ITE CA2 Cardiac

Question 1

dP/dt

Answer 1

dP/dt (the rate of rise in ventricular pressure) is a good measure of cardiac contractility. Pressures can be measured directly (in the cath lab) or estimated by echocardiography (using the simplified Bernoulli equation). Requires mitral regurg

Question 2

Sphericity index

Answer 2

Sphericity index (long axis/short axis) is normally >1.5. It is reduced in dilated cardiomyopathy (the LV becomes more globular)

Question 3

Factors that can result in variable ACT include

Answer 3

Factors that can result in variable ACT include: hemodilution, hypothermia, platelet counts below 30-50 k/mL, and concomitant administration of other medications which affect platelets (e.g. prostacyclin, aspirin, glycoprotein IIb/IIIa inhibitors).

Question 4

What happens when ultrasound reaches an interface of two tissues with different acoustic impedance?

Answer 4

Acoustic impedance is the capacity of a tissue for transmitting sound. Water and soft tissues have intermediate acoustic impedances, while bone has a high acoustic impedance and air has a low acoustic impedance.

When ultrasound reaches an interface of two tissues with different acoustic impedance (soft tissue-air or soft tissue-bone), most of the ultrasound will be reflected.

Reflection is the basis for correct image formation. Reflection is maximal when the angle of incidence between the beam and the reflecting structure is 90 degrees (giving sharper images).

Question 5

cranial nerve for carotid sinus baroreceptor reflex

Answer 5

IX Glossopharyngeal

Question 6

What serum biomarker is first to reach peak after myocardial injury

Answer 6

myoglobin

Question 7

acute STEMI best identified by wich leads

Answer 7

II, II, aVF

Question 8

EKG changes with hypocalcemia

Answer 8

prolong QT

Question 9

in 60% of population this artery supplies blood to SA node

Answer 9

R coronary

Question 10

ST segment cahnges with sub-endocardial ischemia

Answer 10

ST segment depression

Question 11

bainbridge reflex

Answer 11

causes increase in HR in response to increased RA fiber pressure and stretch

Question 12

T wave corresponds to

Answer 12

ventricular repolarization

Question 13

NYHA class II

Answer 13

excessive fatigue and dyspnea with ordinary activity

Question 14

concentric hypertrophy of heart ass’d with what type of overload

Answer 14

pressure

Question 15

sensitivity for combination of EKG leads II and V5 for detecting MI evnts

Answer 15

80%

Question 16

phase of cardiac myocyte action potential correspond to influx of calcium

Answer 16

2

Question 17

PEEP effect on venous return to heart

Answer 17

decrease

Question 18

delta wave

Answer 18

wolff parkinson white

Question 19

heart sound rapid ventricular filling

Answer 19

S3 - abnormal in all elderly patients

Question 20

Beck’s triad

Answer 20

for pericardial tamponade
hypotension
muffled heart sounds
JVD

Question 21

EKG lead best detect right sided arrhythmogenic treacings

Answer 21

II

Question 22

which papillary muscle has a single-vessel blood supply

Answer 22

posterior

Question 23

Refraction

Answer 23

Refraction is a source of artifact that occurs when the ultrasound direction is altered. Like reflection, it occurs when the ultrasound reaches an interface of two tissues of different acoustic impedance. Unlike reflection, refraction is most pronounced when the angle of incidence is acute. Thus, a 90 degree angle not only produces sharper images but also reduces artifacts.

Question 24

How to close or open a PDA

Answer 24

Prostaglandin E1 helps maintain a PDA whereas indomethacin (nonselective COX inhibitor) is the standard medical treatment for closure of a PDA by inhibiting prostaglandin synthesis. Ligation of a PDA is the surgical treatment of choice if medical therapy has failed. Closure results in higher systemic pressures (especially higher diastolic pressures) and patients may require antihypertensive therapy postclosure.

