VALLEY: CNS MONITORING

Question 1

4 indications for EEG monitoring during anesthesia

Answer 1

1. carotid endartercetomy
2. CPB procedures
3. Cerebrovascular surgery
4. When burst suppression is desirable for cerebral protection

Question 2

2 indications for EEG monitoring in ICU

Answer 2

Barbiturate coma for patients with TBI

When subclinical seizures are suspected.

Question 3

How many mV are generated by EEG signals

Answer 3

0.1 mV which is 100 microVolts

Question 4

EEG waves are

Answer 4

Alpha
Beta
Delta
Theta

Question 5

EEG waves are categorized based on

Answer 5

Frequency and amplitude

Question 6

Lowest frequency wave and range

Answer 6

Delta waves (0-4Hz)

Question 7

Greatest amplitude waves in the EEG

Answer 7

Delta waves

Question 8

Slighly lower amplitude than delta waves

Answer 8

Theta waves

Question 9

Theta waves frequency

Answer 9

Theta 4-7 Hz

Question 10

Alpha waves are typically recorded over the

Answer 10

posterior aspect of the head during awake, alert, but relaxed activities.

Question 11

Alpha waves amplitude

Answer 11

have an intermediate amplitude
Alpha < Delta =Theta
Alpha > Beta

Question 12

Alpha Waves frequency

Answer 12

frequency range of 8- 12 Hz.

Question 13

Waves are the highest frequency

Answer 13

beta (> 12 Hz),

Question 14

Lowest amplitude waveforms

Answer 14

Beta

Question 15

Are recorded predominantly over the frontal areas of the head

Answer 15

Beta

Question 16

Delta waves are seen when?

Answer 16

Delta waves (0-4 Hz) are seen in the sleeping adult, but are considered abnormal in the awake adult.

Question 17

Delta waves seen which pathology

Answer 17

Delta waves are also seen in encephalopathy, deep

coma, and deep anesthesia.

Question 18

Theta waves are seen in

Answer 18

Theta waves (4-7 Hz) are seen in sleep and in deep
anesthesia.

Question 19

Prominent alpha wave activity (7-12 Hz) is characteristic of

Answer 19

awake, alert, but relaxed activities.

Question 20

An ‘eyes closed’ resting alpha pattern is the

Answer 20

baseline awake pattern used when anesthetic effects on the EEG are described

Question 21

Are characteristic of aroused, attentive, active thinking

Answer 21

Beta waves (> 12 Hz)

Question 22

What happens to the electroencephalography (EEG) waveforms as anesthetic depth increases?

Answer 22

Increasing depth of anesthesia from the awake state is characterized by increased amplitude and synchrony in the EEG waveforms

Question 23

As anesthetic depth increases, what happens ?

Answer 23

periods of electrical silence occupy greater proportions of the electroencephalogram (EEG).

Question 24

What is Electrical silence in the EEG

Answer 24

period of electrical silence in an EEG is called an isoelectric EEG pattern.

Question 25

What MAC correlates with an isoelectric EEG pattern?

Answer 25

An isoelectric pattern dominates the EEG in the range of 1.5 to 2.0 MAC.

Question 26

During certain surgical procedures, maximal suppression of cerebral metabolic rate is desirable why?

Answer 26

to protect the brain during an ischemic insult

Question 27

During certain surgical procedures, maximal suppression of cerebral metabolic rate is desirable to protect the brain
during an ischemic insult. Under such circumstances, the anesthetic agent can be

Answer 27

titrated against the EEG until the desired effect is achieved

Question 28

Typically Typically, instead of an isoelectric EEG, the goal is a state called

Answer 28

called burst suppression.

Question 29

Characterize “burst suppression” on the electroencephalogram

Answer 29

(EEG) burst suppression is characterized by periods
of isoelectric EEG punctuated by “bursts” of EEG activity. The “burst” is high-frequency activity and the “suppression” is O.S· to several-second periods of isoelectric activity

Question 30

The electroencephalogram {EEG) is occasionally used during cerebrovascular surgery to confirm

Answer 30

adequate cerebral oxygenation

Question 31

Identify four conditions o agents that can produce EEG changes mimicking cerebral ischemia (HEMA)

Answer 31

(1) hypothermia,
(2) electrolyte disturbances,
(3) marked hypocapnia, and
(4) anesthetic agents

Question 32

When would you use sensory evoked potential monitoring?

Answer 32

The primary application of sensory evoked potential monitoring (somatosensory, brainstem auditory, visual) is to assess continually the function and integrity of neural pathways

Question 33

Monitor the spinal cord or or cranial nerve II {visual).

Answer 33

somatosensory

Question 34

Monitor cranial nerve VIII

Answer 34

(brainstem auditory),

Question 35

Evoked potentials are used during

Answer 35

resection of spinal cord tumors, corrective surgery of the spine and cranial tumor resection.

Question 36

How are somatosensory evoked potentials elicited?

Answer 36

by electrically stimulating tibial, ulnar or radial nerves.

