EXAM 2

Question 1

Epinephrine

Answer 1

Endogenous catecholamine, direct acting, sympathomimetics, adrenergic agonist. alpha and beta agonist, released by adrenal chromaffin cells, complex action: alpha and beta summation. cardiac (beta 1 positive inotrope and chronotrope resulting in increased cardiac output) vascular(alpha 1 vasoconstriction in renal, cutaneous, and visceral blood flow but in beta 2 skeletal muscle blood flow dilation) and lung(beta 2 bronchodilator) effects. Remember that epi is crazy potent at beta 2 receptors, more than ne

Question 2

albuterol

Answer 2

selective beta 2 adrenergic agonist. for asthma and bronchospasm.

Question 3

phenylephrine

Answer 3

selective alpha 1 adrenergic agonist. vascular smooth muscle constriction(increased blood pressure). Topical oral, or parental. Decongestant and vasopressor

Question 4

clonodine

Answer 4

adrenergic agonist. selective alpha 2. cns and presynaptic inhibition of sympathetic neurons. so sedation, analgesia, decreased sympathetic outflow from cns, decreased ne release. increased parasympathetic outflow from cns. hypotension and bradycardia.

Question 5

phenoxybenzamine

Answer 5

-non selective alpha adrenergic antagonist.
-non competitive.
-irreversibly blocks a1 and a2. -decreases blood pressure and tpr

Question 6

prazosin

Answer 6

-adrenergic antagonist
- selective alpha 1
- vasodilation at arterial and venous
-decrease tpr (afterload)
-decrease venous return (preload)
- antihypertensive used in congestive heart failure (because of its effects on preload and afterload)
- produces less reflex tachycardia than other vasodilators

Question 7

propanolol

Answer 7

-adrenergic antagonist
-non selective beta
-decreased heart rate and contractility at b1
- bronchoconstriction at b2 (we want to avoid this this sucks and is a limitation on non selective betas)

Question 8

bethanechol

Answer 8

-cholinergic agonist
- direct acting muscarinic
-synthetic choline ester
-muscarinic stimulation
-gi and bladder selectivity (m3)
-promotes voiding by contracting detrusor and relaxing trigone and sphincter
-treats urinary retention when obstruction is absent

Question 8

cholinergic agonism

Answer 8

parasympathomimetics, decreased co, vasodilation, bronchoconstriction, increased gi motility, more pee, lacrimation in pupils.
-endogenous form is acetylcholine which is rapidly degraded by ache and plasma butrylcholinesterase

Question 8

cholinergic antagonists

Answer 8

-parasympatholytics,
- blocks endogenous acetylcholine,
-most are competetive and direct so are reversible.

Question 9

atropine

Answer 9

-muscarinic cholinergic antagonist
-natural anticholinergic alkaloid
-enters cns (non quaternary, toxic, excitation followed by depression)
-concerns are tachyarrythmia, gi stasis, and urine retention
-adjunct during general anesthesia

Question 10

ipratropium

Answer 10

-muscarinic cholinergic antagonist
- semisynthetic alkaloid derivative
- decreased bronchoconstriction and airway secretions
-quaternary so restricted distribution, has to be done via inhalation
- asthma and copd

Question 11

nmj blockers

Answer 11

-used adjunct during anesthesia
-relax skeletal muscle no sedative effects
-especially in abdominal wall
given iv
-used any time we need skeletal paralysis
- spare receptors are big deal here, they can cause bad things
-can cause respiratory paralysis(but can be prevented with antihistamine pretreatment)
-can cause vagal(parasympathetic) reflex which can be minimized with anticholinergics
-can cause ganglionic blockade ie hypotension which can manage with sympathetic adrenergic agonists
-malignant hyperthermia

Question 12

pancuronium

Answer 12

-nmj blocker
-competitive
-nondepolarizing at motor plate end
- initial weakness followed by paralysis
- long acting (2-3 hours)
- can be outcompeted by ache inhibitor
-renal elimination (half life increased with renal disease
- no histamine release
-little ganglionic blockade
-tachycardia due to muscarinic block

Question 13

mivacurium

Answer 13

-nmj blocker
-competitive
-non depolarizing
-short duration(15 min)
-rapid hydrolysis by plasma eneterases, so half life not increased with renal disease
- little ganglionic blockade
-promotes histamine release

Question 14

succinylcholine

Answer 14

-nmj blocker
- non competetive
-depolarizing
-2 ach molecules linked together
- resistant to acetylcholinesterase
- not pharmacologically reversible
-depolarizes causing inhibition of nicotinic receptor impulse, then repolarizes to cause paralysis
-ultra short acting, 1 min onset, 4 min action
- hydrolyzed by butrylcholinesterases
- some histamine
-hyperkalemia from intracellular potassium release

