Cardio

Question 1

LAD supplies

Answer 1

anterior LV wall
atnerior septum
His purkinje

Question 2

Left circumflex supplies

Answer 2

lateral LV wall

Question 3

RCA (PDA) supplies

Answer 3

inferior LV wall
RV
posterior septum
AV, SA node

Question 4

What typically increases isotropy?

Answer 4

catecholamines

Question 5

during cardiac contraction, only ___ stays the same

Answer 5

A (H,I,Z all differ!)

Question 6

4 things that decrease contractility and SV

Answer 6

B blockade
heart failure
acidosis
hypoxia/hypercapnia

Question 7

4 things that increase contractility and SV

Answer 7

catecholamines
increase in intracellular Ca
decrease in extracellular Na
digitalis–>increases intracel Na and therefore increases intracellular Ca

Question 8

LV diastolic function determinants (5)

Answer 8

Lusitrophy
LA pressure (aka LV filling pressure)
LV compliance
Heart rate (diastolic filling time) (dec in HR= increase in diastolic fx)
atrial kick

Question 9

S3 represents

Answer 9

early diastole- dilated LV

Question 10

S4 represents

Answer 10

late diastole-atrial kick to stiffened LV

Question 11

paradoxical split

Answer 11

normally A2, P2 (because pressure greater in aorta), but in aortic stenosis P2 actually goes before A2 (breathing will make this go away)

Question 12

4 things that happen when you turn in symp NS

Answer 12

1 increase Hr
2- increase iontropy
3- increase arteriole constriction
4- increase venous constriction

Question 13

three types of shock

Answer 13

hypovolemic
distributive
cardiogenic

Question 14

hypovolemic shock

Answer 14

too little blood

due to endothelial damage, excessive secretion, dehydration

Question 15

distributive shock

Answer 15

enough blood but in wrong place (veins not arteries)

due to sepsis (vasodilator actions), reflex (vaso-vagal syncope)

Question 16

cardiogenic shock

Answer 16

inadequate filling of arteries caused by failure of cardiac pump
due to acute MI, pericardial tamponade, valve rupture PE, myocarditis

Question 17

3 consequences of shock

Answer 17

multi-organ failure
neurohormonal response
death

Question 18

2 differences between physiological and pathological hypertrophy

Answer 18

physiological- high ATPase myosin heavy chains and more SR

path- less ATPase myosin heavy chains and less SR

Question 19

helpful and harmful of intropes

Answer 19

helpful- increase BP and SV

harmful- increase work (so worsen energy expenditure)

Question 20

helpful and harmful of diuretics

Answer 20

helpful- decrease preload, EDV/P

harmful- decrease stroke volume

Question 21

helpful and harmful vasodilators

Answer 21

helpful- decrease after load, so increase SV

harmful- decrease BP and tissue perfusion

Question 22

helps systolic heart failure

Answer 22

inhibit neurohormonal signaling

modify mehcanical stress

Question 23

eccentric hypertrophy compensates for

Answer 23

decreased shortening ability

Question 24

treatment for eccentric hypetrophy

Answer 24

positive inotropic agents
diuretics
vasodilators
beta-blockers
aldosterone inhibitors
anticoagulants

Question 25

louder subaortic murmur with

Answer 25

interventions that decrease left ventricular size or velocity of contraction

valsalva, standing, positive inotropic agents

Question 26

treatment for dilated cardiomyopathy

Answer 26

ACEI, ARBS, Beta-blockers, diuretics, digitalis

Question 27

treatment for hypertrophic cardiomyopathy

Answer 27

diuretics with caution, treat htn, treat Mischemia, decrease HR

Question 28

Beck’s Triad of physical signs of pericardial tampnade

Answer 28

decreased arterial pressure
increased venous pressure
quiet heart

Question 29

low serum K can be indicative of

Answer 29

primary hyperaldosteronism

Question 30

how can you diagnose a phenochromocytoma

Answer 30

metanephirnes

vanillymandelic acid

Question 31

hyper vs hypothyrodiism

Answer 31

hyper: thyroid stimulation of heart
hypo: increased TPR

Question 32

2 phases of HTN

Answer 32

hyperkinetic phase

established or late essential HTN

Question 33

polyarteriosis nodusa

Answer 33

medium vessel vasculitis

Question 34

Wegenerg’s polyangitis

Answer 34

smal vessel vasculitis

Question 35

polyangiitis with granulomatosis

Answer 35

nose, lung kidney

PR3»MPO

Question 36

microscopic polyangitis

Answer 36

kidney
MPO>PR3
renal limited variant

Question 37

churg straus angiitis

Answer 37

kidney 15%

MPO»PR3

Question 38

inferior leads

Answer 38

II, III, aVF

Question 39

anterior septal leads

Answer 39

V1 V2 V3

Question 40

anterior lateral leads

Answer 40

V4, V5, V6

Question 41

lateral leads

Answer 41

I, avL

Question 42

P wave

Answer 42

atrial depolarization (SA node–>ventricle)

