF and bicupid valve

Question 43

VSD

Answer 43

• Pansystolic murmur at Left strenal border
• Increased with handgrip exercise
• Membranous most common

Question 44

MVP

Answer 44

• Systolic crescendo murmur loudes near S2
• Many causes and most commonl valvular lesion
• Can lead to MR
• Worse with valsalva (No opposing fluid in LA)

Question 45

AR

Answer 45

• Diastolic decrescendo murmur heard best at L sternal border. Immediate after S2
• Bounding pulses and headbobbing
• Worse with handgrip improved with vasodilators
• RF, Aortic Anyeruism and dilation, Syphilis

Question 46

MS

Answer 46

• Rumbling diastolic murmur at mtitral area following opening snap
• Complication of lonstanding RF
• Can cause LA dilation and A fib

Question 47

PDA

Answer 47

• Continous machine like murmur
• Heard best at midclavicular line or near pulmonic listening area (2nd intercostal space)
• Congenital rubella, prematurity
• PGE keeps open and indomethacin closes

Question 48

Ventricular AP

Answer 48

• Phase 0: Depolarization due to opening of V gated Na Channels. Connection through gap junctios allows for opening
• Phase 1: Na channels close and K channels open. QRS
• Phase 2: V gated (L type) Ca channels open and oppose K channels leading to plateau. Ca influx signals Ca release from SR to allow for contraction. QT interval and contraction
• Phase 3: L type Ca channels close and K channels cause repolarization. T wave
• Phase 4: K permiability maintains resting potential

Question 49

Differences beteen Ventricular and Nodal

Answer 49

• Nodal there is no V gated Na channels. Leads to slowed conduction through AV node, leading to delay for vent filling
• T type and L type Ca channels both present. T type allow for intiail V opening
• HCN present which is permiable to Na and gated by hyperpolarization and cAMP ( B1 are Gs and M2 are Gi)
• Absence of phases 1 and 2

Question 50

Nodal Action Potential

Answer 50

Phase 0: Opening of T-Type and L-type Ca channels allow for depolarization

• Phase 1,2 are gone
• Phase 3: K channels open and Ca close to allow for repolarization
• Phase 4: HCN allows for Na influx in response to depolarization and cAMP

Question 51

EKG

Answer 51

• Is only electrical information from a gross perspective. Contractile and individual information is not presnt.
• P Wave: Atrial Depol
• PR: Nodal delay because of lack of Na channels in AV node
• QRS: Conduction through Venticles, perkinje and gap jcts
• T wave: Ventricular depolarization
• U Wave: hypokalemia and bradykardia
• QT interval is contraction period, when Ca is intracelular

Question 52

Speed

Answer 52

Perkinje (only conduction) faster than atria (Conduction and contraction) faster than ventricle (Contraction and conduction) faster than AV (Delay)

Question 53

Pacemaker rates

Answer 53

SA, AV, His, PErkinje/Vent

Question 54

Torsades

Answer 54

• Twisting rythm commonly caused by long QT, can devolve into V tach, must get out
• Precipitated by Long QT

Question 55

Long QT Congenital

Answer 55

• Problems most commonly in K channel, can also be problem in Na channel
• Most common syndrome also presents with deafness

Question 56

Drugs Causing Long QT

Answer 56

• Macrolides (Clarythromycin)
• Class IA: Quinidine, Procainamide, Disopyramide
• Class 3: Amiodarone, stalol, Ifebittide, Dofetilitide
• Antipsychotics (Haloperidol)
• TCA (most common cause of death in ovedose). Treat overdose with NaHCO3 to trap in urine

Question 57

A fib

Answer 57

• Irregular atrial contractions with no observable P wave
• JvP will also show no A wave
• Irregularly irregular rythm as AV nodal repolarization sets ventricular rate
• Caused by dilation commonly: MR, MS, DCM/CHF, Alcohol, Sleep Apnea
• Major risk is thrombus formation because of turbulent and static flow, must be anticoagulate
• Rythm control can be accomplished with Beta blockers or Ca channel (Diltiezam and verapamil)
• Also can shock out of rythm
• Like many arrythmias, usually prsents with palpiations, syncopal episodes, light headedness

Question 58

Flutter

Answer 58

• Regular sawtooth pattern (Cannon A possible)
• Convert with class IA (Quinidine, procainamide, disopyrmaide) or III (Amiodarone, sotalol)
• Can control with beta and Ca blockers (Verapamil and diltiazam)

