Cholinergic Drugs

Question 1

What is the major cholinergic agonist?

Answer 1

Ach- the natural transmitter

Question 2

What are the major muscarinic agonist drugs?

Answer 2

bethanechol

pilocarpine

Question 3

What are the major muscarinic antagonists?

Answer 3

atropine
tropicamide
tolterodine
tiotropium

Question 4

What are the major Achesterase inhibitors?

Answer 4

physostigmine
neostigmine
donepezil
sarin

Question 5

What is a cholinesterase reactivator?

Answer 5

pralidoxime

Question 6

What is a nicotinic ganglionic agonist?

Answer 6

nicotine

Question 7

What is a nicotinic ganglionic antagonist?

Answer 7

trimethaphan

Question 8

What is the main depolarizing neuromuscular blocker?

Answer 8

succinylcholine

Question 9

What are the major non-depolarizing neuromuscular blockers?

Answer 9

d-tubocurarine

vecuronium

Question 10

What is a major Ach Release inhibitor

Answer 10

Onabotulinumtoxin A (Botox)

Question 11

What type of cholinergic drug is succinylcholine?

Answer 11

a depolarizing neuromuscular blocker

Question 12

What type of drug is trimethaphan?

Answer 12

a nicotinic ganglionic antagonist

Question 13

What type of drug is physostigmine or neostigmine?

Answer 13

Acetylcholine esterase inhibitor

Question 14

What type of drug is nerve gas (sarin)?

Answer 14

acetylcholine esterase inhibitor

Question 15

If someone has been exposed to sarin, what drug would you give them? Why?

Answer 15

pralidoxime because it reactivates Achesterase

Question 16

What contributes to the really short clearance time from the synaptic cleft?

Answer 16

the easily cleavable ester bond

Question 17

What two structural features of Ach also have functional properties?

Answer 17

1. easily cleaved ester bond

2. NH4+ quarternary amine which attracts it to its site of action

Question 18

What receptor is found at all cholinergic AND adrenergic ganglia?

Answer 18

Ng (nicotinic)

Question 19

What receptor is found at the parasympathetic neuroeffector junctions? What tissue specifically are affected?

Answer 19

Muscarinic on exocrine glands, smooth muscle and viscera

Question 20

The somatic neuromuscular junction has what type of receptor?

Answer 20

Nm (nicotinic)

Question 21

The central nervous system has which cholinergic receptors?

Answer 21

M and N

Question 22

Where would one see non-innervated tissue with AchR? what type of receptor is present?

Answer 22

Muscarinic receptors are present in endothelial cells of blood vessels that cause vasodilation

Question 23

How does choline enter the nerve terminal?

What drug can block choline transport into the nerve terminal?

Answer 23

It is co-transported with Na+ and is a rate-limiting step.

It can be blocked by hemicholinium

Question 24

What does hemicholinium do?

Answer 24

It blocks choline from entering the nerve terminal. It is not specific or useful therapeutically

Question 25

What are the three steps for synthesis and storage of Ach?

Answer 25

1. choline enters the nerve terminal (via cotransport with Na+, blocked by hemicholinium)
2. Acetyl CoA + choline -(CAT)–> Ach
3. Ach is packaged into vesicles

Question 26

What blocks the release of Ach from vesicles?

What facilitates excessive release?

Answer 26

Botulinum toxin (onabotulinumtoxin A) stops release of Ach
A-latrotoxin from black widows cause excessive release of Ach by increasing Ca2+ influx

Question 27

What are the two receptors for Ach?

What is a natural agonist and antagonist for each?

Answer 27

N agonist- nicotine
N antagonist- d-tubocurarine
M agonist- muscarine
M antagonist- atropine

Question 28

What are potential effects of Ach binding to receptors?

Answer 28

1. excitatory- depolarization of postsynaptic membrane and Ca2+ influx
2. inhibitory- hyperpolarization of postsynaptic membrane

Question 29

What are the two potential mechanisms by which latrotoxin releases Ach vesicles?

