Dr.Watts Antipsychotics

Question 1

General considerations of schizophrenia

Answer 1

Most debilitating of psychotic disorders
onset age 15-20 years old
not split personality

Question 2

Etiology of schizophrenia

Answer 2

Genetics - neuronal growth, migration of neurons

Environmental - birth complications, infection

Gene- environment interaction - COMT-marijuana

Neurodevelopment - environment interaction

Question 3

Positive symptoms of schizophrenia

Answer 3

Hallucination, delusion, bizarre behaviors, thoughts disordered (rambling about different things and topics back to back)

Question 4

Negative symptoms of schizophrenia

Answer 4

Not taking care of yourself, blunted emotions, social withdrawal, poverty in speech (not a lower IQ but cannot put their thoughts together)

Question 5

Cognitive symptoms of schizophrenia

Answer 5

Decrease in cognitive function involves -D1 receptors and glutamate receptors

Question 6

Neurotranmitters Hypotheses

Answer 6

Dopamine - FIrst to be developed, but incomplete

Serotonin - based on mechanism of LSD and mescaline

Glutamate - Based on phencyclidine and ketamine

Question 7

Serotonin hypothesis of schizophrenia

Answer 7

It was found that LSD and mescaline were identified as 5HT receptor agonists which inspired more studies of hallunigenics
Pharmacology found that 5HT receptors are mediators of hallucinations
antagonism and inverse agonism linked to antipsychotic activity
5HT2a receptors modulate dopamine release in cortex, limbic region and striatum
5HT2a receptors modulate glutamate release and NMDA receptors
5HT2c agonists may be beneficial in schizophrenia

Question 8

Glutamate hypothesis of Schizophrenia

Answer 8

Glutamate is major excitatory neurotransmitter
phencyclidine and ketamine, noncompetitive inhibitors of NMDA receptors exacerbate psychosis and cognition deficit

Question 9

Dopamine hypothesis of schizophrenia

Answer 9

1. D2 receptor antagonists - binding and therapeutics; strong correlation receptor binding affinity vs clinical effectiveness
2. Dopaminergic agents exacerbate symptoms of schizophrenia
3. Increase D2 receptor density in treated and untreated patients of schizophrenia
4. imaging studies - increased DA release and receptor occupancy in patients
   D2 receptor antagonists initially increase metabolites in the CNS later decrease metabolites in CNS

Question 10

Determining binding affinity

Answer 10

This is the intermolecular force between ligan and receptor
Kd/Ki: estimated concentration at which 1/2 of the receptors are occupied (lower value means more affinity
Saturation binding experiments and competition binding experiments

Question 11

Binding affinity vs Clinical dose (D1,D2)

Answer 11

the study shows that for D1 receptor there is no correlation between binding affinity and clinical dose

For D2 receptors there was a perfect correlation between binding affinity and clinical dose which suggests the ability of antipsychotic drugs to bind to the d2 receptor is predictive based off its concentration dose

Question 12

Actions of D2 antagonists in the CNS

Answer 12

Basal ganglia: by blocking dopamine here we see parkinsons like symptoms like shaking

Mesolimbic: where we want to target for schizophrenia

Mesocortical: if we block dopamine here we might enhance the cognitive deficit seen in schizophrenia because action here is already low in these patients

Hypothalamus and endocrine systems: D2 receptor blockade in endocrine system

Medulla: D2 antagonists here will work at the chemoreceptor trigger zone and block the feeling of nausea and vomiting

Question 13

Extrapyramidal symptoms

Answer 13

Extrapyramidal symptoms
- occurs early, days/weeks, reversible
symptoms: dytonia, pseudoparkinsonism, tremor, akathisia

Drug therapy for EPS: Benzotropine, trihexyphenidyl, Diphenhydramine, amantadine

Question 14

when drug-induced movements disorders occur, what target is responsible, which drugs
are likely to cause them, and how or if the movement disorders can be treated.

Answer 14

target responsible would be dopamine in basal ganglia
treatment includes : amantadine, diphenhydramine, trihexyphenidyl, and benzotropine

Question 15

Tardive Dyskinesia

Answer 15

movement disorder caused by anticholenergics
occurs late, months to a year, irreversible
symptoms: mouth, irregular purposelessness, axial hyperkinesia, athetoid

Not super clear how this disorder happens but some studies say that its due to increased senzitivity of dopamine receptors. Being blocked constantly and cell overcompensates for that loss and the receptors become sensitive.