Question 59

V Fib

Answer 59

Shock and CPR

Question 60

First Degree AV nodal block

Answer 60

• PR lenghtened to greater than 0.2

- Assymptomatic

Question 61

Second Degree Type 1 (Wenckebach)

Answer 61

• Progressively lengthening PR with an eventual drop in beat.
• Usually assymptmatic

Question 62

Second Degree type 2

Answer 62

• Somewhat random, but may be controlled loss of QRS after P waves. There is not lengthening. As if AV node forgot to contract
• AV nodal damage cause
• Can convert to thrid degree, often symptomatic with syncope, often need pacemaker

Question 63

Third Degree

Answer 63

• No connection between atria and venticles (Cannon A)
• Often have synope, SOB, dyspnea, etc
• Treat with pacemaker

Question 64

Wolf Parkinson White

Answer 64

Delta waves before QRS show there is an accessory pathway

-Can allow for SVT to be conducted and can cause retrograde (Through av node) re-entrant circuits. dangerous wth SVT

Question 65

Re-entry

Answer 65

• Certain cells depolarize and repolarize while conduction is still occuring
• Commonly caused by fibrosis (MI, infection, etc) that leads to odd ciruits

Question 66

Sick Sinus

Answer 66

• Irregular and impaired QRS and Ventricular rythm that originates in sinus node
• Many causes, but damage to sinus node (MI of RCA) common

Question 67

Baroreceptors

Answer 67

• Carotid body is carried by CN9 and responds to HTN and hypotension
• Aortic Body is carried by CN 10 and responds only to hypertension
• End on nucleus solitarius and signal through Dorsal motor nucleus to vagus to decrease HR

Question 68

Chemoreceptors

Answer 68

• Central in CZT detect CO2 and pH of CSF, most important under normal conditions, stimulate breathing
• Peripheral can respond to CO2 and O2. Normally not used unless driven by O2 breathing.
• COPD, Sleep Apnea, Heroin OD are driven by O2

Question 69

Normal Pulmonary pressure

Answer 69

25/10

Question 70

PCWP

Answer 70

• Swanz-gantz catheter measures LA pressure

- Can determin MS as LA pressure will be greater than LV pressure during diastole

Question 71

Cushing Reflex

Answer 71

• Increased ICP leads to vasoconstriciton of arterioles which leads to ischeima causing SANS activation. This increases systemic BP and causes baroreceptor firing leading to decrease in HR
• increased ICP leads to HTN and Bradychardia
• Also can cause ulcers because of vagal activation

Question 72

Autoregulation

Answer 72

• SANS is normal systemic control
• Local metabolites in systemic circulation and brain: lactate, K, CO2, NO, Adenosine
• In lungs the opposite happens, hypoxic vasoconsriction shunts blood to proper location. Causes pulmonary edema of altitude

Question 73

Right to left shunts. Early Cyanosis

Answer 73

-TOF, Tricuspid Atresia, Transposition, TAPVR, Truncus

Question 74

TOF

Answer 74

• Associated with Digeorges, results in anterosupero displacment of the infundibular septum
• Pulmonary Stenosis (Most important determining factor)
• Overriding Aorta
• RVH (Causes early R to L shunt)
• VSD
• Patients get tet spells, mild cases may not be seen, patients will squat and increase systemic resistance to increase flow through stenosed pulmonary artery
• Tx: Surgical

Question 75

Tricuspid Atresia

Answer 75

• Tricuspid valve never forms, results in hypoplastic RV

- Requres ASD and VSD to allow flow from RA to LA to LV to RV to lungs.

Question 76

Transposition

Answer 76

Truncus and septation (NC) failed to rotate, Seen commonly in mothers with DM

• Leads to two distinct circulations, requries a shunt for survival
• Maintain PDA with alpostadil (PGE) and surgical treatment

Question 77

TAPVR

Answer 77

-Pulmonary veins attach to coronary sinus and drain into RA, requres ASD or VSD to allow oxygenated blood to enter systemic ciruclation

Question 78

Patent Truncus

Answer 78

• Normally sepation with endochardial cushion tissue and NC. Fails to form
• OFten assoiated with membranous VSD

Question 79

Ebsteins Anomaly

Answer 79

• Mothers taking lithium

- Tricuspid valve is placed lower on RV this leads to a massiv RA but shrunken RV

Question 80

Blue Kids. L to R shunts

Answer 80

• Occurs because of Eisenmiengers syndrome
• Early R to L leads to pHTN and RVH leading to reversal of shunt
• Cyanosis, clubbing, polycythemia

