ANS II

Question 1

parasympathetic effects can be mimicked by..

Answer 1

• muscarinic receptor agonists (carbachol, pilocarpine)

- acetylcholinesterase inhibitors (neostigmine)

Question 2

parasympathetic effects can be blocked by..

Answer 2

• muscarinic receptor antagonists (atropine)

- skeletal neuromuscular junction blockers (D-tubocurarine)

Question 3

parasympathomimetics

Answer 3

stimulates parasympathetic nervous system

Question 4

therapeutic uses of parasympathomimetics

Answer 4

• reduce intraocular pressure in glaucoma; facilitate outlflow of aqueous (can cause cataracts with long term use)
• increase peristalsis of GI tract
• increase motility of urinary tracts
• increase salivary secretions

Question 5

ACh released at the synapse acts for a few milliseconds before..

Answer 5

it is metabolized in the synapse

Question 6

acetylcholinesterase (AChE)

Answer 6

metabolize ACh in the synaptic cleft on the outer membrane of the post junctional cell

Question 7

two types of cholinesterase enzymes

Answer 7

• AChE

- butyrylcholinerterase (BuChE; aka plasma/pseudoChE)

Question 8

BuChE

Answer 8

-located at non-neuronal sites; plasma and liver

Question 9

Most enzyme inhibitors used clinically … discriminate between the two types of ChE

Answer 9

DO NOT

Question 10

AChE inhibitors

Answer 10

increase duration of action of the released ACh at the synapse

Question 11

3 types of chemical reaction that is produced by cholinesterase

Answer 11

• acetylation
• carbamylation
• phosphorylation

Question 12

acetylation

Answer 12

introduce an acetyl group

-acetylated enzyme recovers rapidly

Question 13

carbamylation

Answer 13

enzyme recovers more slowly, 3-4 hours

• reversible
• used therapeutically

Question 14

phosphorylation

Answer 14

• poisons the enzyme
• irreversible
• 6 hours

Question 15

catalytic region of cholinesterase enzyme

Answer 15

ser-OH

Question 16

neostigmine

Answer 16

a reversible AChE inhibitor that causes carbamylation

Question 17

diisopropyl flurophosphate

Answer 17

an irreversible AChE inhibitor that causes phorphorylation

Question 18

2-PAM

Answer 18

an oxide that if administered before aging occurs, can bind to and release a phosphate moiety attached to the enzyme during phosphorylation; reversing the enzyme inhibition

Question 19

donepezil and tacrine (also rivastigmine and galantamine)

Answer 19

ChE inhibitors in the CNS that have higher affinity and partition into lipids and cross the blood/brain barrier

Question 20

ChE inhibitors in the intestine

Answer 20

relax sphincters to facilitate peristaltic movement (in postoperative ileum, congenital megacolon)

Question 21

ChE inhibitors in the bladder

Answer 21

treat urinary retention due to atony of smooth muscle

Question 22

ChE inhibitors in the skeletal muscle neuromuscular junction

Answer 22

LOW doses used to treat patients with myasthenia gravis, who have weakness of skeletal muscles
-also used to diagnose it

Question 23

intermediate doses and high doses ChE inhibitors in skeletal muscle neuromuscular junction

Answer 23

i: fasciculations and fibrillations
h: persistent depolarization and muscle paralysis

Question 24

anti-ChE agents

Answer 24

reverse antagonisms by competitive neuromuscular blockers but add to the depolarization and paralysis by succinylcholine and make it worse

Question 25

muscarinic receptor agonists/ChE inhibitor SIDE EFFECTS

Answer 25

increased urinary frequency, diarrhea, vomiting, bradycardia, hypotension, increased salivation, miosis,

Question 26

botulinum toxin

Answer 26

• blocks ACh release

- used to paralyze skeletal muscles

Question 27

clinical uses of botox

Answer 27

• strabismus (unaligned lines of vision),
• blepharospasm (contracted eyelid)
• hemifacial spasm

Question 28

cosmetic use of botox

Answer 28

to remove facial wrinkles

Question 29

muscarinic cholinergic receptor blockers

Answer 29

• belladonna alkaloids (atropine, scopolamine)

- semisynthetic and synthetic (dicyclomine, ipratropium, oxybutynin)

Question 30

therapeutic uses of muscarinic receptor antagonists

Answer 30

• to treat severe bradycardia
• cause pupil dilation (used for examination of retina)
• to treat excessive peristalsis of irritable bowel syndrome
• decrease gastric acid secretion
• to treat urinary incontinence
• block M1 receptors in vestibular apparatus to treat motion sickness
• inhibit excessive salivary and respiratory tract secretions

Question 31

ipratropium and tiotropium

Answer 31

derivatives of atropine that treat COPD

• administered by inhalation to cause bronchodilation
• NOT absorbed into systemic circulation

