UNIT4_Pharm

Question 1

What are the sturtures that are involved in the brain rewards pathway? (6)

Answer 1

• Nucleus Accumbens
• Ventral Tegmental area (VTA)
• Amygdala
• Hippocampus
• Lateral Hypothalamus
• Prefrontal Cortex

Question 2

_______________ is a major component of ventral striatum.

Answer 2

Nucleus Accumbens: major component of ventral striatum

Question 3

What structure is the midbrain structure with dopaminergic cells innervating all the rewards pathway structures?

Answer 3

Ventral Tegmental Area (VTA)

Question 4

What is the structure that integrates and projects to VTA and nucleus accumbens?

Answer 4

Amygdala;

Thought to be important to formation of stimulus-rewards associations.

Question 5

What brain structure is critical for the executive function in providing control of impulses from destructive behaviors.

Answer 5

Prefrontal cortex;

Impairment following chronic drug abuse important mediator in loss of control over drug intake (Addiction)

Question 6

What neural system is a dopamine pathway that is the final common pathway of reinforcement and rewards called?

Answer 6

Mesolimbic system

Question 7

Stimulation of ____ neurons by natural reinforcers → dopamine release in nucleus accumbens

Answer 7

VTA

Question 8

Stimulation of VTA neurons by natural reinforcers → ________ release in nucleus accumbens

Answer 8

dopamine

Question 9

Stimulation of VTA neurons by natural reinforcers → dopamine release in ______ _______.

Answer 9

nucleus accumbens

Question 10

ALL drugs with dependence liability share What final common pathway of increasing synaptic dopamine levels in nucleus accumbens?

Answer 10

Mesolimbic system;

More intense/direct effect drug has on dopamine neurons, the greater addiction potential

Question 11

TA (dopamine cell bodies) + nucleus accumbens (where DA neurons project) + amygdala (connects VTA and NA).

This system is called?

Answer 11

Reactive Rewards System

Question 12

What is the function of the Reactive Rewards System?

Answer 12

signal immediate prospect of pleasure or pain and provides motivational and behavioral drive to achieve that pleasure or avoid that pain

Question 13

Learning conditioned in the amygdala. The amygdala connects to the VTA how?

The amygdala connects to the Nucleus Accumbens how?

Answer 13

→ connects back to VTA as a relevance detector (for anything relevant to previous drug abuse experience).

→ connects to nucleus accumbens to signal emotional memories triggered by internal or external cues → initiate impulsive-automatic-obligatory actions to find/take more drugs.

Question 14

Drugs of abuse: repeated exposure to drugs of abuse results in _______ ________ to trigger drug-seeking behaviors when presented with internal (craving, withdrawal) or external (environmental associations) cues

Answer 14

pathologic “learning”

Question 15

Reflective reward system connects what to what?

Answer 15

Reflective reward system: connects PFC to nucleus accumbens.

Question 16

This the reflective rewards system

• Orbitofrontal projections → ?
• Dorsolateral PFC → ?
• VMPFC → ?

Answer 16

• Orbitofrontal projections → regulate impuls
• Dorsolateral PFC → analysis of situation
• VMPFC → integration of impulsiveness and cognitive flexibility with its regulation of emotions

Question 17

Describe the interaction of drugs of abuse with brain reward pathways in the development of addictive behaviors.

Answer 17

1. Repetitive drug-induced rewarding experiences → alter reward circuits so drug ingestion and cues that merely predict pleasure will activate mesolimbic dopamine release.
2. Amygdala learns that drug causes pleasure and drug cues with pleasure.
3. Drug cues → dopamine release in NAc → GABA output from NAc → thalamus → prefrontal cortex.
4. Absence of activity in reflective reward system → drug seeking behavior initiated.

Question 18

What routes of drugs admin are associated with most rapid rise in brain levels of drug and greater likelihood to produce addiction

Answer 18

IV and Inhalation

Question 19

Withdrawal effects more severe for drugs with ______ half-lives → continued drug administration just to prevent withdrawal

Answer 19

short half-lives

Question 20

How does the tendency for abuse of a drugs change with a faster onset of action?

Answer 20

faster onset of action = increase liability for drug abuse

Question 21

What brain pathway is central to the reinforcing actions of dopaminergic drugs?

Answer 21

VTA → Nucleus Accumbens

Question 22

Are both of these statements True or False?

Produces motivational states that modulate physiological-behavioral responses ensuring survival and reproduction.