Question 81

VSD

Answer 81

Most common, commonly seen in FAS

-Pansystolic murmur at sternal border

Question 82

ASD

Answer 82

• Highly asscoated with Downs and other trisomies or chromosomal anomalies. Ostium primim
• Downs also get other endocardial cushion (VSD, Truncus, AV)
• Fixed splitting
• PFO is a more mild form that is not clinically present but can cause paradoxical emboli to clot the systemic circulation

Question 83

PDA

Answer 83

• Normally carries oxygen rich blood from RV to Aorta in fetal life
• RVH, pHTN, and machinlike murmur. If not corrected, differential cyanosis, with most in lower extremeties. Brachiocephalic comes off before PDA
• Maintained with rubella, prematurity, and low oxygen
• Closed with indomethacin
• Can over time cause eisenmingers

Question 84

Preductal Coarctation

Answer 84

Coarctaion occurs before the DA. No collaterals develop in fetal life

• Early cyanosis
• Associatde with Turners syndrome

Question 85

Postductal coarctation

Answer 85

Coarctation after DA, and after brachiocephalics

• Leads to collateral circulation development with internal thoracic (Rib notching of intercostals). Communicates with epigastrics
• Patients will not present with early cyanosis but can resent with late BP differences between upper and lower extremeties
• Associated with bicuspid aortic valve

Question 86

Associations

Answer 86

• Digeorge - TOF
• Downs - ASD
• Rubell - PDA
• Turner - PReductal coarcataion
• Marfans - MVP and Regurg
• DM - Transposition

Question 87

HTN

Answer 87

BP - greater than 140/90. Commonly there is isolated systolic in elderly because of reduced arterial compliance

• Primary is most common and multifactorial
• Secondary usually due to reduced renal flow or renal dysfunction.
• Women think fibromuscular dysplasia
• Men think renal artery atherosclerosis

Question 88

Hyperlipidemia signs

Answer 88

• Atheromas are lipid laden plaques in intima of blood vessels
• Xanthomas are lipid laden histiocytes in skin. Eyelids, tendons, and arcus senilis (eye) seen in major hyperlipidema

Question 89

Hyaline arteriosclerosis

Answer 89

• Transudate of proteins ad NEG in DM/HTN leads to fibrosis (SM) of vessel wall
• Leads to progressive narrowing of intima
• Causes beign nephrosclerosis in kideny leading to decreased renal blood flow and progresive loss of nephrons
• HTN only effects afferent arteriole while DM effects afferent and efferent
• Leads to increased renin release and propigation of HTN

Question 90

Hyperplatic arteriolsclerosis

Answer 90

• Malignant HTN causes fibrinous necrosis of intima and media
• And causes onion skin proliferation of smooth muscle cells
• Leads to flea bitten kidney and acute renal fialure

Question 91

Mockenbergs medial calfications

Answer 91

• Not clnically significant, but will show up on X ray as calcifications in media, not intima
• Radial and ulnar most common

Question 92

Atherosclerosis

Answer 92

• Endothelial injury (most common at bifurcations and turbulence) leads to platelet activation and leakage of LDL into intima. MAcrophages enter intima and oxidize LDL becoming foam cells (this is fatty streak stage). Inflammation and platelet activation etc (FGF and PDGF) lead to proliferation of smooth muscle cells from media and causes fibrosis and formation of cap (Complex atheroma)
• Intimal thickening and vascular luminal narrowing
• Abdominal > Coronary > Popliteal > Carotid

Question 93

Atheroscleroic complications

Answer 93

• Rupture, generally at neck leads to activation of clotting cascade and thormbus formation leading to occlusion
• Imparied diffusion leads to medial weakness and anyeurism, most common in aorta abdominal (Also no vasa recta)
• Stenosis leads to decreased blood flow and claudication and angina

Question 94

Thoracic Anyeursim

Answer 94

• Commonly occurs on the ascending aorta and requires large presures
• Risk with HTN, Connective tissue disease and cystic medial necrosis, syphilis (endartaritis), bicuspid aorta
• Can cause regurg, rupture leading to tamponade or fatal hemorrhage

Question 95

Cystic Medial Necrosis

Answer 95

• Occurs in CT diseases, most notably marfans
• Mucinous material in the midst of medial CT leads to weakness of arteries
• Will stain with mucin stain
• Also why MVP occurs in Marfans

Question 96

Aortic Dissection

Answer 96

• HTN leads to tear in intimal wall and blood flow into media
• Risk factors are syphilis, HTN, cystic medial necrosis, anyrurisms, bicuspid valve
• Tamponade and fatal hemorrhage are consequences
• Most commonly occurs at ascending aorta and will present with tearing back pain. CT will show false lumen and mediastinal widening.