Question 37

SSEP neurons excited are

Answer 37

Low threshold sensory neurons (those that carry touch and pressure sensations) are excited

Question 38

What is the value of somatosensory evoked potential monitoring?

Answer 38

monitor the integrity of the posterior (dorsal) spinal cord where the sensory tracts (cuneatus and gracilis) of the dorsal-lemniscal system are located.

Question 39

Somatosensory evoked potential (SSEP} monitoring assesses the integrity of which region of spinal cord: dorsal, lateral, or ventral?

Answer 39

SSEP monitoring assesses the integrity of the dorsal cord.

Question 40

Where are recording electrodes placed for somatosensory evoked potential monitoring if the tibial nerves are stimulated bilaterally?

Answer 40

recorded from electrodes placed between the ears on the scalp. The crucial electrode is placed midway
between each ear.

Question 41

For SSEPs , where is the crucial electrode placed

Answer 41

Midway between each ear.

Question 42

What happens to the somatosensory evoked potential (SSEP) when the patient undergoing laminectomy is paralyzed with a muscle relaxant?

Answer 42

Nothing. Neuromuscular blockade will not alter transmission of action potentials in the sensory tracts.

Question 43

SSEPs: All anesthetic agents except muscle relaxants

Answer 43

depress SSEPs to a varying degree.

Question 44

How are evoked potentials altered by volatile anesthetics?

Answer 44

Volatile anesthetics, especially high concentrations (> 1 MAC), produce dose-dependent increases in latency and decreases in amplitude of evoked potentials.

Question 45

Which volatile inhalational agent LEAST depresses the amplitude and increases the latency of the somatosensory
evoked potential (SSEP)?

Answer 45

Halothane

Question 46

Which volatile inhalational agent MOST depresses the

amplitude and increases the latency of the SSEP?

Answer 46

Enflurane

Question 47

How does nitrous oxide affect latency and amplitude of the somatosensory evoked potential?

Answer 47

Nitrous oxide causes a decrease in amplitude without a change in latency of the somatosensory evoked potential when used alone or when added to opioid or volatile anesthetics.

Question 48

List 5 physiologic factors that may alter sensory evoked potentials (SEPs).

Answer 48

(l) temperature. (2) hypotension, (3) hypoxia, (4) hypocarbia, and (5) • isovolemic hemodilution.

Question 49

Which physiologic factor has the greatest effect on sensory evoked potentials?

Answer 49

altered temperature affects SEPs the most, whereas

Question 50

Which physiologic factor has the least effect on sensory evoked potentials?

Answer 50

hemodilution affects SEPs the least

Question 51

SEP : Hypothermia will

Answer 51

increase latency and decrease amplitude of SEPs (latency

increases by 1 ms for each 1 ° C decrease in temperature)

Question 52

SEP: Hyperthermia will

Answer 52

decrease amplitude by up to 15%.

Question 53

SEPs are lost at which temperature

Answer 53

42C.

Question 54

MAP and SEP

Answer 54

With a mean arterial pressure less than 40 mm-Hg. there

is a progressive decrease in amplitude ofSEPs.

Question 55

A decrease in SEP amplitude is seen with hypoxia, probably due to

Answer 55

alterations in blood flow

Question 56

With an ETC02 S 25 mm-Hg, SEP.

Answer 56

latency increases

Question 57

SEP latency does not increase until the hematocrit is

Answer 57

less than 15%

Question 58

SEP amplitude does not decrease until the hematocrit is

Answer 58

less than 7%.

Question 59

Flow through what spinal arterial vessel(s) is monitored by somatosensory evoked potentials (SSEPs)?

Answer 59

SSEPs monitor flow through the posterior spinal arteries

Question 60

Arterial blood is delivered to the spinal cord via

Answer 60

• one anterior spinal artery
• two posterior spinal arteries and small segmental (radicular} arteries that augment flow to the anterior and posterior arteries

Question 61

The major source of blood for the spinal cord is

Answer 61

the anterior and posterior arteries.

Question 62

SSEPs monitor sensory action potentials, which ascend in tracts located in the, so

Answer 62

posterior cord

Question 63

Posterior cord ischemia resulting from hypoperfusion of the posterior spinal arteries would result in _____latency and ______amplitude of the SSEP

Answer 63

increased latency and decreased amplitude of the SSEP

Question 64

Brainstem auditory evoked potential monitoring is useful during operations involving what cranial nerve?

Answer 64

Cranial nerve VIII.

Question 65

Is brainstem auditory evoked potential monitoring appropriate for surgery for acoustic neuroma? Why or why not?

Answer 65

Yes it is appropriate, since cranial nerve VIII carries acoustic messages.

Question 66

Monitoring of what evoked potential may be useful during pituitary surgery?

Answer 66

Visual evoked potential monitoring may be used during pituitary surgery to assess direct compression of, or compromise of the blood supply to, the optic nerve and optic chiasm.

Question 67

What evoked potential (somatosensory, brainstem auditory, or visual) is monitored during transsphenoidal surgery?