Question 25

How many people have pfo

Answer 25

25-30%

Question 26

Multifocal atrial tachycardia

Answer 26

Multifocal atrial tachycardia (MAT) is defined by a heart rate greater than 100 and three or more distinct morphologies of the P wave on an electrocardiogram or rhythm strip. It is commonly seen in patients with pulmonary and cardiac pathologies, especially those resulting in atrial distention and pulmonary HTN. COPD exacerbation is the most common cause.

Question 27

Indications for one lung ventilation

Answer 27

Absolute indications for one-lung ventilation include:

• Protective isolation of each lung to prevent contamination of the healthy lung: infection (e.g. abscess, infected cyst), massive hemorrhage.
• Control of distribution of ventilation to only one lung: bronchopleural fistula, bronchopleural cutaneous fistula, unilateral cyst or bullae, major bronchial disruption, or trauma.
• Unilateral lung lavage (e.g. pulmonary alveolar proteinosis).
• Video-assisted thoracoscopic surgery (VATS).

Relative indications for one-lung surgery:

• Surgical exposure (high priority): thoracic aortic aneurysm, pneumonectomy, lung volume reduction, minimally invasive cardiac surgery, upper lobectomy.
• Surgical exposure (low priority): esophageal surgery, middle and lower lobectomy, mediastinal mass resection, thymectomy, bilateral sympathectomy.

Question 28

DAPT for BMS after ACS

Answer 28

1 year because ACS

Question 29

Preop MI with no intervention. How long wait for surgery

Answer 29

60 days

Question 30

Medications to avoid in wolff parkinson white

Answer 30

The usual rate-slowing drugs used in atrial fibrillation are not effective, and digoxin and the nondihydropyridine calcium channel blockers (eg, verapamil, diltiazem) are contraindicated because they may increase the ventricular rate and cause ventricular fibrillation

Question 31

Right coronary artery EKG leads

Answer 31

II, III, aVF (inferior)

Question 32

LAD EKG leads

Answer 32

septal (V1 and V2) and Anterior (V2-V4)

Question 33

Circumflex artery EKG leads

Answer 33

Lateral (V5, V6, aVL)

Question 34

best lead for detecting arrhythmias

Answer 34

II

Question 35

best lead for dececting anterior and lateral wall ischemia

Answer 35

V5

Question 36

Idiopathic Hypertrophic sub-aortic stenosis

• pathophys
• physical exam
• management
• factors that worsen it

Answer 36

(IHSS) Thickened interventricular septum/overgrowth of ventricular muscle -> usually antero-lateral; LVOT
Dynamic LVOT obstruction
anterior leaflet is pulled into LVOT during SYSTOLE
Bisferiense pulse: Early rapid peak followed by another peak (unobstructed flow followed by dynamic outflow obstruction)
-SOB, chest pain, syncope, orthopnea, CHF
-management: decrease myocardial contractility (B blocker), normal to slow HR (B blocker), INcrease preload (volume, phenylephrine), increase cardiac output, maintain or increase afterload (vasopressin), avoid arrhythmias
-worsened by increased HR, increased contractility, decreased preload, decreased afterload, arrhythmia

Question 37

Chemotherapeutic agents:
Doxorubicin - MoA - Side effects
Bleomycin
Cyclophosphamide
Methotrexate
Vincristine

Answer 37

Doxorubicin - Decrease efficiency of topoisomerase - Cardiotoxicity (LV dysfxn)
Bleomycin - Add glycopeptides and increase free radicals - pulm toxic (avoid high FiO2)
Cyclophosphamide - pro-drug, active drug incorporated into DNA - Cystitis
Methotrexate - inhibition of dihydrofolate reductase - myelosuppression
Vincristine - degradation of microtubulin - peripheral neuropathy (stocking glove), SIADH

Question 38

Mitral valve postero-medial papillary muscle is supplied by what

Answer 38

Left circumfelx artery OR right coronary artery

Question 39

Mitral valve antero-lateral papillary muscle blood supply

Answer 39

LAD and Diagonal OR marginal branch of left circumflex artery (dual blood supply)

Question 40

normal cardiac output

Answer 40

3-8 LPM

Question 41

Bathmotrophy

Answer 41

Bathmotropic often refers to modifying the degree of excitability specifically of the heart; in general, it refers to modification of the degree of excitability (threshold of excitation) of musculature in general, including the heart.

