Drugs Affecting the Nervous System

Question 1

What is the cortex the location of? (7)

Answer 1

thought, memory, self-awareness, personality, speech, perception of sensation, control of body movement

Question 2

What is the function of the midbrain?

Answer 2

relax station for cortex, integrates/modulates autonomic functions

Question 3

What is the function of the brainstem (medulla)?

Answer 3

control area for breathing and cardiovascular control, alertness

Question 4

What is the function of the cerebellum?

Answer 4

fine motor control, coordinates movement

Question 5

Each neuron usually releases how many neurotransmitters?

Answer 5

one

Question 6

T or F: most neurotransmitters are returned to the pre-synaptic nerve terminal and are recycled?

Answer 6

T

Question 7

How do CNS drugs act?

Answer 7

increase or decrease individual neuronal activity and exert effects by interaction with neurotransmission

Question 8

What do CNS drugs affect?

Answer 8

NT release, metabolism, and re-uptake

Question 9

What do the clinical effects of CNS drugs depend on?

Answer 9

localization of neurotransmitters in specific brain areas

Question 10

List some factors that will impact effect of CNS drugs. (6)

Answer 10

amount released, availability of transport proteins, previous release of NT, degradation of NT in synaptic space, efficiency of re-uptake process, activities of modulating interneurons

Question 11

What are the 3 major neurotransmitters involved in antidepressant medication?

Answer 11

serotonin, dopamine, norepinephrine

Question 12

How do antidepressants act?

Answer 12

inhibitors slow the process by which neurotransmitters are reused, resulting in an increased amount of neurotransmitter that are available to stimulate neurons

Question 13

What are first-line treatment antidepressants? Second? Third?

Answer 13

SSRIs or SRIs: e.g. Celexa, Prozac
SNRIs: e.g. Effexor, Cymbalta
Dopamine re-uptake inhibitors: e.g.Wellbutrin, Zyban

Question 14

Describe and provide an example for TCAs.

Answer 14

effect on norepinephrine and serotonin, added effect of influencing histamine and acetylcholine
e.g. Remeron

Question 15

Describe and provide an example(s) for MAOIs.

Answer 15

removes norepinephrine, serotonin and dopamine from the brain
e.g. Nardil, Parnate

Question 16

Lithium:

function? action? side effects?

Answer 16

mood stabilizer
monovalent cation that can replace Na in some biological cells
tremors, cognitive slowing, hypothyroid, renal insufficiency, leukocytosis, polyuria, polydipsia, coma
*narrow therapeutic window

Question 17

Anticonvulsants:

function? +/- sedation? ex.?

Answer 17

mood stabilizer
may cause sedation
Valproic acid, Carbamazepine

Question 18

What do antipsychotics target? AKA? What is the therapeutic goal? ex.?

Answer 18

limbic system and “calming effect”
major tranquillizers
increase dopamine levels in the brain
Olanzapine, Risperidon

Question 19

What type of drug is used for Alzheimer Dementia? How do these act? Side effects? ex.?

Answer 19

cholinesterase inhibitors
increased acetylcholine levels in the brain in an attempt to increase cognitive function
GI side effects
Donenzepil, Galantamine, Thorazine, Haldol

Question 20

How do anxiolytics function?

Answer 20

inhibition of the neuron through hyperpolarization: GABA increased chloride conductance, more chloride is able to move into the cell and create a state of hyperpolarization

Question 21

Benzodiazepines:

function? uses? action? effects? antagonist?

Answer 21

anxiolytic
anesthesia induction
hyperpolarize neurons
amnestic, promote sleep, terminate seizures, augment respiratory depression
flumazenil

Question 22

Barbiturates:

function? uses? risks?

Answer 22

anxiolytic
anesthesia induction (thiopental), hypnotics (pentobarbital), and seizures (phenobarbital)
rapid tolerance, toxic potential, high risk of addiction/abuse

Question 23

What type of CNS drug is ethyl alcohol? What is the dose that results in respiratory arrest?

Answer 23

nonprescription sedative-hypnotic

400-600 mg/dL

Question 24

Describe delirium tremens (DTs).

Answer 24

withdrawal effect of CNS hyperactivity (hyperthermia, increased BP, hallucinations, seizures, etc.)

Question 25

What do analeptic drugs do? What can this be used to treat? ex.?

Answer 25

increase activity of the brain
narcolepsy, ADHD, obesity, depression, AOP
caffeine, aminophylline, doxapram

Question 26

T or F: analeptic drugs have a clinical role in treating respiratory failure or drug induced respiratory depression?

