Chapter 8: Anesthesia

Question 1

Type of Agents that:

• Blunt hypoxic drive
• Caused unconsciousness, amnesia, some analgesia
• Most have myocardial depression, increase CBF, decrease RBF

Answer 1

Inhalational agent

Question 2

Smallest concentration of inhalation agent at which 50% of patients will not move with incision

Answer 2

MAC (minimum alveolar concentration)

Question 3

Inhalational agent that is Fast, minimal myocardial depression; tremors at induction

Answer 3

Nitrous oxide (NO2)

Question 4

Inhalational agent that is-
Slow onset / offset, highest degree of cardiac depression and arrhythmias
- Least pungent, which is good for children for induction

Answer 4

Halothane

Question 5

Manifestations of halothane hepatitis

Answer 5

Fever, eosinophilia, jaundice, increased LFTs

Question 6

Inhalational Agent that is -

Fast, less laryngospasm and less pungent; good for mask induction

Answer 6

Sevoflurane

Question 7

Inhalational agent
-Good for neurosurgery (lowers brain oxygen consumption; no increase in ICP) (recent studies show no clear difference between all these agents regarding ICP)

Answer 7

Isoflurane

Question 8

Inhalational agent thatCan cause seizures

Answer 8

Enflurane

Question 9

IV anesthetic that is:

• (Barbiturate) fast acting
• Side effects: decrease CBF and metabolic rate, decrease blood pressure

Answer 9

Sodium thiopental

Question 10

IV anesthetic

• Very rapid distribution and on/off; amnesia; sedative
• Not an analgesic
• Metabolized in liver and by plasma cholinesterase’s
• Side effects: hypotension, cardiac and respiratory depression

Answer 10

Propofol

Question 11

IV anesthetic
Dissociation of thalamic / limbic systems; places patient in a cataleptic state (amnesia, analgesia).
- No respiratory depression
- Contraindicated in patients with head injury
-known for causing hypersecretions
- Good for children

Answer 11

Ketamine

Question 12

IV anesthetic
Side effects: hallucinations, cathetcholamine release (increase CO2, tachycardia), increased airway secretions and increased cerebral blood flow

Answer 12

Ketamine

Question 13

IV anesthetic

• Fewer hemodynamic changes; fast acting
• Continuous infusions can lead to adrenocortical suppression (this is why its no longer used as a drip in ICU)

Answer 13

Etomidate

Question 14

When is RSI (rapid sequence intubation) indicated?

Answer 14

• Recent oral intake
• GERD
• Delayed gastric emptying
• Pregnancy
• Bowel obstruction

Question 15

Last muscle to go down and first muscle to recover from paralytics

Answer 15

Diaphragm

Question 16

First to go down and last to recover from paralytics

Answer 16

Neck muscles and face

Question 17

Only one is succinylcholine; depolarizes neuromuscular junction

Answer 17

Depolarizing agents

Question 18

• Caused by a defect in calcium metabolism

- Calcium released from sarcoplasmic reticulum causes muscle excitation: contraction syndrome

Answer 18

Malignant hyperthermia

Question 19

First sign of malignant hyperthermia

Answer 19

Increased end-tidal CO2

Question 20

Side effects: first sign is increased end-tidal CO2, then fever, tachycardia, rigidity, acidosis, hyperkalemia

Answer 20

Malignant hyperthermia

Question 21

Malignant hyperthermia; tx dosing

Answer 21

Tx: dantrolene (10mg/kg) inhibits calcium release and decouples excitation; cooling blankets, HCO3, glucose, supportive care

give 2.5mg/kg repeatedly until symptoms go away for maximum of 10-20mg; if does not resolve by then then diagnosis is unlikely

Question 22

When do you NOT use succinylcholine?

Answer 22

Severe burns.
Neurologic injury.
Neuromuscular disorders.
Spinal cord injury. 
Massive trauma.
Acute renal failure.