Question 42

Mixed venous oxygen equation

Answer 42

SvO2 = SaO2 – [(VO2) / (Hb x 1.36 x Q)]

SvO2: mixed venous saturation SaO2: arterial oxygen saturation VO2: oxygen consumption Hg: hemoglobin

Q: cardiac output

Question 43

Cardiac accelerator fibers originate from

Answer 43

Cardiac accelerator fibers originate from T1-T4

Question 44

V4 placement and what cardiac site evaluated

Answer 44

5th intercostal space, mid-clavicular line; anterior

Question 45

V5 placement and what cardiac site evaluated

Answer 45

5th intercostal space, anterior axillary line; lateral LV

Question 46

V1 placement and what cardiac site evaluated

Answer 46

4th intercostal space, right sternal border; septal

Question 47

V2 placement and what cardiac site evaluated

Answer 47

4th intercostal space, left sternal border; antero-septal

Question 48

PEEP cardiovascular effects

Answer 48

• decrease venous return to heart (decrease RV preload)
• decrease cardiac output (increase intrathoracic pressure)
• increase pulm vasc resistance (increase RV volume -> increase RV afterload)
• Leftward displacement of the intraventricular septum (decrease LV compliance)

Question 49

Mixed venous O2 sat
directly related to
indirectly related to

Answer 49

SVO2
directly related to O2 sat, cardiac output, hemoglobin
indirectly related to VO2 (O2 consumption)

Question 50

Cardiac action potential
Phase 0
Phase 1
Phase 2
Phase 3

Answer 50

Phase 0 - sodium influx
Phase 1- potassium efflux
Phase 2 - calcium influx
Phase 3 - potassium efflux

Question 51

Sinoatrial node action potential and describe the numbering

Answer 51

Phase 0- calcium influx
Phase 3 - potassium efflux
Phase 4 - sodium influx
4 is the trough, 0 is steep up, 3 is steep down

Question 52

Increase contractility

Answer 52

exercise, pharmacologic, adrenergic stim, fever

Question 53

decrease contractility

Answer 53

acidosis, hypOthermia, pharmacologic (B blocker)

Question 54

U wave on EKG

Answer 54

hypokalemia

Question 55

Carotid sinus efferent branch

Answer 55

CN X

Question 56

Hemodynamic goals for aortic regurg

Answer 56

Sinus rhythm, HR slightly fast (80s), Reduce afterload, maintain preload, maintain contractility

Question 57

Protamine reaction types

Answer 57

1) brief hypotension (likely 2/2 histamine release)
2) anaphylactoid generalized reaction; and
3) Acute pulmonary hypertension, sudden rise PA pressure, RV failure, hypotension (2/2 LV underfilling consequent to RV dysfunction)
The severity of the reaction had no relation to the dose of protamine.

Question 58

intra aortic balloon pump inflates at

Answer 58

onset of diastole

Question 59

HOCM hemodynamic goals

Answer 59

Anesthetic goals should be to minimize sympathetic stimulation, expand intravascular volume, and minimize decreases in left ventricular afterload.
(decrease HR, increase pre-load, increase afterload)

Question 60

most sensitive non-invasive modality for detecting a venous gas embolism

Answer 60

doppler ultrasound

Question 61

electrolyte risk factors for torsades de pointes

Answer 61

hypokalemia, hypomagnesemia

Question 62

Dissection stanford classification

Answer 62

A - involves the ascending aorta and/or aortic arch, and possibly the descending aorta
B - involves the descending aorta or the arch (distal to subclavian), without involvement of the ascending aorta

Question 63

Which cardiovascular medication has a known antidote

Answer 63

digoxin

Question 64

BP changes after placing aortic cross clamp during aortic aneurysm repair

Answer 64

hypertension above the clamp and hypotension below the clamp

Question 65

where place a-line and pulse ox during mediastinoscopy

Answer 65

R rad a-line and L finger pulse ox

R a-line allows you to be aware of surgical compression on the inominnate artery. Pulse ox on right hand to monitor same thing

Question 66

when measuring cardiac output by thermodilution, increased injection volume will over/under estimate output

Answer 66

underestimate

Question 67

red vs blue doppler

Answer 67

For red vs blue Doppler, BART: Blue Away, Red Towards.