Answer 29

1. Ca-dependent stimulation of neurotransmitter vesicle fusion with plasma membrane
2. Release of cytoplasmic transmitter into nerve junctions via pores induced in the cell membrane by the toxin

Question 30

What are the symptoms associated with a-latrotoxin?

Answer 30

1. severe pain and muscle spasms spreading from site of spider bite
2. sweating, stomach cramps. nausea, vomit
3. tightness of chest, hard time breathing
4. increased BP

Question 31

How exactly does botulinum toxin prevent the release of Ach?

Answer 31

It is a protease that cleaves SNAP25, VAMP or syntaxin preventing the fusion of the vesicle with the plasma membrane to allow exocytosis

Question 32

How is onobotulinumtoxinA administered? How long does it last? What happens to the muscles in the area?

Answer 32

It is administered by local injection, lasts weeks, and the muscles atrophy

Question 33

What are the six things botox are typically used to treat?

Answer 33

1. strabismus
2. focal dystonia
3. chronic blinking (blepharospasm)
4. wrinkles
5. hyperhidrosis (sweat glands)
6. migranes

Question 34

How are botulinum and tetanus similiar? How are they different?

Answer 34

Botulinum toxin acts on excitatory nerve endings and blocks release of Ach (thus having an inhibitory effect and causing flaccid paralysis)
C. tentani (tetanus toxin) acts on inhibitory nerve endings by the same mechanism of botulinum (prevents vesicle fusion). This inhibits the inhibitory response thus causing tentanic contraction of muscle

Question 35

What are the two main types of cholinesterases?

Where is each found?

Answer 35

1. acetylcholinesterase - at the synaptic cleft

2. butyrylcholinesterase- serum/plasma

Question 36

Butyrylcholinesterase is of specific interest in the metabolism of what drug?

Answer 36

succinylcholine

Question 37

What are the two general categories of Achesterase inhibitors? What is an example of each?

Answer 37

Reversible- physostigmine

Irreversible- DFP and organic phosphates (insecticides)

Question 38

What snake toxin irreversibly inhibits cholinergic receptors?

Answer 38

alpha toxin

Question 39

What is myasthenia gravis?

Answer 39

an autoimmune disorder where Ab are made against nicotinic receptors

Question 40

What cholinergic receptor has an

“ALL or NOTHING” response?

Answer 40

Nicotinic receptors have an all or none response. If two Ach bind to the alpha subunits, the channel will allow depolarization and if it is enough depolarization will cause an AP and transmission of a downstream signal

Question 41

What is “dual response”? What type of receptor is it associated with?

Answer 41

It is when continuous stimulation of a nicotinic receptor leads to:

1. failure to repolarize at the postsynaptic junction
2. desensitization of the receptors

Question 42

What preferentially blocks Ng receptors?

Answer 42

Hexamethonium at synapses in autonomic ganglia and adrenal medulla

Question 43

What preferentially blocks Nm receptors?

Answer 43

Decamethonium at synapses at the neuromuscular junction of somatic systems

Question 44

Compared to nicotinic receptors, muscarinic have a __________, more _________ response.

Answer 44

Slower more graded response often used to regulate intrinsic activity.

MODULATION NOT CONTROL

Question 45

M2 and M4 operate through what G protein? What is the result?

Answer 45

Gi - increased K, decreased cAMP, decreased Ca

Question 46

M135 work through what G protein? What is the result?

Answer 46

Gq- increased PLC->IP3/DAG–> increased Ca

Question 47

What natural drug blocks all muscarinic receptors?

Answer 47

atropine

Question 48

What are the two most important things to consider when deciding the utility of a drug?

Answer 48

1. what is the SPECIFICITY for the receptor?

2. will it get to the SITE OF ACTION (availability)?

Question 49

Cholerginc drugs that are _______ amines are more likely to have effects in the CNS whereas ______ amines are largely excluded.

Answer 49

tertiary enter CNS, quarternary are excluded

Question 50

How does hydrophobicity determine distribution of drugs?

