Final_Brain

Question 1

CPP

Answer 1

= MAP - ICP

Question 2

Autoregulation

Answer 2

ability of brain to maintain CBF at constant levels despite changes in CPP

Question 3

When CPP is increased, arterial ____ occurs

Answer 3

constriction

Question 4

When CPP is decreased, arterial ____ occurs

Answer 4

dilation

Question 5

rapid lowering of BP in HTN patients can cause

Answer 5

cerebral ischemia

Question 6

Changes in CMRO2 usually leads to _____

Answer 6

same direction changes in CBF

Question 7

VA effect on CBF and CMRO2

Answer 7

CBF: dose-dependent increase
CMRO2: decrease
*different from norm “CBF-CMRO2 coupling”

Question 8

VA effect on ICP: most to least

Answer 8

Increases ICP

Des > Sevo, Iso

Question 9

VA effect on CBF: most to least

Answer 9

Increases CBF

Des > Sevo > Iso

Question 10

VA effect on CMRO2: most to least

Answer 10

Decreases CMRO2

Iso > Des/Sevo

Question 11

How to offset VA effect on CBF?

Answer 11

Arterial hypocapnea helps to minimize increases in CBF

Question 12

Normal CPP

Answer 12

50-150 mmHg

Question 13

poor mans way to calculate CPP

Answer 13

substitute ICP for CVP

CPP=MAP-CVP

Question 14

Brain receives how much cardiac output

Answer 14

15%

or 750 mL/min

Question 15

CMRO2 of brain

Answer 15

3mL O2/g brain tissue/min

• 50mL/min
• 18-23% of total body O2 consumption

Question 16

Hypocapnea can effect cerebral blood flow how?

Answer 16

acutely decrease: CBF, CBV, ICP

Question 17

1 mmHg increase in PaCO2 = ______ CBF

Answer 17

15 mL/min

Question 18

As _____ returns to normal, hypocapnea is no longer effective at decreasing CBF, CBV, ICP

Answer 18

CSF pH

Question 19

PaO2 effect on CBF?

Answer 19

Decreased PaO2:
-Increases cerebral vasodilation + CBF
Only effects CBF when PaO2 < 50 mmHg

Question 20

Nitrous Oxide effect on brain

Answer 20

increases ICP

Question 21

Ketamine effect on brain

Answer 21

cerebral vasodilator

Question 22

Propofol effect on brain

Answer 22

cerebral vasoconstrictor

Question 23

Opioid effects on brain

Answer 23

cerebral vasoconstrictor

Question 24

NDMR effects on brain

Answer 24

prevent coughing = avoid acute increase in ICP

Question 25

When to decrease ICP

Answer 25

Tx sustained ICP > 20

Question 26

Methods to decrease ICP

Answer 26

Elevate HOB
Hyperventilate
CSF drainage
Surgical decompression
hyperosmotic Rx
Diuretics
Corticosteroids
Cerebral vasoconstricting agents

Question 27

Fastest intervention to decrease ICP

Answer 27

hyperventilation

Question 28

Cerebral vasoconstriction results in

Answer 28

reduced CBF/CBV

Question 29

Hyperventilation to decrease ICP: goal

Answer 29

PaCO2 25-35

Question 30

Hyperosmotic Rx

Answer 30

Mannitol 
-0.25-0.5mg/kg: removes 100mL h2O from brain 
-decreased ICP seen w/in 30min
U/O up to 1-2L
Hypertonic Saline
-CVL, caution w/ rapid admin
-1-2mL/kg of 3% over 5min
*check serum Na prior! (hold if Na>160)

Question 31

Sux effect on brain

Answer 31

increased in ICP, CBF

Question 32

When to use lasix vs. mannitol

Answer 32

Lasix: good for pt who cannot tolerate transient increase in intravasc volume

Question 33

Corticosteroids effect on ICP

Answer 33

Decreases - for localized vasogenic cerebral edema/pseudomotor cerebri

Question 34

Effective treatment to decrease ICP in acute head injury pts

Answer 34

Barbiturates

Question 35

Anesthetic considerations for intracranial tumors

Answer 35

• Identify if increased ICP present
• sensitive to sedation/opioids
• combo: NO, VAs, opioids, barbiturates, propofol

Question 36

Intraop goals for increased ICP

Answer 36

• pre-treat for increased ICP
• control BP thru induction
• deep before induction
• profound muscle relaxation: DL/intubation
• Euvolemia, avoid dextrose
• rapid emergence

Question 37

Induction agents - increased ICP

Answer 37

Propofol + barbiturates

Question 38

Special monitoring for intracranial tumors

Answer 38

PIV, A-line, EEG

Question 39

Delay of elective surgery post stroke

Answer 39

Elective surgery should be delayed for up to 9 months (allow return of cerebral autoregulation)

Question 40

periop stroke associated with

Answer 40

8x increase risk of death within 30 days of surgery

Question 41

Sitting position does what to CPP?

Answer 41

Decreases CPP by ~ 15%

Question 42

Advantages of sitting position

Answer 42

Surgical exposure, enhanced venous drainage, minimize EBL, decreases ICP

Question 43

Disadvantages of sitting position

Answer 43

HOTN, decreased CO, risk of VAE

Question 44

How does HOB elevation effect hemodynamics?

Answer 44

1mmHg drop in MAP per 1.25 cm increase in HOB elevation

Question 45

supratentorial tumor resection is done in which position?

Answer 45

sitting

Question 46

When could a VAE occur?

Answer 46

When exposed veins are above the level of the heart

Question 47

Why does a VAE occur?

Answer 47

Veins:

• don’t collapse when cut d/t attachment to bone/dura
• are sub-atmospheric pressure

Question 48

VAE: Air into RA

Answer 48

interferes with R-sided co + pulm arterial blood flow –> bronchoconstriction/pulm edema

Question 49

VAE: Air Lock

Answer 49

R-sided output failure, acute cor pulmonale, hypoxemia

Question 50

VAE: caution with who?

Answer 50

R-L shunt (paradoxical air embolism: obstruction of coronaries with air= vfib/death)

Question 51

S/S VAE

Answer 51

Sudden decrease in ETCO2
Gasp reflex
Millwheel murmur

TEE

Late: HOTN, tachycardia, dysrhythmias, cyanosis

Question 52

Tx: VAE

Answer 52

CRNA

• Notify surgeon/Call for help ASAP
• Aspirate RAC
• d/c N2O, admin. 100% FiO2

Surgeon

• flood site with fluid
• apply occlusive material to bone edges

Question 53

SAH: Tx

Answer 53

• MRI/MRA localization
• percutaneous radiology techniques (control bleed: via coil/clip)
• outcome optimal w/in 72h of bleed

Question 54

Day 3-15 after SAH, risk of

Answer 54

cerebral vasospasm
goal: HTN, hypervolemia, hemodilution
Tx: Nimodipine CCB day 1-21

Question 55

SAH clipping: anesthetic management

Answer 55

induction: avoid increasing ICP
Maintenance: A-line, CVP, PA catheter or TEE (CV dx), EP monitoring (detect ischemia)

Question 56

Goals of SAH clipping aesthetic management

Answer 56

• Depth of anesthesia appropriate to level of stimulation
• Facilitate surgical exposure: brain relaxation
• Maintain CPP
• Reduce aneurysm transmural pressure
• Prompt awakening of pt post-procedure
• Drugs, fluids, blood must be immediately available in event of rupture

Question 57

Biggest risk during AVM intraop

Answer 57

severe/rapid hemorrhage

Question 58

AVM anesthetic considerations

Answer 58

• pre-induction A-line
• tight BP control
• fluid/blood readily available