Question 32

trihexyphenidyl and benztropine

Answer 32

to treat uncoordinated muscle contraction (Parkinson’s)

Question 33

scopolamine vs atropine

Answer 33

• scopolamine well absorbed orally and reaches brain more readily than atropine
• scopolamine 1-x more potent at producing CNS effect
• great fraction of scopolamine present in a unionized form to facilitate absorption through skin
• scopolamine used for motion sickness as a transdermal patch

Question 34

muscarinic receptor antagonists SIDE EFFECTS

Answer 34

• urinary retention
• constipation
• tachycardia
• dry mouth
• mydriasis

Question 35

nicotinic cholinergic receptor

Answer 35

• ACh gated sodium channel

- neuromuscular junction blockers

Question 36

two types of neuromuscular junction blockers

Answer 36

• competitive

- depolarizing

Question 37

type of neuromuscular junction blockers based on…

Answer 37

electrophysiological differences in their mechanisms of action

Question 38

competitive NM junction blockers

Answer 38

• competitively antagonize the actions of ACh at nicotinic ACh receptors structure different that ACh
• ex. curare

Question 39

depolarizing agents

Answer 39

• drug occupies and activates nicotinic receptor (agonists) for longer period of time, prevents repolarization
• structure resembles ACh
• succinylcholine

Question 40

depolarizing block

Answer 40

when depolarizing agents makes muscle fibre refractory to further nerve impulses

Question 41

South Americans and competitive NM blockers

Answer 41

native SAmericans used certain plant extracts (d-tubocurarine;strychnos toxifera) as arrow poison that caused muscle paralysis in animals
-curare (generic term)

Question 42

neostigmine, edrophonium, pyridostigmine

Answer 42

ChE inhibitors that are used clinically to reverse NM block caused by competitive blockers

Question 43

competitive nm blockers sequence of muscle paralysis

Answer 43

• small rapidly moving muscles first
• limbs, trunk
• intercostal muscles
• diaphragm (respiration stops)

*recovery in reverse

Question 44

competitive nm blockers main side effects

Answer 44

• ganglionic blockade (fall in bp, tachycardia)
• block of vagal response (increase peristalsis)
• histamine release (bronchospasm, hypotension, increase bronchial and salivary secretions

Question 45

succinylcholine

Answer 45

• bind to and activates muscle nicotinic receptors
• short duration of action
• not metabolized by AChE
• rapidly hydrolyzed primarily by butyrylcholinesterase in plasma

Question 46

clinical problem with succinylcholine

Answer 46

certain patients exhibit several variants of this enzyme, which leads to prolonged and potentially dangerous duration of NM block

Question 47

depolarizing blockers SIDE EFFECTS

Answer 47

• can release K+ rapidly from intracellular sites

- cause hyperkalemia

Question 48

hyperkalemiacan be dangerous in..

Answer 48

heart failure patients on digoxin or diuretics

Question 49

malignant hyperthermia

Answer 49

• side effect seen after certain anesthetics and nm blockers (succinylcholine)
• increase Ca release from SR
• rigidity, heat production from skeletal muscle, hyperthermia, accelerated muscle metabolism, metabolic acidosis, tachycardia

Question 50

therapeutic uses of NM blockers

Answer 50

in surgical anesthesia to obtain relaxation of skeletal muscle, particularly in abdominal wall

Question 51

sympathetic effects can be mimicked by..

Answer 51

• adrenergic receptor agonists (direct)
• NE uptake blockers (indirect)
• monoamine oxidase and COMT inhibitors
• NE releasing agents (indirect)

Question 52

monoamine oxidase and COMT inhibitors

Answer 52

delay breakdown of NE and prolong its action

-indirect

Question 53

sympathetic effects can be blocked by..

Answer 53

adrenergic receptor antagonists

-ex. prazosin, propranolol

Question 54

termination of NE action at synapse

Answer 54

-released transmitter is taken up back into presynaptic nerve terminal by uptake 1

Question 55

uptake 1 blocker

Answer 55

increase sympathetic activity

Question 56

baroreceptor

Answer 56

control of BP and heart rate

Question 57

epinephrine equipotent at..

Answer 57

alpha and beta receptors

Question 58

NE has little activity at..

Answer 58

beta 2 receptors

Question 59

isoproterenol

Answer 59

most potent sympathomimetic amine; acts exclusively on B receptors

Question 60

therapeutic uses of adrenergic drugs

Answer 60

• allergic reactions/anaphylactic shock (EPIPEN)
• bronchodilators (asthma)
• pressor agents (hypotension)

Question 61

therapeutic uses of adrenergic receptor blockers

Answer 61

• hypertension
• emergency treatment of hypertension
• hypertension in pheochromocytoma
• myocardial infarction
• cardiac arrhythmias
• migraines
• benign prostatic hyperplasia
• glaucoma