Complementary pathway to networks for learning about dangerous stimuli (fear).

Answer 22

Both are True!

Question 23

____?____: Stimulus interpreted as intrinsically positive – something to be approached

Answer 23

Reward

Question 24

Drug-induced pleasurable states are strong motivators of ____ drug use.

Answer 24

initial

Question 25

____?____ : Increases probability that behaviors paired with it will be repeated.

Answer 25

Reinforcing stimulus

Question 26

What pathway functions as interface between limbic emotional-motivational information and extrapyramidal regulation of motor behavior.

Answer 26

Ventral Tegmental Area [VTA] → Nucleus Accumbens [NA]

Question 27

VTA activation releases _________ onto NA neurons → pleasure perceived and identifies stimulating activity as one to be repeated .

Answer 27

Dopamine

Question 28

VTA activation releases DA onto _________ _______ → pleasure perceived and identifies stimulating activity as one to be repeated .

Answer 28

NA neurons

Question 29

T/F?

Drugs of abuse - act via one NT systems - a pathway that increases DA release in the nucleus accumbens?

Answer 29

FALSE!!!

Drugs of abuse - acting via MULTIPLE NT systems - share final common pathway and also increase DA release in the nucleus accumbens.

The more intense and more direct this effect on DA release  greater the addiction potential of the drug

Question 30

What Neurotransmitter is central to pathologic learning in reward pathway?

Answer 30

Dopamine & Glutamate.

Both are involved in physiological survival & pathological learning.

Question 31

Signals from the Pre-Frontal Cortex → Nucleus Accumbens is the __________ rewards system.

Answer 31

Reflective Reward System - PFC → NA

Question 32

Prefrontal cortex to nucleus accumbens:

Orbitofrontal → ?

Dorsolateral → ?

Ventromedial → ?

Answer 32

Prefrontal cortex to nucleus accumbens

Orbitofrontal → regulating impulses

Dorsolateral → analysis of situation

Ventromedial → integration with emotions

Question 33

In the Relative Risk of Addiction scale, which class of drugs is a 5?

Answer 33

5 = highest risk of addiction.

5 = stimulants (cocaine, meth)

Question 34

In the Relative Risk of Addiction scale, which class of drugs is a 4?

Answer 34

4 = high addiction risk

4= Nicotine, Opiates,

Question 35

Which mechanism of drug action is associated with the greatest risk for development of addictive behaviors?

Answer 35

Increased release of Dopamine

Question 36

Withdrawal effects more severe for drugs with ____?____ half-lives

Answer 36

short

Question 37

What is the DA hypothesis of Schizophrenia?

Answer 37

overactivity of brain dopaminergic pathways (especially mesolimbic pathway)

Question 38

In general, what is the MOA for most antipsychotic drugs?

Answer 38

CNS dopamine receptor blockers

Question 39

___________ pathway: integration of sensory input and motor responses with affective or emotional data

Answer 39

Mesolimbic pathway: integration of sensory input and motor responses with affective or emotional data
□ Hyperactivity → Positive symptoms
□ Antipsychotic agents (via D2 block) are most effective in reducing positive symptoms (delusions, hallucinations, disordered cognition).

Question 40

___________ pathway: DLPFC and VMPFC involved in communication and social abilities

Answer 40

Mesocortical pathway: DLPFC and VMPFC involved in communication and social abilities.
□ Hypoactivity due to cell loss in PFC → negative symptoms (poverty of speech, anhedonia, lack of motivation, social isolation).

Question 41

__________ pathway: dopaminergic tract (substantia nigra → striatum)

Answer 41

Nigrostriatal pathway: dopaminergic tract (substantia nigra → striatum)

□ Plays central role in planned and coordinated movement.

Question 42

_________________ pathway: hypothalamic neuronal release of DA in pituitary → inhibit prolactin release

Answer 42

Tuberoinfundibular pathway: hypothalamic neuronal release of DA in pituitary → inhibit prolactin release.

Question 43

Activation of 5HT-2A receptors leads to _________

Answer 43

hallucinantory effects

Question 44

Where are 5HT2A-receptors located?

Answer 44

Glutamate pyramidal neurons in cortical regions

&

Dopamine nerve terminal in striatum

Question 45

Activation of 5HT2A receptors on _______ neurons in the on the Pre-Frontal Cortex → decrease DA → NEGATIVE SX.