Question 43

QRS

Answer 43

ventricular depolarization

Question 44

T wave

Answer 44

ventricular depolarization

Question 45

LAE can be (3)

Answer 45

Left ventricular hyptrophy
LAFB- left anterior bundle branch block
IMI

II- 3 or more wide
V1- 1x1 box

Question 46

each small block is

Answer 46

40 ms (0.04 s)
1 mm
0.1 mb amplitude

Question 47

axis

Answer 47

postiive in lead I and avF

Question 48

LAD

Answer 48

+ lead I, - avf

Question 49

RAD

Answer 49

• lead I

Question 50

5 reasons for RAD

Answer 50

RVH
Lateral MI
COPD
PE
L posterior bundle black

II- >2.5
V1- >1.5

Question 51

PR interval should be

Answer 51

120-200 ms

Question 52

short PR interval

Answer 52

WPW

has to have a bypass tract

Question 53

widlong PR interval

Answer 53

1st 2nd 3rd degree av block

Question 54

1st degree AV block

Answer 54

p for every QRS

Sanode–>purkinje

Question 55

2nd degree AV block

Answer 55

2:1 Av block
I- wenkebach- lengthened PR
II- Mobitz I

Question 56

3rd AV block- complete block

Answer 56

SA firing but AV doesn’t work

Question 57

wide QRS

Answer 57

LBBB (q)
RBB (rabbit ears)
WPW (short PR)
ICVD- when nothing else fits

(look at V1)

Question 58

difference between NSTEMI and unstable angina

Answer 58

troponin - in unstable angina

Question 59

4 aspects of myocardial oxygen demand

Answer 59

HR, BP, contractilibilty, preload/afterload

Question 60

Inferiro MI

Answer 60

AV node, mobitz I

Question 61

Anterior MI

Answer 61

His purkinje, Mobitz 2

Question 62

if V1 is positive

Answer 62

RVH

Question 63

respirophasic, positional

Answer 63

pericarditis

Question 64

P waves come and go

Answer 64

V tach

Question 65

lightheadedness

Answer 65

a fib, mobitz 1

Question 66

hypertension

Answer 66

light headedness

Question 67

definite angina in men and women

Answer 67

men > 50: 95, 50 74, <50 59

Question 68

probable angina

Answer 68

men >50, 73 50, 37 <50, 30

Question 69

nonanginal pain

Answer 69

men >50, 20 >50, 8

women >50 5, <50, 4

Question 70

stagesof exercise ekg

Answer 70

I- 10, 4 mets
II- 12, 7 mets
III-14, 10 mets
IV- 16, 16 mets

Question 71

MHR

Answer 71

220-age

Question 72

2 factors that predispose patients to sudden cardiac death post MI

Answer 72

LV dysfunction

frequent ventricular ectopy (>10 per hr)

Question 73

Amiodarine & Sotalol

Answer 73

most effective for Vt/vf

efect phase 3 in AP by increasing QT (prolonging repel)

Question 74

genetic heterogenity

Answer 74

same phenotype can have multiple different genes

–>differential diagnosis

Question 75

penetrance

Answer 75

effect of gene on population

–whole room has BRCA1, but only 70% get breast cancer

Question 76

expression

Answer 76

same gene, diff phenotype- person to person

Question 77

fibrillin

Answer 77

main component of extracellular microfibrils

Question 78

marfaans gene

Answer 78

15q21

FBN1

Question 79

platelet inhibitors

Answer 79

ASAK- decreases Thromb A2
Plavix- inhibit P2y12 receptors
Eptifibatide- inhibit IIb/IIIa receptors

Question 80

consider thrombolytics in patients

Answer 80

<65 years old
presenting within 2 hrs of symptom onset
anterior MI

Question 81

1/2-4 hrs after MI

Answer 81

sometimes waviness of boraders

Question 82

4-12 hrs MI

Answer 82

occasional dark mottling

early coat necrosis, edema, hemorrhage

Question 83

12-24 hrs

Answer 83

dark mottling

ongoing coag necrosis, early PMN infiltrate

Question 84

1-3 days

Answer 84

mottling with yellow-tan infarct center, more PMNs, can get pericarditis

Question 85

3-7 days

Answer 85

central yellow-tan softening

dying neutrophils with dead eating by MOs

Question 86

7-10 days

Answer 86

maximally yellow-tan and soft, red depressed margins

granulation

Question 87

10-14 days

Answer 87

red-grey

well established granulation tissue and collagen

Question 88

2-8 weeks

Answer 88

grey white scar progressive to core

increased collage, decreased cellularity

Question 89

> 2 months

Answer 89

scarring complete–white fibrous scar

dense collagenous scar

Question 90

eisenmenger syndrome

Answer 90

pulmonary arteries constrict and after 5 years this becomes permanent
due to VSD

Question 91

R–>L shunts

Answer 91

cyanotic

Question 92

5 R to L shunts

Answer 92

metrology of fallout
transposition of great arteries
tricuspid atresia
truncus arteriosus
total anomalous PVR

