16- Antipsychotics

Question 1

chlorpromazine (Thorazine)

Answer 1

typical antipsychotic- D2 antagonist

• returns DA balance in nucleus accumbens (positive symptoms)
• higher clinical potency than atypicals
• multiple side effects d/t activity at muscarinic, adrenergic, DA, serotonin and histamine receptors
• can induce/inhibit CYP metabolism
• metabolized by CYP2D6 and CYP3A4

Question 2

fluphenazine (Permitil, Prolixin)

Answer 2

typical antipsychotic- D2 antagonist

• returns DA balance in nucleus accumbens (positive symptoms)
• higher clinical potency than atypicals
• multiple side effects d/t activity at muscarinic, adrenergic, DA, serotonin and histamine receptors
• can induce/inhibit CYP metabolism
• metabolized by CYP2D6 and CYP3A4

Question 3

thiothixene (Navane)

Answer 3

typical antipsychotic- D2 antagonist

• returns DA balance in nucleus accumbens (positive symptoms)
• higher clinical potency than atypicals
• multiple side effects d/t activity at muscarinic, adrenergic, DA, serotonin and histamine receptors
• can induce/inhibit CYP metabolism
• metabolized by CYP2D6 and CYP3A4

Question 4

haloperidol (Haldol)

Answer 4

typical antipsychotic- D2 antagonist

• returns DA balance in nucleus accumbens (positive symptoms)
• higher clinical potency than atypicals
• multiple side effects d/t activity at muscarinic, adrenergic, DA, serotonin and histamine receptors
• can induce/inhibit CYP metabolism
• metabolized by CYP2D6 and CYP3A4

Question 5

aripiprazole (Abilify)

Answer 5

atypical antipsychotic

• inhibit serotonin receptors (2A & 2C)
• lower affinity for DA receptors than typical drugs
• blocking serotonin receptors leads to both a decrease in glutamate release and inc. DA release in the cortex
• Less EPS and NMS
• many side effects because of off-target effects
• metabolized by CYP1A2, 3A4, 2D6
• induce/inhibit CYPs

Question 6

clozapine (Clozaril)

Answer 6

atypical antipsychotic

• inhibit serotonin receptors (2A & 2C)
• lower affinity for DA receptors than typical drugs
• blocking serotonin receptors leads to both a decrease in glutamate release and inc. DA release in the cortex
• Less EPS and NMS
• many side effects because of off-target effects
• metabolized by CYP1A2, 3A4, 2D6
• induce/inhibit CYPs
• increased risk of metabolic syndrome, ganulocytosis, leukopenia

Question 7

olanzapine (Zyprexa)

Answer 7

atypical antipsychotic

• inhibit serotonin receptors (2A & 2C)
• lower affinity for DA receptors than typical drugs
• blocking serotonin receptors leads to both a decrease in glutamate release and inc. DA release in cortex
• Less EPS and NMS
• many side effects because of off-target effects
• metabolized by CYP1A2, 3A4, 2D6
• induce/inhibit CYPs
• increased risk of metabolic syndrome

Question 8

paliperidone (Invenga)

Answer 8

atypical antipsychotic

• inhibit serotonin receptors (2A & 2C)
• lower affinity for DA receptors than typical drugs
• blocking serotonin receptors leads to both a decrease in glutamate release and inc. DA release in cortex
• Less EPS and NMS
• many side effects because of off-target effects
• metabolized by CYP1A2, 3A4, 2D6
• induce/inhibit CYPs

Question 9

quetiapine (Seroquel)

Answer 9

atypical antipsychotic

• inhibit serotonin receptors (2A & 2C)
• lower affinity for DA receptors than typical drugs
• blocking serotonin receptors leads to both a decrease in glutamate release inc. DA release in cortex
• Less EPS and NMS
• many side effects because of off-target effects
• metabolized by CYP1A2, 3A4, 2D6
• induce/inhibit CYPs

Question 10

risperidone (Risperdal)

Answer 10

atypical antipsychotic

• inhibit serotonin receptors (2A & 2C)
• lower affinity for DA receptors than typical drugs
• blocking serotonin receptors leads to both a decrease in glutamate release and inc. DA release in cortex
• Less EPS and NMS
• many side effects because of off-target effects
• metabolized by CYP1A2, 3A4, 2D6
• induce/inhibit CYPs

Question 11

Neuroleptic Malignant Syndrome (NMS)

Answer 11

rare, but life threatening
occurs shortly after beginning typical drug
-Hyperthermia
-Mental Status Changes
-Rigidity
-Autonomic Instability
treatment: d/c neuroletpic use, life support, Bromocriptine, Dantrolene

Question 12

Mesolimbic Pathway

Answer 12

ventral tegmental area to NUCLEUS ACCUMBENS
-role- motivation, reward, emotional behaviors
hallucinations, delusions & thought disorder
-HYPERACTIVITY in pathway causes POSITIVE symptoms of schizophrenia

Question 13

Mesocortical Pathway

Answer 13

ventral tegmental area to CORTEX

• role- cognition, executive function, emotions
• HYPOACTIVITY leads to NEGATIVE symptoms of schizophrenia

Question 14

Nigrostriatal Pathway

Answer 14

substantia nigra to striatum

• role- motor planning and purposeful movement
• isn’t believed to be involved in schizophrenia, but antipsychotics can interfere with this pathway leading to movement disorder side effects

Question 15

Tuberoinfundibular Pathway

Answer 15

hypothalamus to pituitary gland

• role- inhibition of prolactin release
• normal in schizophrenia, but hypoactivity can lead to galactorrhea, amenorrhea, sexual dysfunction