Answer 45

Dopamine;

Blockage of these receptors by ATYPICAL agents results in increased DA release, and alleviation of negative symptoms of schizophrenia

Question 46

Activation of 5HT2A receptors on Dopamine neurons in the on the Pre-Frontal Cortex → ________ DA release → NEGATIVE SX.

Answer 46

decrease;

Blockage of these receptors by ATYPICAL agents results in increased DA release, and alleviation of negative symptoms of schizophrenia

Question 47

Activation of 5HT2A receptors on Dopamine neurons in the on the Pre-Frontal Cortex → decrease DA release→ _______ SX.

Answer 47

NEGATIVE Sx;

Blockage of these receptors by ATYPICAL agents results in increased DA release, and alleviation of negative symptoms of schizophrenia

Question 48

Blocking 5HT2A receptors on DA neurons in the PFC by _______ agents results in increase DA release and alleviation of negative Sx of Schizophrenia.

Answer 48

Atypical

Question 49

Activation of 5HT2A receptors on ___________________ in PFC → stimulation of DA neurons in VTA → increase DA release in mesolimbic pathway → POSITIVE Sx.

Answer 49

glutamate pyramidal cells

Question 50

Activation of 5HT2A receptors on glutamate pyramidal cells in PFC → ______________________ → increase DA release in mesolimbic pathway → POSITIVE Sx.

Answer 50

stimulation of DA neurons in VTA

Question 51

Activation of 5HT2A receptors on glutamate pyramidal cells in PFC → stimulation of DA neurons in VTA → increase DA release in ________ pathway → POSITIVE Sx.

Answer 51

mesolimbic

Question 52

Activation of 5HT2A receptors on glutamate pyramidal cells in PFC → stimulation of DA neurons in VTA → increase DA release in mesolimbic pathway → _________ Sx.

Answer 52

POSITIVE

Question 53

Glutamate Neuronal Systems:

Hypofunction of __________________ in PFC → diminished inhibitory influences on mesolimbic and mesocoritical DA pathways → POSITIVE and NEGATIVE Sx.

Answer 53

NMDA receptor on GABAergic interneurons

Question 54

Glutamate Neuronal Systems:

Hypofunction of NMDA receptor on GABAergic interneurons in PFC → _______________ on mesolimbic and mesocoritical DA pathways → POSITIVE and NEGATIVE Sx.

Answer 54

diminished inhibitory influences

Question 55

Glutamate Neuronal Systems:

Hypofunction of NMDA receptor on GABAergic interneurons in PFC → diminished inhibitory influences on _________________ pathways → POSITIVE and NEGATIVE Sx.

Answer 55

mesolimbic and mesocoritical Dopamine

Question 56

Glutamate Neuronal Systems:

Hypofunction of NMDA receptors on GABAergic interneurons in PFC → diminished inhibitory influences on mesolimbic and mesocortical dopamine pathways → ?

Answer 56

Both positive and negative symptoms

Question 57

What is the brain glutamate pathway also called?

Answer 57

Cortical-Brainstem VTA:

Increased cortical output due to loss of cortical GABA inhibition→ increase mesolimbic DA release → Positive symptoms.

Increased cortical output due to loss of cortical NMDA-glu neurons→ loss of cortical GABA inhibition → increased activity of cortical glutamate neurons → decreased mesocortical DA release → Negative symptoms

Question 58

Brain Glutamate Pathways: Cortical-Brainstem VTA:

Increased cortical output due to _____________ → INCREASE mesolimbic DA releases → POSITIVE Sx.

Answer 58

loss of cortical GABA inhibition

Question 59

Brain Glutamate Pathways: Cortical-Brainstem VTA:

Increased cortical output due to loss of cortical GABA inhibition → _________ mesolimbic DA releases → POSITIVE Sx.

Answer 59

INCREASE

Question 60

Brain Glutamate Pathways: Cortical-Brainstem VTA:

Increased cortical output due to loss of cortical GABA inhibition → INCREASE mesolimbic DA releases → ____________ Sx.

Answer 60

POSITIVE

Question 61

Brain Glutamate Pathways: Cortical-Brainstem VTA:

Increased cortical output due to _______________ → loss of cortical GABA inhibition → increase activity of cortical glutamate neurons → DECREASE mesocortical DA release→ NEGATIVE Sx.