Answer 26

F

Question 27

NSAIDS:

function? action? ex.?

Answer 27

analgesic
affect hypothalamus and inhibit production of inflammatory mediators at the pain site
salicylates (aspirin) - antipyretic, analgesic, antiplatelet, increased incidence of Reye’s in children

Question 28

Acetaminophen (Tylenol) is an example of what? Effects?

Answer 28

nonnarcotic analgesic

effective on mild/moderate pain, may cause lethal hepatic necrosis, OD can be treated with N-acetylcysteine

Question 29

List and describe 2 naturally occurring opioids.

Answer 29

enkephalins - morphine like neurotransmitter found in the brain and adrenal glands
endorphins - morphine like neurotransmitter found in the brain and pituitary gland

Question 30

Describe exogenous opioids.

Answer 30

euphoric effect, high doses may cause LOC and respiratory arrest, strong ones are called narcotics

Question 31

List some examples of exogenous opioid analgesics.

Answer 31

morphine, codeine, fentanyl, heroin, hydrocodone, hydromorphone, oxycodone, tramadol

Question 32

List some side effects of opioid analgesics.

Answer 32

respiratory depression, constipation, nausea, vomiting, antitussive

Question 33

T or F: opioid analgesics activate only 1 opioid receptor?

Answer 33

F

Question 34

What are the 3 opioid receptors?

Answer 34

mu, kappa, delta

Question 35

Opioid analgesics bind selectively to receptor sites found where?

Answer 35

CNS and GI tract

Question 36

What types of effects do opioid analgesics produce?

Answer 36

inhibitory

Question 37

Describe opioid analgesic drugs.

Answer 37

lipid soluble, weak bases, highly protein bound

Question 38

What is the antagonist to opioid analgesics? Action?

Answer 38

Narcan

occupies opioid receptors and prevent agonist binding

Question 39

List and describe the different routes of opioid administration.

Answer 39

injection
PCA pumps - keeps control
inhalation - decreases dyspnea, alternative when IV unavailable

Question 40

Describe combination of analgesic classes.

Answer 40

widely available, separate dosing may prove better with various side effects, toxicities, and half-lives

Question 41

List some side effects that accompany central sensitization in chronic pain syndromes.

Answer 41

hyperesthesia, hyperpathia, allodynia

Question 42

What may reduce likelihood of neuropathic problems in chronic pain syndromes?

Answer 42

treatment during acute phase

Question 43

List some characteristics of neuropathic pain.

Answer 43

evidence of primary injury, pain involving body area with sensory loss, pain characterized as burning, electric, or shooting, dysesthesias in the area, sympathetic hyperactivity, hyperalgesia, hyperpathia, allodynia

Question 44

PNS:

how many synapses? afferent vs efferent? branches from autonomic neurons?

Answer 44

1
afferent - from skin/muscles/organs to CNS
efferent - from CNS to muscles
sympathetic and parasympathetic

Question 45

T or F: autonomic system is generally considered an efferent system?

Answer 45

T there are afferent fibres running back to CNS providing feedback about body functions

Question 46

Where are highly regulated complex function controlled? Where are unrefined, quick reflexes controlled?

Answer 46

brain

spinal cord

Question 47

How is neural singling both electrical and chemical?

Answer 47

electrical AP signal carried along nerve fibres
at axon terminal, electrical signal causes release of vesicles containing neurotransmitter
chemical signal at synapse

Question 48

What are the 2 key neurotransmitters involved in neural signalling?

Answer 48

AcH and NE

Question 49

Define neuroeffector site.

Answer 49

location where nerve interacts with effector organ, gland, or muscle

Question 50

What is the neurotransmitter associated with the pre and postganglionic fibres in efferent parasympathetic pathways?

Answer 50

ACh

Question 51

What are the neurotransmitters associated with the pre an postganglionic fibres and adrenal medulla in efferent sympathetic pathways?

Answer 51

pre - ACh
post - NE, ACh
medulla - epi

Question 52

Where do parasympathetic fibres arise from? Which fibre is short vs long? How do these fibres lie in relation to effector organs?

Answer 52

cranial nerves and sacral portions of spinal cord
pre is long, post is short
lie near or on effector organ

Question 53

Where do sympathetic fibres arise from? Which. fibre is long vs short? How do these fibres lie in relation to the vertebral column?

Answer 53

thoracic/lumbar regions of spinal cord
pre is short, post is long
lie adjacent to vertebral column

Question 54

How do ANS drugs work?

Answer 54

mimic or block effect of NT at effector site

Question 55

What type of effect do parasympathetic neurons provide vs. sympathetic neurons?