Question 23

Complications of succinylcholine

Answer 23

• Malignant hyperthermia
• Hyperkalemia
• Open-angle glaucoma
• Atypical pseudocholinesterases

Question 24

Type of agents that

• Inhibits neuromuscular junction by competing with acetylcholine
• Can get prolongation of these agents with myasthenia gravis

Answer 24

Nondepolarizing agents

Question 25

Non-depolarizer neuromuscular blocker

• Undergoes Hoffman degradation
• Can be used in liver and renal failure
• Histamine release

Answer 25

Cis-atracurium

Question 26

Non-depolarizer neuromuscular blocker: Fast, intermediate duration; hepatic metabolism

Answer 26

Rocuronium

Question 27

Non-depolarizer neuromuscular blocker:

• Slow acting, long-lasting; renal metabolism
• Most common side effect: tachycardia

Answer 27

Pancuronium

Question 28

Blocks acetylcholinesterase, increasing acetylcholine

Answer 28

Neostigmine

Edrophonium

Question 29

Should be with neostigmine or edrophonium to counteract effects of generalized acetylcholine overdose

Answer 29

Atropine or glycopyrrolate

Question 30

Work by increasing action potential threshold, preventing Na influx.

Answer 30

Local anesthestics

Question 31

Why are infected tissues difficult to anesthetize with local anesthetics?

Answer 31

Secondary to acidosis.

Question 32

Length of action of local anesthetics: greatest to least

Answer 32

Bupivacaine > lidocaine > procaine

Question 33

Side effects of local anesthetics

Answer 33

Tremors
Seizures
Tinnitus
Arrhythmias (CNS symptoms occur before cardiac)

Question 34

What does addition of epinephrine to local anesthetics allow?

Answer 34

Allows higher doses to be used, stays locally

Question 35

When do you not use epinephrine with local anesthetics?

Answer 35

No epi with:

Arrhythmias, unstable angina, uncontrolled hypertension, poor collaterals (penis and ear), uteroplacental insufficiency

Question 36

Two different genres of local anesthetics

Answer 36

Amides (all have “i” in first part of their name)

Esters

Question 37

Allergic reactions: amides vs esters

Answer 37

Esters: increased allergic reactions due to PABA analogue

Question 38

Metabolism: opioids

Answer 38

Metabolized by the liver and excreted via kidney

Question 39

What can narcotics cause precipitate in patients on MAOIS?

Answer 39

Hyperpyrexic coma

Question 40

Analgesia, euphoria, respiratory depression, miosis, constipation, histamine release (causes hypotension), decreased cough

Answer 40

Morphine

Question 41

Analgesia, euphoria, respiratory depression, miosis, tremors, fasciculations, convulsions

Answer 41

Demerol

Question 42

Does demerol cause histamine release?

Answer 42

NO.

Question 43

Why avoid demerol in patients with renal failure?

Answer 43

Can cause seizures (buildup of normeperidine analogues)

Question 44

simulates morphine, less euphoria

Answer 44

Methadone

Question 45

Fast acting; 80x strength of morphine (does not cross-react in patients with morphine allergy); no histamine release

Answer 45

Fentanyl

Question 46

Very fast acting narcotics with short half lives

Answer 46

Sufentanil and remifentanil

Question 47

Most potent narcotic

Answer 47

Sufentanil

Question 48

Anticonvulsant.
Amnesic.
Anxiolytic.
Respiratory depression.

Answer 48

Benzodiazepines

Question 49

Do benzodiazepines have pain relief?

Answer 49

No.

Question 50

Metabolism: benzos

Answer 50

Liver

Question 51

Benzo:

• Short acting
• Contraindicated in pregnancy
• Crosses placenta

Answer 51

Versed (midazolam)

Question 52

Benzo:

- Intermediate acting

Answer 52

Valium (Diazepam)

Question 53

Benzo:

- Long acting

Answer 53

Ativan (lorazepam)

Question 54

• Benzo OD
• Competitive inhibitor
• May cause seizures and arrhythmias
• Contraindicated in patients with elevated ICP or status epilepticus

Answer 54

Flumazenil

Question 55

MC side effect flumazenil

Answer 55

Nausea

Question 56

Allows analgesia by sympathetic denervation.