Answer 50

The more hydrophobic a drug, the better it can penetrate, concentrate and provide selective action in the CNS

Question 51

If 10microg/kg Ach is administered, what happens to:

1. the autonomic ganglia firing rate
2. HR
3. BP
4. GI contraction

Answer 51

1. nothing because it is not enough to effect Ng receptors
2. decreased (but potentially a reflex tachycardia)
3. decreased
4. increased

Question 52

What happens if atropine is given with 10mg/kg Ach to:

1. ganglion firing rate
2. HR
3. BP
4. GI contractility

Answer 52

There will be no change in anything because this is not enough to influence nicotinic receptors and all the muscarinic receptors are blocked by atropine

Question 53

If a large dose of Ach (100mg/kg) is given with atropine, what happens to:

1. autonomic ganglia firing rate
2. HR
3. BP
4. GI contractility

Answer 53

100mg/kg is enough to excite muscarinic, nicotinic sympathetic ganglia neurons so:

1. firing rate increases
2. HR increases (bc of sympathetic)
3. BP increases (bc of sympathetic)
4. nothing happens to GI

Question 54

If 100mg/kg Ach is given with atropine and a&b blockers, what happens to:

1. firing rate
2. HR
3. BP
4. GI contractility

Answer 54

1. increases because nicotinic receptors are still being stimulated to fire at ganglia
2. normal
3. normal
4. normal
   2-4 because BOTH parasympathetic and sympathetic are blocked

Question 55

What happens if 100 mg/kg Ach is given with atropine, a&b blocker AND hexamonium to the:

1. firing rate
2. HR
3. BP
4. GI contractility

Answer 55

they all are cancelled because:

effector parasympathetics AND sympathetics are blocked as well as Ng by the hexamonium

Question 56

Where would cholinergic agonists act?

Answer 56

1. M receptors at NEJ
2. M receptors in non-inervated vasculature
3. Mg receptors (depending on penetration)
4. Ng and Nm receptors IF THE CONCENTRATION OF DRUG IS HIGH ENOUGH

Question 57

Why is Ach typically not given as a cholinergic drug?

Answer 57

because it is rapidly degraded

Question 58

What is bethanechol?
Where is its site of action?
How is it taken?
Why is it better than the prototype drug?

Answer 58

A muscarinic agonist
GI and urinary smooth muscles
Taken orally or subcutaneously
Resistant to BchE and AchE

Question 59

What is the effect of giving Ach with an AchE inhibitor?

Answer 59

Synergistic effect because it is prolonging Ach life in the synaptic cleft and providing more Ach to act on the effector muscle

Question 60

How are Ach and bethanechol different in their sites of action?

Answer 60

Ach can have nicotinic effects but bethanechol does not

Question 61

What would be the relationship if you use bethanechol with AchE inhibitor?

Answer 61

they would have an additive effect because bethanechol is ALREADY resistant to being degraded. You would have extra Ach and bethanechol at receptors then

Question 62

Why do you take bethanechol orally or s.c.?

Answer 62

So it has good specificity to the site of action (GI and urinary smooth muscle) and decreases the toxicity (action on the vasculature)

Question 63

What are the four major uses for bethanechol?

Answer 63

1. urinary retention- to help release pee
2. GI stasis- to get bowels moving post-op
3. Diagnosis of atropine intoxication
4. Topically for closed angle glaucoma

Question 64

What are the three major contraindications for using muscarinic agonists?

Answer 64

1. Asthma- Ach can bronchoconstrict
2. coronary insufficiency- Ach can cause hypotension via vascular dilation
3. Peptic ulcers- Ach can stimulate secretion of gastric acid

Question 65

I have asthma. Why would I be wary of taking a muscarinic agonist?

Answer 65

Muscarinic receptors cause bronchoconstriction

Question 66

I have been known to get peptic ulcers. What type of drug should I avoid?

Answer 66

I should avoid muscarinic agonists because parasympathetic response is to increase gastric secretion (rest and DIGEST)

Question 67

I have a history of fainting due to low BP. Why would I not want to take a muscarinic agonist?

Answer 67

They vasodilate which would decrease BP even more causing severe hypotension

Question 68

What is a cholinomimetic?