Question 68

Obstructive shock

• findings
• causes

Answer 68

Obstructive shock presents with
decreased CI,
increased CVP, and
increased SVR,

but additional context information or additional tests such as echocardiography are usually required for diagnosis.

Obstructive shock is due to an obstruction to cardiac output, most likely due to pericardial tamponade, pulmonary embolism, or a tension pneumothorax.

Question 69

normal values
CVP:  
PCWP:  
CI:  
SVR:

Answer 69

CVP: 2-6 mm Hg
PCWP: 6-12 mm Hg
CI: 2.5-4 L/min/m2
SVR: 800-1200 dynes*sec/cm5

Question 70

main blood supply for anterior wall

Answer 70

LAD

Question 71

main blood supply for inferior wall

Answer 71

right coronary

Question 72

main blood supply for lateral wall

Answer 72

circumflex

Question 73

main blood supply for interventricular septum

Answer 73

R coronary and LAD

Question 74

According to the POCA registry, the patients at highest to lowest risk of perioperative events is:

Answer 74

According to the POCA registry, the patients at highest to lowest risk of perioperative events is:

1) Unrepaired hypoplastic left heart syndrome (HLHS) due to elevated pulmonary artery pressures
2) Hypoplastic left heart syndrome (HLHS) who has undergone a total cavopulmonary anastomosis (Fontan)
3) Hypoplastic left heart syndrome (HLHS) who has undergone a superior cavopulmonary anastomosis (Glenn)
4) Unrepaired restrictive ventricular septal defect and left-to-right shunting

Question 75

anterior mediastinal mass

The four features predictive of perioperative anesthetic complications include:

Answer 75

The four features predictive of perioperative anesthetic complications include:
Great vessel compression
Main-stem bronchial compression
Orthopnea
Upper body edema, suggestive of superior vena cava syndrome

Question 76

papillary muscle with single blood supply

what is the blood supply

Answer 76

posteromedial

RCA

Question 77

papillary muscle with dual blood supply

and what is the blood supply

Answer 77

anterolateral

LAD and LCCA

Question 78

rupture of papillary muscle result in

Answer 78

mitral regurg

Question 79

Most common primary tumor of the heart
Typical location
Metastatic disease more or less common?
Cardiac tumors have the potential to cause:

Answer 79

The most common primary tumor of the heart is a cardiac myxoma, which is typically located in the left atrium.

However, metastatic disease to the heart is not uncommon from adjacent lung or renal cancer. Metastatic lung cancer to the heart is more commonly occurring than primary cardiac malignancy and renal cell carcinoma is well described as having potential to spread to the inferior vena cava and right atrium.

Cardiac tumors have the potential to cause arrhythmias, ventricular obstruction, heart failure, pulmonary edema, pulmonary hypertension, arterial hypoxemia, dyspnea, positional hemodynamic compromise and embolism.

Question 80

Acoustic impedance depends on what 2 things

Answer 80

Acoustic impedance is the product of the density of a medium and the propagation speed of sound through that medium. Ultrasound reflections that occur at the interface of different mediums are due to the changes in acoustic impedance. Since propagation speed changes slightly between biological mediums, acoustic impedance is primarily dependent upon density.

Question 81

How ensure adequate cerebral cooling prior to stopping circulation?

Goal temp?

Answer 81

Full flow CPB is maintained 20-30 minutes after reaching goal temperature to ensure adequate cerebral cooling prior to stopping circulation. Operative time is aimed at 45-60 minutes or less and is the only factor shown to improve outcomes.

The goal temperature is between 15-22 degrees, although slightly higher temperatures may be acceptable for periods of arrest shorter than 30 minutes.