Vasodilation.

Answer 56

Epidural anesthesia

Question 57

Epidural with morphine

Answer 57

Can cause respiratory depression

Question 58

Lidocaine in epidural

Answer 58

Decreased heart rate and blood pressure

Question 59

How can motor function be spared with epidural?

Answer 59

Dilute concentrations

Question 60

Tx: acute hypotension / bradycardia with epidural

Answer 60

Turn epidural flows down.
Fluids.
Phenylephrine.
Atropine

Question 61

Epidural level: affect cardiac accelerator nerves

Answer 61

T1-5

Question 62

Contraindications: epidural

Answer 62

Hypertrophic cardiomyopathy.

Cyanotic heart disease.

Question 63

Why h-cmp and cyanotic heart disease contraindications to epidural anesthesia?

Answer 63

Sympathetic denervation causes decreased after load, which worsens these conditions

Question 64

Injection into subarachnoid space, spread determined by baricity and patient position

Answer 64

Spinal anesthesia

Question 65

Contraindications: spinal

Answer 65

Hypertrophic cardiomyopathy.

Cyanotic heart disease.

Question 66

Caused by CSF leak after spinal / epidural.

Headache gets worse sitting up.

Answer 66

Spinal headache

Question 67

Tx: Spinal headache

Answer 67

Rest. Fluids. Caffeine. Analgesics. Blood patch to site if it persists > 24 hours.

Question 68

Associated with most postop hospital mortality

Answer 68

1. Pre-op renal failure

2. CHF

Question 69

May have no pain or EKG changes. Can have hypotension, arrhythmias, increased filling pressures, oliguria, bradycardia.

Answer 69

Postop MI

Question 70

Patients who need cardiology workup pre-op (x13)

Answer 70

Angina. Previous MI. SOB. CHF. METs 5min. High grade heart block. Age >70. DM. Renal insufficiency. Patients undergoing major vascular surgery.

Question 71

Considered high risk surgery

Answer 71

Most aortic, major vascular, peripheral vascular surgery

Question 72

Risk: carotid endarterectomy (CEA)

Answer 72

Considered moderate risk surgery

Question 73

Biggest risk factors for post MI

Answer 73

Age > 70.
DM.
Previous MI.
CHF.
Unstable angina.

Question 74

Best determinate of esophageal vs tracheal intubation

Answer 74

End-tidal CO2

Question 75

Intubated patient undergoing surgery with sudden transient rise in ETCO2
Dx? Tx?

Answer 75

Dx: most likely hypoventilation.
Tx: increased tidal volume or increased respiratory rate.

Question 76

Goal endotracheal tube placement

Answer 76

2cm above the carina

Question 77

Associated with lower mortality for abdominal aortic aneurysm repair and for pancreatic resection

Answer 77

Higher volume hospitals

Question 78

MC PACU complication

Answer 78

nausea and vomiting.

Question 79

Diagnosis:

pt on profofol infusion develops bradycardia, low UOP, incr cr, hyperkalemia and acidosis? Management?

Answer 79

propofol infusion syndrome

ppx with daily screening with lactate and CPK and changing propofol if >48 hrs

Question 80

protective factor for perioperative nerve injuries

Answer 80

obesity, proper positioning (although many occur even with this)

Question 81

risk factors for perioperative nerve injuries

Answer 81

low BMI, diabetic neuropathy

Question 82

EMG results after perioperative nerve injuries

Answer 82

usually normal but should be done early

Question 83

during arterial line SBP measurement where is the pressure higher: radial or aortic

Answer 83

radial ( higher as it goes more diatal, smaller and more calcified)

Question 84

why is morphine generally contraindicated in renal failure

Answer 84

morphine is only opioid that has an active metabolite which in regular pts is no problem bc its quickly excreted howver in renal pts there is a build up