Answer 61

loss of cortical NMDA-Glu neurons

Question 62

Brain Glutamate Pathways: Cortical-Brainstem VTA:

Increased cortical output due to loss of cortical NMDA-Glu neurons → loss of cortical GABA inhibition → ___________________________ → DECREASE mesocortical DA release→ NEGATIVE Sx.

Answer 62

increase activity of cortical glutamate neurons

Question 63

Brain Glutamate Pathways: Cortical-Brainstem VTA:

Increased cortical output due to loss of cortical NMDA-Glu neurons → loss of cortical GABA inhibition → increase activity of cortical glutamate neurons → _______________ DA release→ NEGATIVE Sx.

Answer 63

DECREASE mesocortical

Question 64

wrt. to DA and 5HT2 receptors, what is the dopamine theory of schizophrenia?

Answer 64

Blockage of D2 receptors explains most significant pharmacologic effects of anti-psychotic agents BUT efficacy found in anti-psychotic agents that block 5HT2 receptors without blockage of D2 receptors.

Question 65

Typical (1st Gen.) anti-psychotic drugs = __1__ D2/5HT2A ratio.

Atypical (2nd Gen.) anti-psychotic drugs = ___2___ D2/5HT2A ratio.

Answer 65

1. Typical = HIGH DA/Serotonin ratio

2. Atypical (2nd gen) = LOW Dopamine/5HT2A ratio.

Question 66

Which type of Anti-psychotic drugs has good efficact against positive Sx but a high incidence of extrapyramidal toxicity?

Answer 66

Typicals (1st gen.)

Question 67

Which type of Anti-psychotic drugs are better for Pt. with negative Sx and cognition deficits & helps to decrease risk of EPSE Sx.

Answer 67

Atypical (2nd gen)

Question 68

Name Atypical (2nd gen) anti-psychotics). (4)

Answer 68

• Aripiprazole
• Clozapine
• Olanzapine
• Quetiapine

Question 69

Name some Typical Anti-Psychotic agents. (2)

Answer 69

• Chlorpromazine

- Haloperidol

Question 70

List Antimanic agents. (3)

Answer 70

• Lithium
• Valproic Acid
• Carbamazepine

Question 71

List the classes of antidepressants we learned. (8)

Answer 71

• TCADs
• Trazodone
• SSRIs
• Mirtazapine
• Bupropion
• MAOi (Phenelzine)
• Venlafaxine
• Electroconvulsive therapy

Question 72

In the Monoamine therory of depression, all effective antidepressants drugs what what properties?

Answer 72

Enhancing NE-5HT-DA availability in synapse. (low 5HT can induce depression)

This theory does not explain the whole etiology of depression. shift in NT and receptors fucks with downstream signalling.

Question 73

What is the neurodegenerative hypothesis of depression?

Answer 73

Depression associated with neuronal loos in PFC and Hippocampus and anti-depressant Tx act by inhibition this loss by stimulating neurogenesis.

Question 74

Neurodegenerative hypothesis of depression:

_____________ pathway: stress-induced activation of Hypothalamus-Pituitary-Adrenal axis switches on gene expression that promotes neuronal apoptosis and neuronal cell death due to excitotoxic actions of glutamate via NMDA receptors.

Answer 74

Pro Depressive

Question 75

Neurodegenerative hypothesis of depression:

_____________ pathways: monoamines (NE and 5-HT) act on G-protein coupled receptors and brain-derived neurotrophic factor (BDNF) act on kinase-linked receptor to switch on genes that promote neurogenesis and protect against apoptosis

Answer 75

Antidepressive

Question 76

What are the two sedative-hypontic agents?

Answer 76

Benzos and Barbiturates;

• Graded dose-dependent CNS depressant effects.
• Augment GABA inhibition and/or inhibit glutamate excitation.
• Sedative drugs → decrease activity, moderate excitement, and calm recipient.
• Hypnotic drugs → produce drowsiness, facilitate onset + maintenance of sleep.

Question 77

MOA of:

Benzos?

Barbiturates?

Answer 77

Benzos bind alpha or gamma subunits and facillitate channel opening, but do NOT directly initiate Cl- current.

Barbiturates PROLONGS GABA effects. Enchnaces Cl- channel opening ONLY in presence of GABA

Question 78

What is the MOA of Z-drugs?

Answer 78

interact with Benzos binding sites as agonist.

Only binds to A1 subunit of GABA channels.

Question 79

What drugs reverses the effects of Benzos?

Answer 79

Flumazenil; antagonist of benzo binding site.

Not effective in Barbiturate or Ethanol toxicity.

