Neuro Pharm

Question 1

Forebrain is involved in

Answer 1

Movement and sensory processing, thinking, planning, and problem solving

Question 2

Forebrain structures include

Answer 2

Cerebral cortex
Thalamus
Hypothalamus
Limbic System
Basal Ganglia

Question 3

Thalamus function

Answer 3

Relay states for information for coming into the brain

Question 4

Hypothalamus function

Answer 4

Stress and emotional responses
Hormonal responses and homeostasis
Temp and appetite

Question 5

Limbic system function

Answer 5

Amygdala - regulation of fear

Hippocampus - memory formation and regulation of stress responses, emotions, and overall mood

Question 6

Hippocampus - what is special about the memory component

Answer 6

important in covnerting short term memories into long term memory

Question 7

Basal Ganglia includes what

Answer 7

Striatum (caudate, putamen)
Globus Pallidus
Lentiform nucleus
Substantia nigra

Question 8

Basal ganglia function

Answer 8

Control of motor activities and movement

Regulation of reward and pleasure sensations

Question 9

Hindbrain includes what

Answer 9

Brainstem

Cerebellum

Question 10

Brainstem function

Answer 10

Pons and Medulla - control of respiration and CV function

Reticular formation - control of consciousness, arousal, alertness

Question 11

Cerebellum function

Answer 11

Planning and coordination of motor mvmnts

Balance and posture

Question 12

NTs - Ach - function

Answer 12

Voluntary mm mvmnts
Memory and learning
Attention
Control of sleep stages
Mostly excitatory fxn

Question 13

NTs - Monoamines

Answer 13

Dopamine
Norepinephrine
Serotonin

Question 14

NTs - Monoamines - Dopamine

Answer 14

Movement and hormonal responses

Psychiatric manifestations - altered mental states and/or mental illness

Question 15

NTs - Monoamines - Norepinephrine

Answer 15

Learning and memory, control of alertness vs. sleep

Fight or flight responses

Question 16

NTs - Monoamines - Serotonin

Answer 16

COntrol of emotional states and mood

Depression and anxiety

Question 17

Glutamate is

Answer 17

excitatory

Question 18

Excitotoxicity

Answer 18

Can damage CNS if get excitotoxicity from too much glutamate

Question 19

GABA is

Answer 19

inhibitory

Question 20

Drugs that increase GABA produce

Answer 20

relaxation
sedation
sleep
reduced anxiety
muscle relaxation

Question 21

Neuropeptides

Answer 21

Substance P - excitatory involved in spinal pain processing

Endogenous opioids - inhibit pain sensation

Question 22

BBB - function of

Answer 22

tight junction between endothelial cells on CNS capillaries

Question 23

BBB - selective filter

Answer 23

prevents many substances from entering the brain and spinal cord

Question 24

BBB - does not let what cross

Answer 24

Polar and lipophobic compounds

Question 25

BBB - what can cross

Answer 25

no charge

lipophilic

Question 26

Affective or Mood disorders are classified based on

Answer 26

whether patient experiences manic episodes or not

Question 27

Major Depressive Disorder or Unipolar Depression

Answer 27

No manic episodes

Tx with antidepressants

Question 28

Bipolar Disorder

Answer 28

Periods of depression with periods of mania

Tx with mood stabilizing drugs - LITHIUM

Question 29

Currently available tx for depression

Answer 29

Psychotherapy
Chemical antidepressants
ElectroConvulsive Therapy

Question 30

Chemical antidepressants - effectiveness

Answer 30

improve sx in 50-70% of patients with MDD

Question 31

Chemical antidepressants - two bad things

Answer 31

Delay of therapeutic effect - takes weeks or months

Side effects can limit usage

Question 32

Hypothesis of Depression (2)

Answer 32

Monoamine/Biogenic Amine Hypothesis

Neurotrophic Hypothesis

Question 33

Hypothesis of Depression - Monoamine/Biogenic Amine Hypothesis

Answer 33

Deficiency in the level of 5HT, NE, DA

All currently available antidepressants enhance the synaptic availability of monoamines