Answer 68

A cholinergic agonist

Question 69

What type of drug is pilocarpine?

Answer 69

a tertiary amine that acts as a cholinergic agonist (mostly muscarinic)

Question 70

What are the three main clinical uses of pilocarpine?

Answer 70

1. Topical application to treat acute glaucoma
2. Orally to treat Sjogren’s (inability to form saliva/tears)
3. Sweat test for CF

Question 71

What is Sjogren’s syndrome? What might I use to treat the symptoms?

Answer 71

It is an autoimmune disease that attacks endocrine glands presenting with chronic dry eyes and mouth that can be treated by:

1. pilocarpine
2. M3 selective agonist

Question 72

What is the “Belladonna” alkaloids?

What type of amine are they and what do they block?

Answer 72

Atropine and scopolamine which are tertiary amines that competitively block muscarinic receptors

Question 73

What is tropicamide?
What is advantageous about its half life?
When would you NOT want to use it?

Answer 73

a muscarinic antagonist that helps dilate the eyes for eye exams.
It has a short half life, so the pupils return to normal quickly after the exam.
You would not want to use tropicamide if the person has narrow angle glaucoma because it will block outflow of aq. humor even more and increase intraocular pressure and pain

Question 74

What is the benefit of using a quarternary amine over a tertiary amine? What would be a drawback?

Answer 74

Quarternary amines have more localized effect and cannot get into the CNS, but they frequently increase blockage of nicotinic receptors too.

Question 75

What would be the specific instance when you would use atropine as a drug?

Answer 75

If the person had AchE poisoning because atropine would block the receptors from the excess Ach

Question 76

What would the effect of an antimuscarinic drug be on the eyes?

Answer 76

1. mydriasis (pupil dilation)

2. cycopegia (paralysis of ciliary muscles)

Question 77

What would the effect of an antimuscarinic drug be on the heart? What is controversial about this use?

Answer 77

It would cause tachycardia which is sometimes used:

1. in myocardial infarct where bradycardia is prominent
2. intraoperative to control bradycardia

Question 78

What is the effect of antimuscarinic drugs on vasculature?

Answer 78

Not much because dominant tone in the vasculature is sympathetic

Question 79

What is the effect of antimuscarinic drugs on the GI and urinary tract?

Answer 79

It will decrease motility, secretions, and reduce voiding

Question 80

What is the major drug used for reducing urge incontinence (uninhibited detrussor contraction)?

Answer 80

Tolterodine an M3 specific blocker which will relax the detrusser

Question 81

What is tolterodine?

Answer 81

An M3 specific antagonist used for relaxing the detrusser muscle to treat urge incontinence

Question 82

What is the effect on a muscarinic antagonist on salivation and sweating?

Answer 82

It will decrease salivation and sweating

Question 83

What is the effect of a muscarinic antagonist on the respiratory tract?

Answer 83

1. Bronchodilation

2. reduces secretions

Question 84

What drug is inhaled to selectively reduce constriction of the bronchioles?

Answer 84

Tiotropium is given as a M blocker in the lungs to remove the parasympathetic contraction

Question 85

What is the function of tiotropium?

Answer 85

it is a muscarinic antagonist that is inhaled (and Nh4+ so it will stay locally) to relax bronchial constriction

Question 86

What are the two potential types of drug that could treat asthma and COPD?

Answer 86

1. M antagonist (tiotropium)

2. B agonist (albuterol)

Question 87

What is the effect of atropine on the CNS?

Answer 87

High doses cause restlessness, delirium and hallucinations

Question 88

What is scopolamine? What does it treat?

Answer 88

It is a muscarinic antagonist that treats car sickness (motion)

Question 89

What are three potential causes of muscarinic inhibitor overdose?

Answer 89

1. accidental (systemic spread of topical application)
2. eating berries with alkaloids
3. Deliberate (sleeping pills)

Question 90

What are the symptoms of a cholinergic inhibitor overdose?