Question 80

T/F?

Flumazenil can also be used in the Tx of Barbiturate overdose.

Answer 80

FALSE!!

Flumazenil is for benzos only!!!

Question 81

What drug class has an MOA that is a 5HT1A partial Agonist?

Answer 81

Buspirone

Question 82

How do you Tx an Opiod OD?

Answer 82

Naloxone (Narcan); opiod Antagonist, short acting.

Make sure to est. airway and stabilize CV

Question 83

T/F?

You can die from Opioid Withdraw.

Answer 83

FALSE

Question 84

3 ways (drugs) to Tx opioid withdraw?

Answer 84

Clonidine → alleviate SNS overactivity symptoms (nausea, vomiting, cramps, sweating tachycardia, increased BP) in acute withdrawal.

Methadone → substitute opioid, long DOA.

Buprenorphine → partial mu agonist

Question 85

List common/major OPioid drugs:

Answer 85

• heroin
• morphone
• oxycodone
• methadone
• fentanyl
• hydrocodone
• codeine
• loperamide (anti-diarrhea)

Question 86

What are the major drug (drug classes) in CNS stimulants?

Answer 86

• amphetamine
• methamphetamine
• cocaine

*MDMA = hallucinogen + CNS depressant

Question 87

In general, what is the MOA of CNS stimulants?

Answer 87

interacts with catecholamines NTs (DA) to cause release or block reuptake of catecholamines.

Question 88

Which of the following antipsychotics is considered to be the most potent and thus have the highest risk of extrapyramidal symptoms?

Thioridazine
Chlorpromazine
Haloperidol
Clozapine
Olanzapine

Answer 88

Haloperidol

Question 89

Which of the following antipsychotics has been shown to be a partial agonist at the dopamine D2 receptor?

Thioridazine
Risperidone
Haloperidol
Aripiprazole
Quetiapine

Answer 89

Aripiprazole

Question 90

What are the major classes of CNS DEPRESSANTS?

Answer 90

• alcohol
• benzos
• barbiturates

Question 91

What is the MOA of ethanol?

Answer 91

GABA-A ch. enhancement + NMDA receptor blocker → disinhibition & excitation.

Question 92

In terms of CNS depressants drugs, which drug class most rapidly develops tolerance:

Answer 92

Most rapid to dev. tolerance > slowest:

Barbiturates > ethanol > Benzos

Question 93

What are the major classes of Hallucinogens?

Answer 93

• Indoleamines: LSD, DMT, mushrooms (psilocybin)

- Phenylethylamines: Mescaline, MDMA, MDA, DMA

Question 94

What is the MOA of Hallucinogens in the CNS?

Answer 94

agonist at the 5HT2 postsynaptic serotonin receptor

Phenylethnlamines also induce dopamine release with effects on DA receptors.
MDMA: SERT reverse transporter leads to 5HT release.

Question 95

What is the MOA of weed in the CNS?

Answer 95

CB1 agonist

Question 96

What are the main classes of dissociative Anesthetics?

Answer 96

• phencyclidine

- Ketamine

Question 97

Describe the metabolism of ethanol?

Answer 97

a. 2-10% out unchanged in air and urine
b. 1st pass metabolism: gastric mucosa

c. 90-98% in liver: ethanol → acetaldehyde → acetic acid.
~ AHD & CYP2E1

Question 98

Where is ADH at?

Answer 98

liver cytosol and mitochondria

Question 99

what order kinetics is the metabolism of ethanol?

Answer 99

Zero-Order! happens at a constant rate.

Question 100

What is the general MOA of Ethanol?

Answer 100

inhibits Glutamate binding to NMDA receptor

Question 101

What is Antabuse (disulfiram)?

Answer 101

inhibits Aldehyde Dehydrogenase → 5-10x increase in acetaldehyde → N/V, resp & CVD collapse, convulsions.