Question 97

Angina

Answer 97

• Stable is ST depression, occlusion greater than 75% with cap (ST depression)
• Unstable angina - occlusion 75% with rpture and thrombosis (ST depression)
• Prinzmetal’s- vasospasm (ST Elevation, transmural), sumitriptan is contraindicated

Question 98

Coronary Steal

Answer 98

• Vasodilators cause a shunting of blood from areas of stenosis to other areas. Override autoregulatory vasodilation
• Mechanism of drug induced cardiac stress tests

Question 99

MI

Answer 99

• Tissue death that will show changes in enzymes

- Transmural is elevation and subendocardial is depression

Question 100

Sudden Death

Answer 100

Most commonly caused by arrythmia

-Cause in hypertrophic cardiomyopathy

Question 101

Chronic Ischemic HEart Disease

Answer 101

-Chronic ischemia leads to death of cells and CHF

Question 102

Hibernation

Answer 102

Areas of poor perfusion stop contracting but don’t die, if reperfused, can begin functioning again

Question 103

O-12 Hrs post MI

Answer 103

No Necrosis, can die from arrythmia or heart failure

Question 104

12-24 hrs

Answer 104

Coagulative necrosis and contractin bands, no inflammation,
Markers elevated
-Risk of death is still arryhtmia

Question 105

1-3 days

Answer 105

• Neutrophil infiltration

- Risk of fibrinous pericarditis with transmural infarct

Question 106

3-7 days

Answer 106

• Macrophages infiltrate and granulation tissue begins to form
• Macrophages phagocytose and remodel tissues, predisposes to wall rupture (Tamponade, VSD, papillary rupture leading to regurg)

Question 107

7-14 days

Answer 107

Scar is formed from type 1 collage, greatest risk for anyureisms.
-May cause arryhtmias or clots and decreased CO

Question 108

6 weeks

Answer 108

-Scar formed, risk of dresslers syndrome

Question 109

Diagnosis

Answer 109

• EKG is best in first 6 hours
• Troponin I and CKMB begin to rise at 4hrs. Tropinin is specific and will stay elevated for 7-10 days. CK-MB is less specific, but will drop by 24-48 hrs and can show a reinfarct

Question 110

ECG

Answer 110

• I-V4 are anterior wall and correspond to LAD, also II and AvF
• V5,6 are lateral wall and LCX
• II, III, AvF are inferior wall (RCA or LAD)

Question 111

Dilated Cardiomyopathy

Answer 111

-Systolic Failure with eccentric hypertrophy, sarcomeres in parallel, large on CXR
-Decreased EF and increased EDV
-Wet Beri Beri
-Alcohol (isolated effect)
-Chagas
-Doxorubicin
-Hemochromatosis
-Myocarditis (Coxsackie B)
-Cocaine use
-Idopathic (Majority)
-Postpregnancy
-Tx: Digoxin, ACEI, Diuretics, Transplant
Dx: S3

Question 112

Hypertrophic Cardiomyopathy

Answer 112

• Concentric hypertrophy of irregular myocytes, tangled appearance
• Dynamic outflow obstruction caused by Mitral leaflet hitting septum
• Systolic murmur hear at sternal border (Same spot as regurg), Worse with valsalva, and improves with handgrip
• Most common cause of death is arrythmia
• S4 will be heard and there may be a history of syncope, apical impulses
• Diastolic dysfunction
• Most commonly due to mutations in myosin B, also Freidrichs ataxia
• Tx: Beta blockers, Ca channel Blockers

Question 113

Restrictive Cardiomyopathy

Answer 113

• Deposition of material in endocardium leads to diastolic failure with relatively maintained size and ejection fraction
• Amyloid
• Radiation
• Loefflers (asthma, eosinphilia, MBP)
• Endocardial Fibroelastosis (Seen in young kids 2years less)
• Sarcoidosis

Question 114

Arrythmogenic Right Ventricular Hypertrophy

Answer 114

• Genetic mutation in desmosomal or gap junction/intercalated disk proteins leads to apoptosis and fibrofatty replacement of RV
• Causes arrythmia and significant loss of mypcytes and replacement with fat