Answer 90

They will get sympathetic response so:

1. red as a beet- vascular dilation
2. Dry as a bone - anhidrosis
3. Hot as a hare- can’t sweat so overheat
4. Mad as a hatter- dilirium
5. Blind as a bat - dilated eyes (mydriasis)
6. Full as a flask - urinary retention

Question 91

What would be the treatment for OD on cholinergic inhibitors?

Answer 91

Physostigmine- an AchE inhibitor which would allow more Ach to act on the few receptors that remain from the anti-muscarinic drugs

Question 92

What are the two main reasons for using AchE inhibitors?

Answer 92

1. therapeutic (myasthenia gravis, Alzheimer’s, opthamology, atony of GI tract)
2. Insecticides/chemical warfare

Question 93

What drugs are reversible inhibitors of AchE?

Answer 93

Donepezil- competitive antagonist
Physostigmine- carbamoylating agent
Neostigmine- carbamoylating agent

Question 94

Which drugs are carbamoylating agents?

How do they operate?

Answer 94

Physostigmine and Neostigmine covalently carbamoylate the active site of the esterase and then are reversed slowly by hydrolysis (2-6 hours)

Question 95

What are irreversible inhibitors of AchE? What is their mechanism of action?

Answer 95

Insecticides (DFP) and nerve gases (sarin) and they phosphorylate the active site of the esterase

Question 96

What are the potential sites of action of AchE inhibitors?

Answer 96

1. post-ganglionic parasympathetic muscarinic
2. ganglionic nicotinic
3. neuromuscular nicotinic
4. CNS junction (M and N)

Question 97

What AchE is selective for NMJ action only? How is this achieved?

Answer 97

Neostigmine because it is a quaternary amine so it can’t penetrate CNS and stays local

Question 98

At muscarinic sites, AchE will be _________. At nicotinic junctions, the potentiation of Ach will __________.

Answer 98

At muscarinic sites it will be stimulatory
At nicotinic junctions, Ach originally causes facilitation, but then will result in blockage of signal transduction because the receptors will desensitize and the membrane will not be able to repolarize to propogate an AP

Question 99

What are the effects of AchEI on the eye?

Answer 99

Miosis- pupil constriction (classic pinpoint pupil with organophosphate poisoning)

Question 100

What is the main AchEI used on the eye? What does it treat?

Answer 100

Physostigmine treats acute angle glaucoma to allow Aq humor to drain by constricting the pupil

Question 101

What is the role of AchEI on the heart and blood pressure?

Answer 101

Not much

Question 102

What is the role of AchEI on the GI tract and urinary tract?

Answer 102

It increases gastric contractions and secretions and increasing motility of the bowels

Question 103

What AchEI is used for the gut and urinary tract?

Answer 103

neostigmine relieves abdominal distension and atony of the bladder

Question 104

Why can’t AchEI work for gastric atony after a vagotomy?

Answer 104

The source of Ach is gone. So AchE inhibitor would not be able to prolong Ach that isnt there

Question 105

What would AchEI do for saliva and tears?

Answer 105

It would increase production

Question 106

What would AchEI do for respiratory tract?

Answer 106

Bronchoconstriction

Question 107

What drug is used for Alzheimer’s? What class of drug is it and what is the function?

Answer 107

Donepezil is an AchEI which leaves Ach in the synpapses and assist the neurons that are left

Question 108

What AchEI aids in poisoning by anti-muscarinic drugs?

Answer 108

Physostigmine

Question 109

What is the classic test to diagnose myasthenia gravis?

Answer 109

Edrophonium test- administration of this AchEI will result in a dramatic (but temporary) improvement in strength bc it leaves Ach to react with the few receptors that haven’t been attacked by autoantibodies

Question 110

Why is neostigmine given for myasthenia gravis?

Answer 110

1. Because it has specificity for NMJ as a quarternary amine

2. it has some direct stimulatory effects on NMJ receptors

Question 111

What is a myasthenic crisis? How can it be differentiated from a cholinergic crisis?