Question 82

Valve better seen on TTE than TEE

Answer 82

Pulmonic

Question 83

etCO2 in septic shock

Answer 83

Decreased

Question 84

Pacemaker placement is indicated in

Answer 84

Second degree AV block
Third degree AV block
Any symptomatic bradyarrhythmia
Refractory supraventricular tachyarrhythmia

Question 85

HFpEF
EF
left ventricular end-diastolic volume
left ventricular end-diastolic pressure

Answer 85

Patients with heart failure with preserved ejection fraction (HFpEF) have EF greater 50% with a normal left ventricular end-diastolic volume and an elevated left ventricular end-diastolic pressure.

Question 86

considerations specific for minimally invasive coronary artery bypass

Answer 86

MIDCAB is performed through a small thoracotomy incision on a beating heart which may or may not require single lung ventilation in order to optimize surgical conditions during dissection of the internal mammary artery or anastomosis of the LIMA to the LAD.

Considerations specific for MIDCAB: external defibrillation pads, thoracotomy incision, limited surgical exposure, no CPB (avoids deleterious effects), no cardioplegia, requires anticoagulation, no antifibrinolytics, typically LIMA to LAD, possible need for one lung ventilation or pharmacologic bradycardia, and possible hypotension during ligation of a coronary artery.

Question 87

Pulmonary embolism on TEE

Answer 87

Pulmonary embolism on TEE:
McConnell’s sign (RV mid-free wall akinesia, spared apex)
60/60 sign,
increased PVR and estimated PA pressures,
enlarged RA / RV / IVC / coronary sinus / hepatic veins,
septal flattening or bowing, and
tricuspid regurgitation.

Question 88

moderate range for aortic stenosis

Answer 88

peak velocity 3-4
mean gradient 20-40
aortic valve area 1-1.5

Question 89

Sympathetic activation effect on SA node

Answer 89

Sympathetic activation leads to a sharper, or increased, slope of phase 4 which causes the triggering threshold of the membrane potential to be reached quicker thus leading to depolarization.

Question 90

Factors the increase the SA node firing rate include the following:

Answer 90

Factors the increase the SA node firing rate include the following: sympathetic stimulation, muscarinic receptor antagonism, beta receptor agonism, catecholamines, hypokalemia, hyperthyroidism.

Question 91

The two methods of managing acid-base balance during CPB

Answer 91

The two methods of managing acid-base balance during CPB are noted as pH-stat and alpha-stat management. A pH-stat management technique corrects the alkaline drift by maintaining a neutral pH during hypothermia. Alpha-stat management allows the natural alkaline drift to occur without correction.

Question 92

pH-stat management

Answer 92

During pH-stat management, CO2 is added to the oxygenator or the CPB “sweep” may be reduced (the sweep mechanism removes CO2 from the CPB circuit). The addition of CO2 to the circuit increases total body CO2 in order to maintain pH neutrality despite the continuous reduction in core temperature

Advantages of pH-stat management include increased speed of homogenous cerebral cooling through cerebral vasodilatation, reduced CMRO2, increased CBF, and improved oxygen delivery to tissue. Disadvantages include increased delivery of embolic load to the brain and loss of cerebral autoregulation.

Question 93

Frank-Starling shifts

Answer 93

A shift in the Frank-Starling curve up or down depicts changes in contractility, with upward shifts showing positive inotropy and downward shifts suggesting negative inotropy.

Question 94

the most common etiology of hypotension following initiation of CPB

Answer 94

The acute hemodilution of the patient’s blood with the large volume of crystalloid solution is the most common etiology of hypotension following initiation of CPB

Question 95

The leads of a permanent transcutaneous pacemaker are implanted into the ______

Answer 95

The leads of a permanent transcutaneous pacemaker are implanted into the endocardium.

Question 96

IABP inflation/deflation timing

Answer 96

Because the balloon inflates during diastole, it increases coronary perfusion pressure (increases supply) and because it deflates suddenly right at the time the ventricle is about to eject blood, it decreases afterload (decreased wall tension -> decreased oxygen demand).