Question 93

4 aspects of tet

Answer 93

VSD
pulmonary stenosis
overriding aorta
RVH

Question 94

annular dilation

Answer 94

cardiomyopathy

Question 95

leaflet perforation

Answer 95

endocarditis, trauma

Question 96

prolapse

Answer 96

myomatous degeneration

Question 97

chordial rupture

Answer 97

MVP, calcification

Question 98

pap muscle rupture

Answer 98

ischemic heart disease

Question 99

medication for MV issues

Answer 99

ditizaem (ca blocker affecting AV node)
metoprolol (b blocker) to slow heart rate in Afib
and lengthen diastolic time

Question 100

LVH on EKG

Answer 100

• in V1 and + in V5 >35

Question 101

critical aortic stenosis associated with

Answer 101

> 60 mmHg, flow >4 m/sec

Question 102

Verapamil

Diltizem

Answer 102

Ca channel blockers

Question 103

abnormal automaticity induced by

Answer 103

hypokalemia
hypoxia
ischemia
digitalis toxicity

Question 104

automaticity/conduction is blocked by

Answer 104

quinidine

lidocaine

Question 105

QRS complex

Answer 105

delays in intraventricular myocardium

Question 106

Strain pattern

Answer 106

subendocardial hypoxia in hypertrophied ventricle

Question 107

distolic depolarization

Answer 107

ischemic shifts ST segment because ischemic tissue injury–>increase in extracellular K concentration–>depolarizes cells–>current directed towards

Question 108

Pericarditis

Answer 108

nonprogressive ST elevation

Question 109

when is the earliest you see q wave

Answer 109

hrs-days

Question 110

q wave + t inversion

Answer 110

months

Question 111

q wave + normal T

Answer 111

years

Question 112

ST elevation and T inversion, no q waves

Answer 112

hrs

Question 113

Mobitz 1 is

Answer 113

AV nodal block

Question 114

Mobitz 1 channel

Answer 114

slow- calcium

Question 115

Mobitz infarction

Answer 115

inferior MI

Question 116

mobitz 1 drugs

Answer 116

digitlais
beta-blockers
Ca channel blockers

Question 117

mobitz 1 therapy

Answer 117

atropine

sympathomimetics

Question 118

Mobitz ii

Answer 118

his purkinje block

Question 119

Mobitz II vs Mobitz I ORS

Answer 119

I- junctional-narrow QRS

II- idioventricular- wide ORS

Question 120

M2 infarct

Answer 120

anterior MI

Question 121

M2 drugs

Answer 121

type I anti-arry

Question 122

M2 therapy

Answer 122

pacemaker

Question 123

atrial rate of 250-350

Answer 123

a flutter

Question 124

atria rate of >250

Answer 124

a fib

Question 125

1st degree heart block

Answer 125

delay from atria–>ventricle

Question 126

2nd degree heart block

Answer 126

intermittent failure of conduction (some atrial beats conducted, some blocked)

occurs in settings of increased vagal tone, decreased sympaethtics

Question 127

3rd degree heart block

Answer 127

persistent failure of conduction (all atria beats blocked)

Question 128

failure of conductivity

Answer 128

heart block

Question 129

decreased automaticity

Answer 129

sinus bradycardia

Question 130

AV nodal/junctional tachycardia

Answer 130

AV node goes to a rate that is faster than sinus rate

seen with exercise hypotnesion, anxiety,hyperthyroidism, hypoglycemia, congestive heart failure

Question 131

abnormal automaticity of fast fibers is associated with

Answer 131

increase sump tone (drugs, anxiety, hyperthyroidism)
hypokalemia
hypoxia/ischemia
digitalis toxicity
atrial enlargement

Question 132

delta wave represents

Answer 132

pre-excitation of ventricle via abnormal bypass tract between atrium and ventricle called bundle of kent

Question 133

three characteristics of re-entrant pathways

Answer 133

two anatomically or functionally distinct pathways

slow conduction

dispersion of refractoriness

Question 134

superavent tachycardia vs vent tachy

Answer 134

supravent- narrow QRS

vent tach- wide QRS

Question 135

prolonged QT usually due to

Answer 135

myocardial ion channel abnormalities

polymorphic Vtach-Torasades

Question 136

digoxin and adenosine

Answer 136

av nodal blockers

Question 137

Ca channels, av nodal blockers, b blockers

Answer 137

decrease how many beats can go through AV node so therefore decreasing HR

Question 138

amidorone

Answer 138

blocks K channels

prevents reentrant Vtach

Question 139

lidocaine

Answer 139

inhibits Na- only useful against Vtach

Question 140

VSD causes LV

Answer 140

eccentric hypertrophy

Question 141

O2 content=

Answer 141

O2 sat x [Hgb] x 1.34

Question 142

LA pressure

Answer 142

6-12

Question 143

RA pressure

Answer 143

6

Question 144

Flow=

Answer 144

02 consumption/AV difference

Question 145

SVR=

Answer 145

MAP-CVP/CO