Answer 67

Visual evoked potential monitoring may be employed for transsphenoidal surgery if the tumor is large and involves the optic nerves (cranial nerve II)

Question 68

Multiple drugs used in the perioperative period can influence the ability to accurately monitor

Answer 68

sensory-evoked responses (SER; e.g. somatosensory,

visual, and brainstem (auditory) evoked potentials).

Question 69

Inhalational agents, including nitrous oxide, generally have

Answer 69

more depressant effect on evoked

potentials than equipotent doses of intravenous agents.

Question 70

Propofol and thiopental

Answer 70

attenuate the amplitude of virtually all evoked potential modalities but do not obliterate them.

Question 71

Opioids and benzodiazepines on evoked potentials

Answer 71

Opioids and benzodiazepines have negligible effects on the recording of all evoked potentials

Question 72

2 drugs that have been reported to enhance the quality of signals in patients with weak baseline somatosensory evoked potential (SSEP) signals.

Answer 72

Ketamine and etomidate

Question 73

Rank the three major sensory-evoke responses-somatosensory (SSEP). visual (YEP), and brainstem/auditory
(BAPE)-based upon sensitivity to anesthetic agents

Answer 73

Visual are Very
Somatosensory are Somewhat, and
Brainstem are Barely sensitive.

Question 74

Brainstem auditory evoked potentials (BAEP) are generally very resistant to alteration by anything other than structural pathology in the brainstem. What operating room environmental variable will decrease latency and prolong interpeak intervals in BAEPs?

Answer 74

Mild hypothermia has been associated with decreased latency and prolonged interpeak intervals during brainstem auditory evoked potentials

Question 75

Where are motor evoked potentials stimulated?

Answer 75

Motor evoked potentials (MEPs) are stimulated over or in the motor region of the cerebral cortex.

Question 76

MEPs, How are they stimulated?

Answer 76

by transcranial electrical stimulation (teMEP), transcranial magnetic stimulation (tmMEP) or by direct stimulation of the motor cortex with an electrode

Question 77

Where may motor evoked potentials be monitored?

Answer 77

(1) the spinal cord, (2) a peripheral nerve, or (3) the involved muscle.

Question 78

T/F Neither sensory evoked potentials (SEPs} nor motor evoked potentials (MEPs) can be recorded at the site of stimulation.

Answer 78

True

Question 79

What is the wake-up test, and how is it performed?

Answer 79

The wake-up test is used to assess integrity of the spinal motor pathways, which are found in the anterior (ventral) cord. It is performed by lightening the anesthetic depth. The patient is asked to squeeze a hand and move
his/her feet and toes. After these maneuvers are performed, anesthesia is quickly deepened

Question 80

Where is the spinal motor pathway found

Answer 80

Anterior (ventral) cord

Question 81

The wake-up test monitors what region of spinal cord {dorsal, lateral, or ventral}?

Answer 81

The wake-up test monitors ventral cord, which is supplied by the anterior spinal artery

Question 82

During the wake up test, When the patient is awakened, he or she is asked to

Answer 82

squeeze the anesthetists hand and move his or her feet and toes.

Question 83

Motor tracts are found in the____Cord.

Answer 83

ventral cord

Question 84

Recall that the somatosensory evoked potential

monitors the _____cord.

Answer 84

dorsal

Question 85

What complications can occur during the wake-up test?

Answer 85

Extubation in the prone position,
Recall of intraoperative events (incidence, 0-20%), Myocardial ischemia, self- injury,
Dislodgement of instrumentation, and air embolus from open sinuses if the patient is breathing spontaneously and inhales vigorously.

Question 86

What agents will not alter bispectral index (BIS} monitoring?

Answer 86

the BIS is not affected by opioids or analgesics. Nitrous oxide alone will have no effect on BIS.

Question 87

Agent that may affect BIS

Answer 87

Ketamine has minimal effect on BIS, and may slightly increase BIS transiently

Question 88

What is cerebral oximetry?

Answer 88

Cerebral oximetry is a noninvasive monitor used to measure regional blood hemoglobin saturation (rS02) via near-infrared optical spectroscopy (NIRS).

Question 89

Cerebral oximetry used for patients

Answer 89

Technology is similar to that of pulse oximetry and can be used for patients at risk for stroke

Question 90

Briefly describe the technique of cerebral oximetry via near-infrared optical spectroscopy (NIRS).

Answer 90

To measure regional hemoglobin oxygen saturation (rS02) via trans cranial near-infrared spectroscopy (NIRS). an infrared light source contained in a self-adhesive patch is affixed to the forehead.Because the human skull is
translucent to infrared light, photons are transmitted through the skull and underlying tissues to the outer layers of the cerebral cortex. Adjacent sensors separate photons reflected from the skin, muscle, skull, and dura from those
of the brain tissue. NIRS measures all hemoglobin, pulsatile and nonpulsatile, in a mixed microvascular bed.

Question 91

NIRS measures

Answer 91

all hemoglobin, pulsatile and nonpulsatile, in a mixed microvascular bed.

Question 92

Cerebral oximetry has the advantage that it may be used

during

Answer 92

nonpulsatile CPB and circulatory arrest