Adrenergic Pharmacology

Question 1

Precursor to catecholamines

Answer 1

Tyrosine

Question 2

Pathway for norepinephrine

Answer 2

Tyrosine–>L DOPA–>Dopamine–>Norepinephrine

Question 3

a2 stimulation

Answer 3

Results in negative feedback in presynaptic terminal

Question 4

b2 receptors

Answer 4

Only stimulated by epinephrine, not NE

Question 5

COMT

Answer 5

Metabolizes NE in synapse

Question 6

MAO

Answer 6

Make sure that the NE mobile pool that is not recycled into vesicles is destroyed so not too much NE is released

Question 7

Methyl Tyrosine

Answer 7

Blocks conversion of tyrosine–>L dopa and therefore decreases NE release

Question 8

MAO inhibitors

Answer 8

Block degradation of excess NE mobile pool in presynaptic cell–can cause excess NE release

Question 9

a1 effect on blood vessels

Answer 9

Constriction and increased BP
Arterioles: Increased TPR, increased afterload, increased diastolic BP
Veins: Increased preload and increased systolic pressure

Question 10

a1 effect on eye

Answer 10

Dilation

Question 11

a1 effect on kidney

Answer 11

Decreased renin release

Question 12

a1 effect on liver

Answer 12

increased glycogenolysis

Decreased insulin

Question 13

a1 effect on bladder

Answer 13

Increased sphincter tone and urinary retention

Question 14

a2 effect

Answer 14

Decreased synthesis and release of NE

Question 15

B1 effect on heart

Answer 15

Increased HR, Increased conduction velocity, increased contractility, increased SV and increased systolic pressure

Question 16

B1 effect on kidney

Answer 16

increased renin release

Question 17

B1 effect on ciliary body in eye

Answer 17

Increased aqueous humor

Question 18

B2 effect on vessels

Answer 18

Vasodilation, decreased TPR and decreased diastolic pressure

Question 19

B2 effect on bronchioles

Answer 19

Bronchodilation

Question 20

B2 effect on uterus

Answer 20

Relaxation–can delay preterm labor

Question 21

B2 effect on liver

Answer 21

Glycogenolysis and gluconeogenesis

Increased insulin

Question 22

a1 agonists

Answer 22

Increase in BP with no change in pulse pressure

Does not effect HR but reflex bradycardia may occur due to increase in BP

Question 23

Phenylephrine

Answer 23

a1 agonist
Can be used for septic shock
Use as a nasal decongestant due to vasoconstriction preventing mucus

Question 24

a2 agonists

Answer 24

Increase negative feedback so decrease release of NE
Can help with muscle spasticity by causing muscle relaxation
Will decrease insulin so caution in diabetics

Question 25

Isoproterenol

Answer 25

Beta Agonist
B1=B2
use for bradycardia and heart block (B1) and asthma (B2)
Side effects: tachycardia, hypotension, flushing, headache

Question 26

Dobutamine

Answer 26

B1 agonist
Use for congestive heart failure management
Side effects: tachycardia due to reflex from vasodilation

Question 27

Albuterol

Answer 27

B2 agonist
Used for acute asthma
Side effects: palpitations, tremor, anxiety, restlessness

Question 28

Terbutaline

Answer 28

B2 agonist

Used for premature labor

Question 29

Salmetrerol

Answer 29

long acting B2 agonist, delayed onset, good for prophylaxis of asthma

Question 30

Formoterol

Answer 30

Long acting b2 agonist, prompt onset, good for acute and prophylaxis

Question 31

Norepinephrine always

Answer 31

Activates a1, a2, B1
Increases BP (a1 and B1 causes increased systolic BP and a1 causes slight increase in diastolic BP): increase in pulse pressure
B1 causes increase in HR, however reflex bradycardia will occur due to increased BP

Question 32

Epinephrine

Answer 32

Effects are dose dependent

Activates a1, a2, B1, B2

Question 33

Low dose epi

Answer 33

B1 and B2 agonist

Use for anaphylactic shock

Question 34

High dose epi

Answer 34

a1 and B1 primarily (looks more like NE)…B2 is masked by a1 effects
Use for heart stopping