Question 115

CHF

Answer 115

• Systolic function with decreased SV, EF, CO with increased SV
• CLinically will see DOE, Fatigue, Crackles (hemosiderin laden marophages), orthopnea, Nocturnal dyspnea
• Right heart most commonly caused by left heart, can also be cor pulmonale
• JVP, Edema, Cardiac Cirrhosis (Centrolobular necrosis from venous congestion)
• Tx: Beta blockers, ACE I , Spironolactone
• Diuretics and vasodilators for symptomatic relief

Question 116

Acute Bacterial Endocarditis

Answer 116

• Presents on non damaged valves and is associated with highly virulen strains like staph aureua
• Commonly presents in IV drug users on tricuspid valve
• Candida, S Aureus, and Pseudomonas are common offenders
• Vegetations are a comination of fibrin, platelts and trapped bacteria
• Can cause abrupt new strong murmur associated with cardiac failure and cardiogenic shock
• Fever and systemic Signs will be present
• Emboli can be infective
• Emboli: Oslers, janway, splinter hemorrhages, retinal hemorrhages

Question 117

Subacute Bacterial Endocarditis

Answer 117

• More insidious onset with low virulence strains, usually only damages damaged valves (RF, etc)
• PResents with low grade systemic signs including fever, and classic signs of endocarditis, also may have anemia of chronic disease
• Also presents with a new murmur, most commonly of the mitral valve
• Strep Viridans: Post dental damaged valves
• Staph Epi: Prosthetic heart valves
• Strep bovis: Colon Cancer
• HACEK are culture negative

Question 118

Murantic or noninfectous, thromotic endocarditis

Answer 118

• Small verucous vegetations that may effect both sides of heart
• Involve arota then mitral valve
• Can throw small clots and will be culture negative
• Liebman Sacs: Lupus and immune complexes
• Hypercoagulable state (pregnancy)
• Mucinous adenocarcinoma: Pancreatic is classic

Question 119

Rheumatic Fever

Answer 119

• Type 2 hypersenstivity due to molecular mimicry of GAS M protein
• M protein antibodies cross reac with cardiac muscle, glycogen etc
• Neutrophil and macrophage infiltration
• Jones Diagnostic criteria must be seen in the context of previous GAS infection or positive ASO titers
• Joints (polyarthritis migrating upwards)
• Heart (pancarditis)
• Nodes (subcutaenous painless nodes)
• Erythema Marginatum (macular rash, may form rings, etc)
• Syndehams Chorea
• Predisposes to early mitral regurgitation (Blowing systolic murmur) or Mitral Stenosis (Rumbling diastolic murmur with opening snap)
• Pandcarditis: Endocarditis, and pericarditis
• Most common cause of death is myocaridits. Characterized by granulomatous aschoff bodies with large asnitschkow cells (Histiocytes with catepillar nucleus)

Question 120

Pericarditis

Answer 120

• Inflammation of the pericardial Sac
• Presents with sharp chest pain that is worse with lying down and breathing. Improves with moving forward (Carried by phrenic nerve)
• Serous: Most commonly after viral infection, lupus. If serous is chronic then there can be fibrosis that causes contrictive periarditis with a preicardial knock
• Fibrinous: exudative fibrin deposition: Uremia, Radiation, MI
• Purulent: Can be from staph or strep, rare now
• ECG will show diffuse ST changes

Question 121

Cardiac Tamponade

Answer 121

• Accumulation of fluid in the pericardial sac leads to reduced ability to fill
• Causes equalization of pressures in all four chambers during diastole
• Hypotension and tachychardia with cardiogenic shock
• Causes: Free wall rupture post MI, DIssection or anyurism, Tumor, infection
• Positive kussmals sign: Increased in JVP with inspiration
• Positive Pulsus paradoxus, drop in systolic BP greater than 10 mmHg with inspiration
• PP: Seen in tamponade and restrictive lung disease

Question 122

Syphilitic Heart Disease

Answer 122

• Treponema pallidum, tertiery syphilis
• Causes an endarteritis in vaso vasorum leading to ischemia and necrosis of media leading to anyurism
• May be calcified, “tree bark” appearance
• May cause rupture or tamponade into pericardial sac
• Aortic Regurg with head bobbing