Treatment: prevention (use least risky agent at the lowest dose possible (change to newer drug or eliminate anticholinergic or VMAT inhibitor) and monitor (abnormal involuntary movement scale) check rating every 6 months

Question 16

VMAT inhibitors for Tradive dyskinesia

Answer 16

Tetrabenazine for huningtons chorea
Valbenazine for TD
Deutetrabenazine (austedo) for TD and huningtons chorea

Question 17

Neuroleptic malignant syndrome (NMS)

Answer 17

Serious and rapid; 10% fatality
symptoms: EPS symptoms with fever, impaired cognition, muscle rigidity

Treatment: restore dopamine balance
- d/c drug
- DA agonists, diazepam, dantrolene

Question 18

Miscellaneous uses

Answer 18

Tetrabenazine for Huntington’s Chorea

Chlorpromazine for intractable hiccups

Haloperidol for alcohol withdrawal

Metoclopramide and promethazine for mausea and vomiting

droperidol for potentiation of poiates and sedatives

Question 19

Pharmalogical effects of antipsychotic drugs

Answer 19

Behavioral effects: unpleasant in normal subjects or reversal of signs and symptoms of psychosis in affected individuals

Neuroleptic syndrome: suppress emotions, reduce initiative and interest, affect; may resemble negative symptoms

block conditioned avoidance responses in animal studies

Decreased spontaneous activity, aggressive, and impulsive behavior

Question 20

Autonomic adverse effects

Answer 20

Loss of accommodation, dry mouth, difficulty urinating, constipation due to the muscarinic cholinoceptor blockade

Orthostatic hypotension, impotence:failure to ejaculate due to blockage of the alpha adrenoceptor blockade

Question 21

Central nervous system adverse effects

Answer 21

Parkinsons syndrome, akathasia, dystonias due to dopamine receptor blocakde

Tradive dyskinesia due to supersensitivity of dopamine receptors

Toxic confusional state due to muscarinic blockade

Sedation due to histamine receptor blockade

Question 22

Endocrine system adverse effects

Answer 22

Amenorrhea- galactorrhea, infertility impotence due to dopamine receptor blockade resulting in hyperprolactinemia

Question 23

Other adverse effects

Answer 23

Weight gain due to blockade of Histamine and seretonin (H1 and 5-HT2c)

Question 24

Precautions and contraindications

Answer 24

Cardiovascular, parkinson’s disease, epilepsy, diabetes

Question 25

Aliphatic phenothiazines

Answer 25

chlorpromazine - no longer first line therapy
promezine
triflupromazine

Question 26

Aliphatic phenothiazines used for H1 antagonist properties

Answer 26

Promethazine
trimeprazine

Question 27

Piperidine phenothiazines

Answer 27

Mesoridazine
Thioridazine - sedation, hypotention; antichilinergic, many SE

Question 28

Piperazine Phenothiazines prt 2

Answer 28

Fluphenazine - strong D2 blocker
Prochlorperazine - antiemetic - help with n/v
trifluoperazine - EPS
Perphenazine - studies showed this in combo with an anticholinergic was just as affective as never agents but much cheaper

Question 29

Thioxanthines

Answer 29

• thiothixene - modest EPS
• chlorprothixene

Question 30

Butyrophenones

Answer 30

• Haloperidol - EPS
• Droperidol - highly sedative, anxiolytic

Question 31

Miscellaneous antipsychotics

Answer 31

Molindone (moban)
- moderate EPS
- zyprexa or pisperidal vs moban + benztropine
- weight gain, metabolic problems in newer agents

Pimozide (orap)
- tourette’s diseases-tics, vocalizations

Question 32

atypical antipsychotics - Clozapine

Answer 32

also known as clozaril
1 atypical antipsychotic and very effective
Significant side effect is agranulocytosis
SE: anticholinergic, antihistamine

Question 33

atypical antipsychotics - Olanzapine

Answer 33

also known as Zyprexa
weight gain, less likely to cause n/v, less likely to cause movement disorders, risk of diabetes

Question 34

atypical antipsychotics - Loxapine

Answer 34

also known as loxitane
older agent
metabolite = amoxipine

Question 35

atypical antipsychotics - quetiapine

Answer 35

also know Seroquel
metabolite with antidepressant activity
5HT2a and D2 (low antimuscarinic)
Low EPS
Hypotension
Sedation
Risk of diabetes

Question 36

atypical antipsychotics - Risperidone

Answer 36

also called risperidol
designed to be both a 5HT2a and D2 receptor antagonist
weight gain and some sedation

Question 37

atypical antipsychotics - Paliperidone

Answer 37

also called Invega

Question 38

atypical antipsychotics - Iloperidone

Answer 38

also called fanapt
ver potent at alpha 1 receptors