Question 102

What are the effects of Etanhol on;

• CNS
• Liver
• Kidney
• GI Tract
• CV
• Fetus

Answer 102

• CNS: Sedative-Hypnotic: CNS depressant effect (similar to barbiturates)
  Increase GABA + decrease glutamate
  Anxiolysis
  Anticonvulsant: BUT hyperexcitability upon withdrawal
  May precipitate convulsions
  Analgesic effects, sleep effects
  Emetic effect → stimulate CTZ → induce vomiting
• Liver: damage due to increased NADH + direct toxicity
  Fatty liver
  Alcoholic hepatitis → jaundice, ascites, vomiting, anorexia
  Alcoholic cirrhosis → jaundice, portal HTN, esophageal varices
• Kidney: diuresis (decreased ADH secretion, increased fluid intake)
• GI tract: Esophagitis, ulcers, gastritis (due to inflammatory effect of alcohol) → epigastric pain, vomiting, hematemesis
  Pancreatitis (due to secretory effect of alcohol) → weight loss, blood loss, abdominal pain, shock
• Cardiovascular:
  Vasodilation, heart disease, HTN
  Can be CARDIOPROTECTIVE due to decreased platelet aggregation and increased HDL levels
• Fetus: Fetal Alcohol Syndrome
  Prenatal or postnatal growth retardation and altered morphogenesis (especially facial dysmorphology)
  Small head, epicanthal folds, low nasal bridge, small eye openings, short nose, thin upper lip, flat midface, smooth philtrum, underdeveloped jaw.

Question 103

How do you Tx Ethanol withdraw?

Answer 103

• Benzos: actions at GABA receptors prevents emergence of CNS hyperexcitability following withdraw.
• Clonidine: effective signs of autonomic hyperactivity

Question 104

There is cross-tolerance in ethanol use with what other drug classes?

Answer 104

Sedative-hypnotic and general anesthetics

Question 105

With ethanol use, there can be additive effects with all _____1_____, promotion of GI bleeding with taken with ____2____, and increase risk of hepatotoxicity with _____3_____.

Answer 105

1. CNS depressants
2. aspirin
3. acetaminophen

Question 106

Using ethanol with what other drugs leans to disulfiram-like Sx?

Answer 106

Metronidaziole (ABX)

Question 107

Name 2 drugs that are mood stabilizers.

Answer 107

Lithium and Valproate

Question 108

What is the MOA of Lithium?

Answer 108

enhance 5HT action and/or diminish NE and DA effects.

Blocks PIP recycling (GPCR, IP3 and DAG)

Question 109

nitrous oxide, halothane, and other halogenated “fluranes” are examples of what class of anesthetic?

Answer 109

Inhaled anesthetics

Question 110

barbiturates, benzodiazepines, ketamine, opioids, and propofol are examples of what class of anesthetic?

Answer 110

Intravenous anesthetics

Question 111

procaine, lidocaine, bupivacaine, tetracaine, mepivacaine, and cocaine are examples of what class of anesthetic?

Answer 111

Local anesthetics`

Question 112

Which Intravenous anesthetics is notable for its rapid redistribution into skeletal muscle and fat?

Answer 112

Thiopental

Thiopental is a barbiturate used for induction of general anesthesia and short surgical procedures. In addition to potentiating GABA-A,

it decreases cerebral blood flow and intracranial pressure.

Thiopental is highly lipid soluble, causing a rapid onset. Its actions are short-lived due to redistribution into skeletal muscle and fat.

Question 113

What drug is a barbiturate used for induction of general anesthesia and short surgical procedures. In addition to potentiating GABA-A,

Answer 113

Thiopental

Question 114

What is a notable side effect of bupivacaine?

Answer 114

Severe cardiovascular toxicity can occur with bupivacaine.

Question 115

What is the proposed MOA of inhaled anesthetics?

Answer 115

There are many theories explaining the mechanism of action of inhaled anesthetics, including action on cortical centers and inhibition of excitatory transmission in the spinal cord, but the exact mechanism of action is unknown.

Question 116

____________ is a NMDA-receptor antagonist that is categorized as a dissociative anesthetic. It is an analog of phencyclidine (PCP).

Answer 116

Ketamine

Question 117

____________ can prolong QT interval (progressing to Torsades de pointes and ventricular fibrillation). This is a Black Box warning.

Answer 117

Droperidol

Question 118

What are the 4 agents that can be used for the induction of general anesthesia?

Answer 118

Propofol,
Etomidate,
Thiopental
Ketamine

Question 119

The rates of onset and recovery of inhaled anesthestics is dependent on the __________ ratio.

Answer 119

Blood:Gas ratio.

High value of blood:gas = slow onset and slow recovery

Question 120

anesthetics with low blood-gas ratios have a what rate of onset and recovery.

Answer 120

FAST!

Question 121

What is Valproic acid is also indicated for?

Answer 121

myoclonic seizures, bipolar disorder, and migraine prophylaxis.