Question 85

types of ventilator modes

Answer 85

• continuous positive airway pressure (CPAP): all breaths are triggered by the patient and no additional support is provided.
• Pressure support ventilation (PSV) allows the patient to determine the rate and volume of breaths but provides additional pressure to support a patient-triggered breath. -SIMV allows the clinician to mandate a certain number of breaths per minute at a set volume or pressure but allows the patient to breath spontaneously in between the machine-triggered breaths. It is frequently combined with PSV to provide additional pressure to support the patient-triggered breaths.

Question 86

top three likely offenders in a pt who develops acute hypersensitivity reaction during an operation

Answer 86

neuromuscular blocking agents (-oniums) -60%
latex 20%
abx 13%

Question 87

ASA designations

Answer 87

1. healthy, nonsmoking and no or minial etoh use
2. mild systemic disease ( HTN, smoking or social alcohol use, pregnancy, obesity)
3. Severe systemic disease ( ESRD, COPD, alcohol dependence, MI>3 months
4. Severe systemic disease that is a constant threat to life ( MI<3 months, recent CVA, ESRD but not regularly going)
5. moribund not expected to survive without the operation
6. brain dead ( organ donation)

Question 88

malignant hyperthermia genetic association

Answer 88

autosomal dominant

Question 89

malignant hyperthermia can develop as early as _____ and as late as _______

Answer 89

1. 30 mins

2. 24 hrs

Question 90

maximum dosing of 1% lido w/ and w/o epi

Answer 90

4 mg/kg (typically 1% lido has 10 mg/ml)

7 mg/kg

Question 91

next step if a pt develops trismus (masseter muscle rigidity) after induction

Answer 91

1. wait 20-30 seconds and should resolve
2. persistent trismus is NOT a sign of inadequate neuromuscular blockade and should raise suspicion for malignant hyperthermia- surgery should be cancelled and pt placed in observation 24 hrs with referal for muscle bx

Question 92

main concern for pts undergoing anesthesia that have aortic stenosis

Answer 92

avoiding hypotension ( due to concentric hypertrophy they are preload dependent)- imperative to keep them intravascularly full
-increase preload, maintain afterload (coronary filling), avoid bradycardia, or any arythmias (loss of atrial kick)

Question 93

dopamine effect on receptors depending on dose

Answer 93

• effect on α- and β-adrenergic receptors is generally weaker than epinephrine and norepinephrine.
• At lower doses (1 to 2 mcg/kg per minute), its predominant effect is on the dopaminergic receptors causing renal and visceral vasodilation
• 3 to 10 mcg/kg per minute, the β1-adrenergic receptors predominate; this is most similar to the effects of dobutamine or low dose epinephrine.
• greater than 10 mcg/kg per minute, the α1-adrenergic receptors predominate, leading to peripheral vasoconstriction; this is most similar to the effects of phenylephrine.

Question 94

pt fails to regain twitches after neuromuscular blockade; etiology? dx? tx?

Answer 94

acquired or genetic pseudocholinesterase deficiency (needed to degrade succinylcholine)

acquired -liver disease
genetic (auto recessive)
dx: decrease plasma cholinesterase enzyme activity)
supportive tx ( wait until spontanously regains muscle function)

Question 95

pseudocholinesterase deficiency affect breakdown of what drugs?

Answer 95

esters local aneshetics

cocaine

Question 96

pt is given benzocaine and develops cyanosis however O2 sats is 100%. dx and tx?

Answer 96

methhemoglobunemia

IV methiline blue

Question 97

if a pt is intubated and pretty sure in right place but capnography reads wrong. what to do? when does this happen?

Answer 97

typically in pts that have received multiple doses of epi during ALS, airway obstruction, poor pulm blood flow
confirm with endotracheal US

Question 98

what is demerol? how does it differ from morphine?

Answer 98

opioid

does not release histamine thus no hypotension