Question 34

Hypothesis of Depression - Neurotrophic Hypothesis

Answer 34

Loss of neurotrophic support (BDNF) and related signlaing play a role in cell survival and synaptic plasticity

Question 35

Major antidepressant drugs

Answer 35

TCAs
MAOIs
2nd generation antidepressants - SSRIs and SNRIs

Question 36

Antidepressant MOA (4)

Answer 36

Block degradation of monoamine oxidase
Block reuptake of 5HT and/or NE
Block presynaptic autoreceptors
Bind postsynaptic 5HT receptors

Question 37

Antidepressent side effects depend on

Answer 37

receptor affinity

Question 38

Examples of TCAs include

Answer 38

Imipramine
Desipramine
Amitriptyline

Question 39

TCAs - what line of treatment

Answer 39

now is 2nd or 3rd line because of sever side effects

Question 40

Adverse effect of TCA important for PTs

Answer 40

Orthostatic hypotension

Definitely don’t want an elderly individual on these

Question 41

MAOIs - examples

Answer 41

Phenelzine
Tranylcypromie
Selegiline

Question 42

Adverse effects with MAOIs

Answer 42

Tyramine rich foods - triggers release of catecholamines and thus VC - can lead to a hypertensive crisis that can be fatal

Question 43

SSRIs examples

Answer 43

Fluoxetine
Setraline
Citalopram
Escitalopram 
Paroxetine
Fluvoxamine

Question 44

Depression - concerns for the DPT

Answer 44

Sedation, mm weakness, ataxia will slow progress with tx

Orthostatic hypotension! More so with TCAs or MAOIs than SSRIs

Question 45

Seizure =

Answer 45

sudden, transient alteration of bx due to abnormally excessive, synchronous, and rhythmic firing of certain hyperexcitable neurons in the brain

Question 46

Underlying causes of a seizure

Answer 46

altered excitation thresholds of certain neurons
Congenital abnormalities
Head trauma
Genetic factors
Infections hypoglycemia, hypoxia

Question 47

Epileptic seizures are categorized according to

Answer 47

clinical and electrophysiological manifestations

Question 48

Treatment options for epilepsy

Answer 48

Antiepileptic meds

Surgery

Question 49

Partial Epileptic Seizures - types

Answer 49

Simple Partial
Complex Partial
Partial become generalized

Question 50

Partial Epileptic Seizures - types - Simple Partial

Answer 50

Person remains alert and can remember what happens, limited sensory or motor signs

Question 51

Partial Epileptic Seizures - types - Complex Partial

Answer 51

Usually start in small area of temporal or frontal lobe but quickly involve other areas that impact alertness

Question 52

Partial Epileptic Seizures - types - Partial becoming generalized

Answer 52

Partial seizures that spread throughout the brain

Question 53

Epileptic Seizures - Generalized

Answer 53

The whole brain is involved

Impaired consciousness and distorted electrical activity of a larger portion of the brain

Question 54

Epleptic Seizures - Generalized - Types

Answer 54

Absence (Petit Mal)

Tonic - Clonic (Grand Mal)

Question 55

Epleptic Seizures - Generalized - Absence (petit mal)

Answer 55

Sudden, bried loss of consciousness, ranges from no motor signs to symmetrical jerking movement of entire body

Question 56

Epileptic Seizures - Generalized - Tonic - Clonic (Grand mal)

Answer 56

Major convulsions of entire body, loss of consciousness

Question 57

Epileptic Seizures - Generalized - Tonic =

Answer 57

Loss of consciousness and mm tensing

Question 58

Epileptic Seizures - Generalized - Clonic =

Answer 58

mm contractions and relaxation, convulsions

Question 59

Epileptic Seizures - Generalized - Tonic - Clonic steps

Answer 59

Aura
Tonic
Clonic
Sleep

Question 60

Antiepileptic Drug Therapy - function by doing what

Answer 60

inc effects of GABA
Dec effects of glutamate
Alter neuronal activation by altering mvmnt of Na and Ca

