Psychopharmacology for psychiatry Flashcards

1
Q

targets for psychiatric medicines

A

receptors
neurotransmitter reuptake sites
ion channels
enzymes

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2
Q

how are psychiatric drugs classified?

A

based on chemical structure
based on illnesses they treat
based on pharmacology

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3
Q

pros/cons of grouping drugs based on chemical structure?

A

WHO classification system
pro - each frug has unique structure so easy to allocate data
con - no use in clinical decision making

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4
Q

pros/cons of grouping drugs based on illnesses they treat?

A

pro - easy for Dr to choose drug as they make diagnosis
cons - many medicines work for several disorders, many psychiatric disorders have multiple symptoms, one drug may not treat them all
multiple symptoms may be based on different neurotransmitter systems

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5
Q

how isgrouping drugs based on pharmacology done?

A

neuroscience based nomenclature, targets neurotransmitters

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6
Q

what is the only NT not taken back up by cell

A

Ach acetylcholine

acetylcholinesterase breaks it down

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7
Q

what is a neuron auto-receptor?

A
usually inhibitory, activated by neurotransmitter it releases
inhibits calcium influx
switches off firing of terminal
reduces neurotransmitter release
(autoregulating neuron firing)
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8
Q

what is the most common form of psychiatric drug? give an example

A

blocking enzyme activity
MOAIs for anxiety/depression block breakdown of serotonin and NA
acetylcholinesterase inhibitors for dementia
lithium blocking glycogen synthase kinase for mood stability

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9
Q

give examples of receptor targeting psychiatric medicines

A

dopamine receptor blockers - schizophrenia
serotonin receptor subtype antagonists - depression
histamine receptor antagonists - sleep/insomnia
benzodiazapines - enhance GABA for sleep
guanfacine - enhance NA for ADHD

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10
Q

how do reuptake targeting medicines produce effect?

A

most neurotransmitters are recycled via reuptake sites
drug blocks reuptake site
increases neurotransmitter concentration in synapse
enhances post-synaptic receptor activity
e.g citalopram SSRI

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11
Q

reuptake targeting drugs examples

A

citalopram SSRI
desipramine - NA reuptake inhibitor (depression)
methylphenidate - dopamine reuptake inhibitor (ADHD)
amfetamine - ADHD swithces reuptake site direction to enhance release

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12
Q

key neurotransmitter system in psychiatry and its receptors

A

5-HT
post synaptic 5-HT1A inhibitory, reduces downstream firing
5HT2A implicated in psychadelic drugs

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13
Q

ion channel targeting psychiatric medicines examples (and channels targeted)

A

Na channels sodium valproate and carbamazepine - epilepsy and mood stabiliser
Ca channels - gabapentin, pregabalin - epilepsy and anxiety

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14
Q

how are neurotransmitters categorised?

A

fast acting - on/off switches (effects on content e.g memory, movements)
slow acting - modulation - not on/off as too slow (effects on emotions/drives)

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15
Q

examples of fast acting neurotransmitters

A

excitatory - glutamate from pyramidal cells

inhibitory - GABA from inter-neurons

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16
Q

examples of slow acting neurotransmitters

A
only 5% of neurons
dopamine
serotonin
acetylcholine
noradrenaline
endorphins
17
Q

drug classes that treat depression

A
MAOIs
TCAs
SSRIs
SNRIs
receptor antagonists
18
Q

impact of excess glutamate in psychiatric disorders and its treatment

A

epilepsy - perampanel

alcoholism - acamprosate, ketamine

19
Q

impact of GABA deficiency in psychiatric disorders and its treatment

A

anxiety

treated by benzodiazapines (gaba enhancers)

20
Q

impact of 5-HT deficiency in psychiatric disorders

A

depression and anxiety

MAOIs and SRIs

21
Q

role of excess dopamine in psychiatric conditions and their management

A

psychosis

dopamine receptor blockers

22
Q

role of excess noradrenaline in psychiatric disorders and management?

A

nightmares

prazosin - blocker

23
Q

role of acetylcholine deficiency in psychiatric disorders and management?

A

impaired memory/dementia

acetylcholinesterase enzyme blockers

24
Q

what is a partial agonist?

A

lower max efficacy than full agonists
has improved safety - overdoses
can act as antagonist in states of high neurotransmitter
some intrinsic agonist to allow normal function

25
Q

examples of partial agonists?

A

aripiprazole
buprenorphine
varenicline

26
Q

what is an inverse agonist?

A

opposite effects to agonists

role of GABA in dementias and histamine in ADHD

27
Q

what is meant by GABA subtypes?

A

neurotransmitter has 14 subtypes
receptor made of 5 different proteins
different locations for different receptor subtypes meaning they have different functions

28
Q

comparison of dopamine blocker drug selectivity

A

haloperidol - very selective, adverse effects due to dopamine receptor block
clozapine - non selective, many adverse effects due to off targets (sedation, weight gain)

29
Q

what is allosteric modulation?

A

drug acts on different sites of same protein complex e.g benzodiazapines and alcohol (GABA)

30
Q

what is orthosteric binding?

A

drug binds to same site as endogenous neurotransmitter

31
Q

comparison of serotonin reuptake blocker drug selectivity?

A

amitriptyline - TCA, less selective. also inhibits histamine and acetylcholine receptor
citalopram - SSRI, adverse effects driven solely by inc serotonin