Question 35

how to differentiate between high dose epi and NE

Answer 35

Need to block a1 to see if B2 becomes unmasked

Will cause hypotension if it is high dose epi

Question 36

Effect of low dose epi on HR and BP

Answer 36

B1: increased HR, increased SV, increased CO
B2: decreased TPR, decreased BP
Increased pulse pressure and mean pressure decreases

Question 37

Effect of medium dose epi on HR and BP

Answer 37

B1: increased HR, increased SV, increased CO
B2: decreased TPR, decreased BP
a1: increased TPR, increased BP
Increased pulse pressure, mean pressure stays constant

Question 38

Effect of high dose epi on HR and BP

Answer 38

B2 effect masked by a1=increased TPR and increased BP

Potential reflex bradycardia–can make ischemia worse

Question 39

Uses of NE and epi

Answer 39

Cardiac arrest
Adjunct to local anesthetic 
Hypotension
Anaphylaxis: Epi only
Asthma: Epi only

Question 40

Dopamine

Answer 40

Can be used in shock management due to similarity to NE

Question 41

Low dose dopamine

Answer 41

D1

Vasodilation on renal, coronary, mesenteric vessels

Question 42

Medium dose dopamine

Answer 42

D1 and B1

Adds inotropic effect to D1 to preserve blood flow to heart and kidneys

Question 43

High dose dopamine

Answer 43

D1, B1, a1

a1 can help maintain BP

Question 44

Indirect acting adrenergic receptor agonists: releasers

Answer 44

Displaces NE from mobile pool causing an increase in NE availability

Question 45

Releasers can interact negatively with

Answer 45

MAO inhibitors and Tyramine rich food

Can cause hypertensive crisis due to too much NE

Question 46

Examples of reuptake inhibitors of NE

Answer 46

Cocaine and TCAs

Question 47

a receptor antagonists

Answer 47

Decrease TPR and decreases mean BP
Used to fight hypertension
May cause reflex tachycardia and salt/water retention

Question 48

B1 receptor antagonists

Answer 48

Decreases HR, SV, and CO: good for anti-arrhythmic and decrease O2 demand and angina
Decreases renin release: good for anti CHF
Decreases aqueous humor production: good for anti glaucoma

Question 49

B2 receptor antagonists

Answer 49

Aggregates bronchospasm in asthmatics, makes metabolic effects worse in diabetics

Question 50

General use of beta blockers

Answer 50

Angina, hypertension, post MI
Anti arrhythmic
Glaucoma

Question 51

Chronic use of beta blockers leads to

Answer 51

Upregulation and tolerance

Important to taper dose to avoid excessive CV effects

Question 52

Additive bradycardia occurs when

Answer 52

Take beta blocker with calcium channel blocker

Can cause AV block

Question 53

What can be used in Beta blocker OD

Answer 53

glucagon

Binds to Gs coupled receptors and reverses B blockade toxicity without interfering Beta receptor

Question 54

1st generation beta blockers

Answer 54

nonselective
N-Z
“-olol”

Question 55

2nd generation beta blockers

Answer 55

B1 selective
A-M
“-olol”

Question 56

3rd generation beta blockers

Answer 56

Also act as vasodilators
Nonselective + a1 antagonist: used in CHF
Selective B1 and NO release: used in HTN

Question 57

Clonidine

Answer 57

a2 agonist

Question 58

Methyldopa

Answer 58

a2 agonist

Question 59

Phentolamine

Answer 59

a1 blockers nonselective

Question 60

Labetalol

Answer 60

A1 + b blocker

Question 61

Amphetamines

Answer 61

Increase release of NE

Question 62

Methylphenidate

Answer 62

Increase release of NE

Treatment of ADHD

Question 63

Atomexetine

Answer 63

Increase release of NE

Treatment of ADHD

Question 64

Modafinil

Answer 64

Increase release of NE

treatment of narcolepsy

Question 65

B2 blocking effects

Answer 65

Bronchoconstriction, decreased aqueous humor, impotence

Question 66

Beta blockers can decrease

Answer 66

Renin

Can be used for hypertension but not first line