Question 61

Examples of drugs used to treat epilepsy

Answer 61

Phenobarbital (acute tx)
Diazepam (acute tx)
Phenytoin (partial or gen)
Carbamazepine (partial or gen)
Ethosuximide (petit mal)
Valproic acid (petit mal)

Question 62

Epilepsy - concerns for DPT

Answer 62

Seizures must always be a concern

Dizziness, ataxia, sedation, rashes

Question 63

Neurodegenerative disorders - pathology includes

Answer 63

cellular aggregation of misfolded proteins

Question 64

Neurodegenerative disorders - pathologies

Answer 64

Parknsons Disease and Huntingtons
Alzheimers
ALS

Question 65

PD (3)

Answer 65

Usually begins in 50s or 60s
Progressive loss of DA containing neurons in BG
Total loss of motor function and mm control

Question 66

Cardinal s/s with PD

Answer 66

Bradykinesia
Muscular rigidity
Resting tremor
Postural instability

Question 67

Pathophysiology of PD

Answer 67

Degeneration/loss of dopaminergic neurons in substantia nigra that project to striatum
Accompanied by increased activity of cholinergic pathways in BG

Question 68

PD - Genetic factors

Answer 68

Alpha synuclein accumulation, formation of lewy bodies, increased production of free radicals`

Question 69

BG - role in motor control and PD pathophysiology

Answer 69

In PD, degneration of SN pars compacta leads to overactivity in the indirect pathway and inc glutaminergic activity by subthalamic nucleus
Reduced excitatory to cortex

Question 70

PD - treatment strategies

Answer 70

DA replacement
DA receptor agonists
L DOPA degradation inhibitors
Inc in DA release
Anticholinergic agents

Question 71

Examples of drugs for PD

Answer 71

Levodopa

Question 72

Side effects from Levodopa

Answer 72

Postural hypotension
Confusion
Dyskinesias
GI effects

Question 73

Problem with L DOPA

Answer 73

Benefits of treatment decline after 3 or 4 years of therapy with it - they become less responsive to it

Question 74

L DOPA is often given with what and why

Answer 74

Carbidopa - it inhibits the dopa decaroxylase in the periphery so that more can make it to the brain

Question 75

Dopamine replacement - adverse effects to L DOPA

Answer 75

Dyskinesias
Response fluctuations - wearing off rxns and end of dose failure, and on/off phenomenon
- drug holiday

Question 76

Concerns for the DPT - dopamine replacement

Answer 76

If possible time therapy with peak effects of drug
Be aware of orthostatic hypotension
Dizziness, syncope

Question 77

Two types of treatments for muscle spasms

Answer 77

Diazepam

Polysynaptic inhibitors

Question 78

Diazepam is a ___ - how does it work (muscle spasm)

Answer 78

Benzodiazepine

Potentiate the action of GABA and increase the frequency of chloride ion influx

Question 79

Diazepam works by

Answer 79

increasing the central inhibitory actions of GABA on alpha motor neurons

Question 80

Muscle spasms - examples of polysynaptic inhibitors

Answer 80

Carisoprodol
Cyclobenzaprine
Methocarbamol

Question 81

Polysynaptic inhibitors are agroup of drugs used to

Answer 81

enhance muscle relaxation and decrease muscle spasms

Question 82

Muscle spasticity treatment - examples of medications

Answer 82

Baclofen
Diazepam
Dantrolene
Gabapentin
Tizanidine
Botulinum Toxin

Question 83

Baclofen activates what

Answer 83

GABA b receptors

Question 84

Benzos activate what

Answer 84

GABA a

Question 85

Concerns for the DPT with muscle spasticity or spasms

Answer 85

Sedation and mm weakness

Schedule PT when sedative effects are minimal