Answer 55

para - discrete

sympathetic - broad

Question 56

Describe cholinergic.

Answer 56

refers to a drug or endogenous molecule (NT) that stimulates ACh receptors

Question 57

Describe adrenergic.

Answer 57

refers to a drug or endogenous molecule (NT) that stimulates NE receptors

Question 58

Describe the suffix mimetic vs. lytic

Answer 58

mimetic (‘mimic’) - up regulation

lytic (‘destruction of’) - down regulation

Question 59

Parasympathomimetic = ?
Parasympatholytic = ?
Sympathomimetic = ?
Sympatholytic = ?

Answer 59

parasympathomimetic = cholinergic
parasympatholytic = anti-cholinergic
sympathomimetic = adrenergic
sympatholytic = anti-adrenergic

Question 60

Describe parasympathetic effects.

Answer 60

decreased HR/BP/RR, bronchoconstriction, increased secretions, mitosis, increased salivation, increased motility, relaxation of sphincters, increased insulin secretion/energy storage

Question 61

Where are nicotinic receptors found? What are they?

Answer 61

between pre/post ganglia in both para/sympathetic nervous systems and NMJ
ligand-gated ion channels

Question 62

What is ACh inactivated by?

Answer 62

cholinesterase

Question 63

What types of receptors do parasympathetic NT act on?

Answer 63

cholinergic (pre/post), nicotinic, muscarinic (2,3 )

Question 64

Describe the 3 subtypes of muscarinic receptors that are innervated by the parasympathetic NS. Where else can M receptors be found?

Answer 64

M1 - nasal mucosa
M2 - heart
M3 - a/w smooth muscle

blood vessels

Question 65

Describe the different acting cholinergic agents.

Answer 65

direct - mimic ACh, methacholine (diagnostic for asthma)

indirect - inhibit cholinesterase enzyme, neostigmine (reversal of non depolarizing muscle relaxants)

cholinesterase reactivate - pralidoxime (tx of organophosphate toxicity)

Question 66

What is the action of anticholinergic agents? Provide and describe an example.

Answer 66

block ACh receptors

atropine - parasympatholytic agent, competitive antagonist

Question 67

Describe parasympatholytic (antimuscarinic) effects of atropine.

Answer 67

bronchodilator, prep drying of secretions, antidiarrheal agent, prevention of bed-wetting in children, tx of peptic ulcers/organophosphate poisoning/mushroom ingestions/bradycardia

Question 68

Describe sympathetic effects.

Answer 68

increased HR/force of contraction/BP/RR, bronchodilation, mydriasis, vasodilation, decreased motility, increased lipolysis and decreased insulin production

Question 69

What is the adrenergic NT function in SNS? Describe the terminating action of NE.

Answer 69

sympathetic effects at neuroeffector site and systemic effects through action of epi

reuptake process: COMT, MAO (inactivate catecholamines)

Question 70

Describe the receptors types that are acted upon by the SNS.

Answer 70

a1 (peripheral blood vessels), a2 (auto receptors, CNS), B1 (increased HR/force), B2 (bronchial smooth muscle, cardiac muscle), dopaminergic (similar to epi)

Question 71

Describe sympathomimetic agents. Provide examples.

Answer 71

stimulate the sympathetic system and produce adrenergic effects
e.g. epi, dextroamphetamine, dopamine, salbutamol

Question 72

Describe and provide an example for sympatholytic agents.

Answer 72

block adrenergic effects

e.g. propanolol

Question 73

List all the things involved in neural control of lung function.

Answer 73

a/w smooth muscle/tone, submucosal and surface secretory cells, bronchial epithelium, pulmonary and bronchial blood vessels

Question 74

Describe direct vs indirect effects in relation to sympathetic innervation.

Answer 74

direct - innervation of nerve fibres

indirect - catecholamine release

Question 75

List and describe the receptors involved in sympathetic innervation of the a/w smooth muscle.

Answer 75

b2 - mediate relaxation

a - less abundant, minor effect (possible bronchoconstriction)

Question 76

Describe nonadrenergic, noncholinergic excitatory nerves (NANC).

Answer 76

neither parasympathetic nor sympathetic, causes contraction of smooth a/w muscle

Question 77

Describe nonadrenergic, noncholinergic inhibitory nerves (NANC).

Answer 77

neither parasympathetic nor sympathetic, causes relaxation of a/w smooth muscle

Question 78

Which fibre system has been considered as a possible cause of a/w hyperactivity observed in asthmatics?

Answer 78

NANC excitatory C-fibre