Question 123

Tumors

Answer 123

• Most common is a myxoid tumor seen most commonly in the left atrium. Myocytes are permanent cells, so tumor is in stromal cells
• May cause a ball valve mechanism murmur and obstruction. Commonly present with complaints of frequent syncopal episodes
• Cardiac Rhabdomyoma: seen mroe commonly in kids, associated with tuberous sclerosis, AD mutation in TSG
• Mets are possible, but more commonly involve the peicardium
• Can be lymphoma or melanoma
• If occlusion of RV/RA can present with kussmauls sign
• May be syndromic and associated with endocrinopathies (Carries syndrome)

Question 124

Kussmauls

Answer 124

• Increase in JVP with inspiration, paradoxical
• Tamponade, Tumors, Resrictive cardiomyopathy
• Constrictive pericarditis

Question 125

Raynaud’s

Answer 125

• Vasospasm of peripheral arterioles leding to transient sicheima with pain, white, then blue fingers
• If disease is isolated and idiopathic
• If syndeom, is associated with systemic CT disase (Lupus, Scleroderma, CREST)

Question 126

Temporal Arteritis

Answer 126

Necrotizing Vasculitis of large vessels, branches of carotid, granulomas

• Jaw claudication, unilateral headache, blindness
• Tx steroids
• Assiciated with polymyalgia Rheumatica
• Massively elevated ESR in elderly

Question 127

Takayausus

Answer 127

• Necrotizing granulmoaous inflammation of large vessel branches of aorta
• Most commonly presents in young asian females,
• Associaed with loss of pulses
• Many signs, fatigue, Night sweats, arthritis, skin nodes
• Steroids

Question 128

Polyarteritis Nodosa

Answer 128

• Younger paients
• Involve muscular arteries
• GI, Renal, and visceral involvment, spares pulmonary
• Hepatitis B associated
• Skin also possible
• Immune complex mediated
• Transmural inflammation with fibrinous necrosis. Lesions of different ages (beads on string)

Question 129

Kawasaki Disease

Answer 129

• Conjunctivitis and cervical lymphadenopathy, desquamating rash on palms and soles. Lips and strawberry tongue
• Treat with aspirin and IVIG to prevent clots
• Coronary Anyeurism

Question 130

Buerger’s

Answer 130

• Thrmobosing vasculitis of distal arterioles
• Autoinfarction of digits with gangrene
• Raynauds with intermeiten colaudication
• Tx: Smoking cessation

Question 131

Microscopic Polyangitis

Answer 131

• P-anca
• Cutanous nodules and no granulomas but still necrotizing
• Pauci immune proliferative glomerulonephritis

Question 132

Wegners

Answer 132

• C-ANCA
• Granulomatous necrotizing vasculitis
• Lung, Nasal, Glomerulopehritis
• Steroids
• CXR: Large nodular Densities

Question 133

Churgg Strauss

Answer 133

• P-ANCA, Eosinophilia
• Granuloma necrotizing vasulitis
• Pauci immune glomerulonephritis, palpable purpura
• GI, Kidney’s and heart

Question 134

HSP

Answer 134

• IgA immune complexes deposit in blood vessels
• Palpable purpura on extensor surfaces and GI pain with melena
• IgA mediated glomerulonephrits
• Post viral is often onset

Question 135

Strawberry Angioma

Answer 135

-Kids, VEGF, capillary proliferation, regresses by 6-8 years

Question 136

Cherry Angioma

Answer 136

-Adults, Doesn;t Regress

Question 137

Pyogenic Hemangima

Answer 137

• Associatd with pregnancy

- Often occur in mouth and GI, often ulcerate and bleed

Question 138

Cystic Hygroma

Answer 138

• Lymphangioma in neck, associated with turners

- Can occur anywhere in Turnere

Question 139

Glomus Tumor

Answer 139

• Tumor of smooth muscle in finger nails

- Painful small, blue/red tumor

Question 140

Bacillary Angiomatosis

Answer 140

-Bartonella Hensalae in AIDS pts

Question 141

Angiocarcoma

Answer 141

• Malignan dangerous blood vessel tumor

- Seen in liver post PVC exposure and seen in rest of body post radiatoin

Question 142

Lymphangiosarcoma

Answer 142

-Lymph malignant tumor, associated with longstandin lymphedema

Question 143

Kaposi Sarcoma

Answer 143

HHV-8, gamma herpes, intercalates in genome

• AIDS patietns and middle eastern men
• Mouth, Skin, and GI are common locations

Question 144

Stuge Webber

Answer 144

• Post zygotic mutation leading to capillary proliferatino along V1
• Angiomas in eye predispose to early glacoma
• Angiomas in leptomeninges predispose to siezures
• Also a cause of AVM leading to stroke or high output cardiac failure