Answer 111

Myasthenic crisis is muscle weakness due to lack of nicotinic receptors on muscle and brevity of Ach to activate the receptors that are left.
Cholinergic crisis occurs when there is too much AchEI and the Ach remains in the cleft too long overstimulating the receptors so they don’t repolarize and AP can’t propogate

You do the Edrophonium test. If Myasthenia crisis, things will improve. If Cholinergic crisis, things will get worse

Question 112

When doing the edrophonium test, what should you have on hand in case it is cholinergic crisis and not myasthenic crisis?

Answer 112

atropine (to block muscarinic receptors) and a ventilator (bc bronchoconstriction due to Ach)

Question 113

AchEI toxicity can occur via accidental exposure to pesticides or suicidal attempts. The effects will be local if the exposure was ________ and will be systemic if the exposure was ________.

Answer 113

Local-dermal

Systemic- respiratory

Question 114

How would an OD on AchEI appear?

Answer 114

SLUDGE (salivation, lacrimation, urination, defecation, GI effects, emetic)
They will also have muscle weakness and twitching, pinpoint eyes, tightness in the chest

Question 115

What is the cause of death in a nerve gas poisoning? How long does it take?
How do you recover?

Answer 115

It is respiratory failure bc the excess Ach causes bronchoconstriction
Death can occur between 5min and 24 hrs if pulmonary ingested
You recover by resynthesizing AchE which takes about a day

Question 116

What treatment is given for an AchE inhibitor poisoning?

Answer 116

1. Atropine to reduce muscarinic effects (lungs)
2. artificial respiration
3. Cholinesterase reactivators (pralidoxime)

Question 117

What is pralidoxime?

Answer 117

a cholinesterase reactivator that is only effective against phosphorylated AchE

Question 118

Will pralidoxime help in a physostigmine, neostigmine or doneprezil overdose?

Answer 118

No because it only reactivated phosphorylated AchE. Neo and physo are carbamoylated

Question 119

What would the physiological effects of nicotine be?

Answer 119

It would stimulate Ng receptors thus triggering parasympathetic, sympathetic and CNS responses because nicotinic receptors are on the post-synaptic neuron at every ganglion

Question 120

Low doses of nicotine effect stimulation of many organs and excitation of ___________ is especially pronounced. With repeated doses, minor effects dissipate but _________________ effects persist.

Answer 120

Respiration is pronounced
Cardiovascular responses (increased rate/BP) persist

Question 121

Why is nicotine assumed to be addictive?

Answer 121

It affects a4b2 receptor in the nucleus accumbens and prefrontal cortex and is considered to be a “reward” by stimulated release of dopamine

Question 122

What are the three strategies for quitting smoking?

Answer 122

1. give low doses of nicotine (patch, gum, etc) so withdrawal is avoided but harmful tobacco agents are gone
2. Partial a4b2R agonist so reward is partially stimulated and withdrawal symptoms are not there. Additionally, bc the receptor will be occupied, continued smoking will not provide the reward it usually does
3. Antidepressant enhances noradrenergic and dopaminergic activity by inhibiting reuptake and can antagonize nicotinic receptors

Question 123

What would cause a toxic overdose of nicotine? What would be the physiological results?
How would you treat toxicity?

Answer 123

Children ingesting cigarettes or insecticide poisoning
First stimulation, but then depression of nerves because of inability to depolarize –>AP leading to respiratory paralysis
Therapy is to do a stomach lavage using charcoal

Question 124

What drugs inhibit Ng receptors?

What is the physiological effect?

Answer 124

Hexamethonium
Trimethaphan- quarternary sulfonium and preferred method

The drugs are used locally and withdrawal the autonomic tone (so whichever was more prominent)

Question 125

What is the dominant tone of arterioles? What happens with a Ng inhibitor?

Answer 125

sympathetic is natural tone so with Ng inhibitor you would see a parasympathetic effect–> vasodilation

Question 126

What is the dominant tone of veins? What would happen with a Ng inhibitor?

Answer 126

Sympathetic so with a Ng inhibitor the veins would dilate and blood would pool

Question 127

What is the dominant tone of the heart? What would happen with a Ng inhibitor?

Answer 127

Parasympathetic so with Ng inhibitor it would increase HR and contractility

Question 128

What is the dominant tone of the iris? What would happen with an Ng inhibitor?

Answer 128

PArasympathetic so if that is blocked the pupil will dilate

Question 129

What is the dominant tone of the GI tract? What would happen with a Ng inhibitor?

Answer 129

Parasympathetic so if it is blocked, the bowels will slow

Question 130

What are the only situations where an Ng inhibitor is even considered?

Answer 130

1. Hypertensive crisis with acute dissecting aortic aneurysm
2. To have controlled hypotension in surgery
3. To control hyperreflexia with upper spinal cord injuries

Question 131

What is the desired effect when using a NMJ inhibitor?

Answer 131

flaccid paralysis

Question 132

What are the two types of NMJ inhibitors that act on the nicotinic receptors?

Answer 132

1. Competitive non-depolarizing inhibitors (d-tubocurarine and vecuronium)
2. Depolarizing agents (decamethonium and succinylcholine)

Question 133

What is different molecularly between tubocurarine/vecuronium and succinylcholine/decameconium?

Answer 133

tubo/vecur are bulky, non-flexible

succinylcholine is long and slender

Question 134

What is the mechanism of action for tubocurarine and vecuronium?
What happens when you use AchEI with these drugs?

Answer 134

They compete with Ach for the receptor binding site and are antagonized by Ach

AchE inhibitors will antagonize these drugs

Question 135

What is the mechanism of action for succinylcholine and decamethonium?
What happens when you use AchEI with these drugs?

Answer 135

They are agonists for the AchR.

1. stimulate the receptors
2. Persistent depolarization leads to the inability to have AP transmission
3. Receptor desensitization (receptors are endocytosed so they cant be bound)

AchEI will potentiate these drugs because Ach will speed the process of depolarization and desensitization

Question 136

What is the sequence of paralysis for tubocuranine and vecuronium?

Answer 136

small rapid muscles>limbs/neck> intercostal>diaphragm

Question 137

What is the sequence of paralysis for succinylcholine?

Answer 137

limbs/neck>small rapid muscles> diaphragm

Question 138

What NMJ inhibitors can release histamine causing bronchospasm and hypotension?

Answer 138

d-tubocuranine and vecuronium

Question 139

How does the recovery of phase I and phase II from succinylcholine inhibition of the NMJ compare?

Answer 139

Phase 1 recovery is quick because the membrane will repolarize
Phase 2 is slower because the receptors have to be resensitized

Question 140

Succinylcholine has a short duration of action (2-5 minutes). Why?

Answer 140

It is rapidly hydrolyzed by butyrylcholinesterase

Question 141

What are the four major clinical uses of succinylcholine?

Answer 141

1. surgical anesthesia- muscular relaxation and reduces risk of respiratory and cardiac depression
2. Orthopedic procedures to loosen muscles
3. Intubation
4. electroshock

Question 142

What is the drug interaction between succinylcholine and cholinesterase inhibitors?

Answer 142

succinylcholine will be prolonged

tubocurarine and vecuronium will be antagonized because they will have to compete for receptors

Question 143

What is the drug interaction between NMJ inhibitors and inhalation anesthetics?

Answer 143

The effects of tubocurarine and vecuronium are increased

Question 144

What antibiotics can increase the blockade of NMJ inhibitors?

Answer 144

Tetracycline, aminoglycoside, peptide antibiotics

Question 145

What do Ca channel blockers do to the effects of NMJ inhibitors?

Answer 145

enhance the blockade

Question 146

What are the four disease conditions that can effect NMJ inhibitor actions?

Answer 146

1. genetic reduced plasma cholinesterase - will enhance succinylcholine and can lead to prolonged apnea
2. genetic mutation to ryanodine receptor leads to widespread rigidity and hyperthermia with succinylcholine
3. Tissue damage- succinylcholine can increase hyperkalemia
4. myasthenia gravis- less receptors to block so reduce amount of succinylcholine given

Question 147

What three things are characteristic of a succinylcholine overdose?

Answer 147

1. prolonged apnea- treat with artificial respiration and O2
2. Cardiovascular collapse
3. histamine release