Question 145

HHT

Answer 145

• AVM
• AD changes in grwoth factor signallig
• GI and mouth bleeds often first signs
• AVM leading to cerebral hemorrhage major risk

Question 146

Polyarteritis nodosa

Answer 146

• Fibrinous necrotizing vasculitis of medium sized muscular arteries
• Caused by immune complex deposition
• Normally asscoiaed with Hep B infecction
• Involves visceral circulation mostly with skin involvment
• Spares pulmonary
• GI, Renal, Skin complaints are classic, there can also be neurologic complaints and systemic inflammation

Question 147

Essential HTN treatment

Answer 147

• ACEI
• Diuretics
• Ca channel blockers

Question 148

CHF

Answer 148

• ACEI
• K Sparing Diuretics
• B Blockers
• Diuretics

Question 149

DM

Answer 149

• ACEI
• Diuretics
• B Blockers
• alpha blockers

Question 150

DHP Ca CHannel Blockers Nifedipine

Answer 150

• Block V gated Ca channel and prevent Ca realease into smooth muscle cells of vasculature, mainly lead to a decrease in afterload
• Can be used for HTN especially malignant HTN where vasodilation is required
• Used for prinzmetal angina and raynauds diseasae

Question 151

Non DHP. Diltiazam and verapamil

Answer 151

• Block V gated channels in the heart
• Reduce myocardial contractility and decrease conduction through AV node
• Can treat A fib for rate control

Question 152

Hydralazine

Answer 152

• Causes in crease in arteriolar cGMP leading to a drop in afterload
• Drug of choice for HTN in pregnancy along with methyldopa
• Can cause lupus like syndrome with Ab to histones
• Can also cause compensatory tachycardia leading to increased work of heart

Question 153

Fendolopam

Answer 153

• D1 agonist. Gs
• Causes dilation of smooth muscle and increased naturesis
• Used in malignant HTN

Question 154

Nitroprusside

Answer 154

• Release NO leading to increased cGMP and vasodilation
• used in malignant HTN and angina
• May cause cyanide poisoning if overdose, treat with thiosulfate to generate a more metabolizable product in the liver
• Also treat with nitrates to bind to RBC

Question 155

Nitroglycerin

Answer 155

• No release, paticularly in Veins leading to decreased preload
• Used to treat angina
• May cause increaed HR and contractility
• Give with beta blockers to effect both

Question 156

Chylomicrons

Answer 156

-Cholesterol absorbed from gut and packaged into chylomicrons with B-48, C (LPL coeznyem), E (Uptake by liver. Deliver lipid to tissues and becoming remnant, then taken up by liver (E)

Question 157

VLDL

Answer 157

VLDL made in liver to deliver fat and cholestrol to tissue.

• C to mediate LPL
• E to mediate reuptake
• B - 100 to mediate deliver to tissues (Required for secetion)
• Once delivered tri and chol to tissues becomes IDL then LDL if lose E and C

Question 158

LDL

Answer 158

• Loss of E and C leads to only B100 on surface

- Only function is to deliver chol to tissues

Question 159

HDL

Answer 159

• Donate C, E to LDL to allow for reuptake by liver and reverse cholesterol delivery
• C is LPL co enzyme
• E allows for receptor mediated uptake in liver
• A allows for cholesterl ester formation (only HDL has this)

Question 160

Abetalipoproteinemia

Answer 160

• Defect in MTP (Beta lipoprotine transfer molecule), prevens B-48 and B-100 from being loaded onto lipoproteins
• No chylomicrons secreted from GI and no VLDL secreted from liver
• Enterocytes and liver will be lipid laden and fatty. Fat soluble vitamin deficency and steaorrhea with failure to thrive
• Ataxia, acanthosis, night blindness

Question 161

Hyperchylomicronemia

Answer 161

• Lack of apo C leads to inablilty for LPL to function and chylomicrons can’t deliver TG to tissues
• Risk of pancreatitis, xanthomas, HSM
• No increased risk of atheoscleoris
• AR

Question 162

Familial Hypercholiesterolemi

Answer 162

• AD with increasing severity if heterozygote
• Absesnce of LDL receptor prevents endoytosis of LDL leads to accumulation
• Fatty streaks and atheroslcerosis
• Xanthomas and corneal arcus

Question 163

Hypertriglyceridemia

Answer 163

• AD
• Liver makes too much triglyceride (VLDL)
• Causes pancreatitiss

Question 164

Statins

Answer 164

• COmpetitive inhibitor of HMG coA reductase which converts HMG CoA to Melevlonate
• Used to reduce LDL and stabalize plaques, given to pts with MI
• S/E: Rhabdomyolysis and Hepatotoxicity

Question 165

Niacin

Answer 165

• Interacts with GPCR and decreases metabolism of fats in lipids, prevents need and reduces requriement
• Decrease Lipolysis in peripheral tissues
• Increase HDL, also decreases TG and decreases LDL
• S/E: FLushing (COXI), Hyperglycemia and hyertriglyceridemia due to increased reliance on sugars for energy

Question 166

Bile Acid Binders (Chol) Cholesteramie, colesipol

Answer 166

• Bind bile and prevent resorbtion
• Decrease LDL
• Bad taste, GI upset, Reduced fat soluble absorption
• Increase Risk of Cholesterol gallstones

Question 167

Fibrates

Answer 167

• Activate PPARa leading to increased TG breakdown and increased LPL activity
• Greatly reduce triglycerides, also increase HDL and decrease LDL
• Gemfibrozil is a CYP inhbitor
• Cholesterol Gallstones, myositis, hepatotoxicity

Question 168

Ezetimibe

Answer 168

• Block Chol absorption from gut

- Diahhrea and hepatotoxicity

Question 169

Digoxin

Answer 169

• Binds to K site on Na/K ATPase and shuts off function. Leads to increased intracellular Na and decresed Na/Ca driving force, results in increased Ca and increased cardiac function
• CHF, A fib to decreae conduction through nodes
• S/E:
• Cholinergic (GI, etc) also yellow halos around eyes
• Hyperkalemia (poor sign)
• Decreased QT and elongated PR (Hyperkalemia), arrythmia
• Worse with hypokalemia, poor renal function, quinidine
• Overdose Tx: FAb, Mg, K, Lidocaine

Question 170

Class I

Answer 170

• Bind to Na channel and effect phase 0
• Preferentially bind to depolarized chanels
• Inhibit firing in ectopic sites
• Hyperkalemia will increase toxicity for all drugs

Question 171

A-Quinidine, procainamide, disopyramide

Answer 171

• enlongate refractroy perior and elongate QT interval
• Used to treat SVT and ventricular Arrythmias
• S/E for all are risk of Torsades due to long QT
• Quinidne: Tinnitus
• Procainamide: Lupus
• Disopyramide: Heart Failure

Question 172

B; Lidocaine, Tocainide, mexiletine

Answer 172

• Block Na channels in damaged tissue and decrease AP
• Used to decrease arrythmias from damaged tissue post MI
• Slow conduction in perkinje etc
• Acute and digitalis induced arrythmias
• S/E: CNS depression, CV depression

Question 173

C: Flecainainde, propafone

Answer 173

• Rarely used

- Arrythmogenic and contraindicated in MI

Question 174

Class 2 Beta Blockers

Answer 174

• Esmolol shorter action
• Decreased cAMP leads to decrease phase 4 in pacemakers
• Slow cocnduction through AV node and slow sinus rate
• Increase PR interval
• Can cause heart block
• Exacerbate Asthma
• Mask Hypoglycemic signs in diabetics
• Treat overdose with glucagon
• Propranalol can exacerbate prinzmetals

Question 175

Class III Amiodarone, Ifelitibitide, Dofelibitide, Soltalol

Answer 175

K Channel Blockers

• Block K channels and increase AP duration
• Long QT, all have Torsades as S/E

Question 176

Amiodarone

Answer 176

• alters lipid membrane and has functions of all classes
• S/E: Pulmonary fibrosis. High iodine weight leads to thyroid issues (Hyper/hypo), Deposits in eyes and skin leading to photosensitivity

Question 177

Class 4 Ca Channel Blockers

Answer 177

-Non DHP (diltiazem and verapamil)
-Cause a decrease in conduction through the heart and block at AV node
-

Question 178

Adenosine

Answer 178

• Binds PGY channel and increases K influx
• Leads to major depression of phase 4 and slowed heart rate in nodes
• Used to abolish SVT
• Short half life (15 sec)
• Can cause hypotension, flushing, and chest pain
• Caffeine and theophline will block effects, antagonize receptor

Question 179

Mg

Answer 179

-Used in Torsades, Eclamptic siezures, Digoxin Tox