Question 15

neostigmine

Answer 15

ace inhibitor that can reverse competetive nmj blockers

Question 16

atenolol

Answer 16

-antihypertensive
-beta 1 selective antagonist
-decreased sv by ventricular b1
-decreased hr by sa node b1
-temporary increase in tpr (baroreceptor reflex)

Question 17

propranolol

Answer 17

-antihypertensive
-beta non selective antagonist
- same as atenolol except not selective

Question 18

prazosin

Answer 18

-antihypertensive
-alpha a1 selective antagonist
-block a1=vasodilation
- temporarily increase cardiac output (baroreceptor reflex)
-no real positive considerations
–causes hypotension (first dose phenomena)
–reflex tachycardia
–fluid retention

Question 19

carvedilol

Answer 19

-antihypertensive
-beta(decreased co) and alpha 1 antagonist(decreased tpr)
-competitive

Question 20

clonidine

Answer 20

-antihypertensive
-alpha 2 selective agonist
-sympatholytic
- reduce cns sympathetic activity
- baroreceptor reflexes maintained
- rebound hypertension if discontinued

Question 21

aliskiren

Answer 21

-antihypertensive
-renin inhibitor
prevents angioteninogen to ang 1
- efficacious and well tolerated

Question 22

benazepril

Answer 22

-antihypertenisve
-ace inhibitor
-prevents ang1 to ang 2
-decreased sympathetic ns activity
- decrease vasoconstriction
-decrease tubular sodium and water retention
- decrease collecting duct water absorption
- efficacious and well tolerated

Question 23

vasodilators

Answer 23

-disrupt excitation contraction coupling in vascular smooth muscle
- ec coupling
—depolarization activated calcium chennels from sarcoplasmic reticulum. increase myosin light chain kinase which makes contraction

Question 24

prazosin

Answer 24

-vasodilation
-alpha 1 selective antagonist

Question 25

nifedipine

Answer 25

-vasodilator
-vascular specific calcium channel antagonist (no effect on sa or av nodes
- calcium channel blocker (allosterically decrease ca channel activity)
-temp increase co due to baroreceptor reflex

Question 26

nitroglycerine

Answer 26

-vasodilator
-exogenous no donor
-pure is explosive
- iv sublingual, oral, transdermal
- predominantly venous dilation
-decreases myocardial o2 demand
- manage chest pain, coronary artery disease, congestive heart failure,
,tolerance develops over time

Question 27

sildenafil

Answer 27

• vasodilator
• pde5 inhibitor
  -pde5 converts cGMP to 5’GMP
  -so increases cGMP
  -more cGMP=more PKG= less calcium= vasodilation
  -pde5 is predominantly on pulmonary arteries

Question 28

overall diuretics

Answer 28

-increase sodium and water excretion
- decrease blood volume
- decrease preload and co
- decrease bp

Question 29

acetazolamide

Answer 29

-carbonic anhydrase inhibitor
-carbonic anhydrase catalyzes the conversion of co2 and water to carbonic acid
-ca inhibition (caiv) in the tubule lumen accumulation of hco3
-ca inhibition (caII) in tubule cells decreased hco3 formation and reabsorption
-increase in bicarbonate and sodium in pct
-promotes excretion of hco3
-mild diuresis and net loss of hco3
-metabolic acidosis

Question 30

mannitol

Answer 30

-diuretics
- osmotic diuretic
- do not bind to receptors
-small non toxic molecules which are freely filtered into the tubular lumen but not reabsorbed
-keeps water in tubule via osmosis
-oppose osmotic pull of reabsorbed sodium
- more h2o excreted/ less reabsorbed
-used in emergency situations like cerebral edema, glaucoma, and renal failure
not used for peripheral edema because it can cause an initial rise in extracellular fluids and does not promote sodium elimination

Question 31

furosemide

Answer 31

-diuretic
-loop diuretic
-block reabsorption of na cl and k
-increased exccretion of na cl ca k and water
- ihibit na k 2 cl symporter in the thick ascending limb
-high cieling diuretic. very effective
-used in edema heart failure renal dysfunction liver dysfunction and hyperkalemia
-side effects are hypokalemia, ototoxicity and water depletion

Question 32

hydrochlorothiazide

Answer 32

-thiazide diuretic
-block reabsorption of na and cl
-increased excretion of na cl and k
-blocks nacl symporter in dct
-moderate diuresis
-blocks 5% na reabsorption
-useful in long term treatment of hypertension and heart failure
-decrease ca2 excretion to help with oesteoperosis and kidney stones
- side effects are k depletion, hyperlipidemia, glucose intolerance, water depletion

Question 33

amiloride

Answer 33

• k sparing diuretic
  -collecting tubule
  -na channel inhibitor
  -weak diuretic
  -used in mild to moderate hypertension
• promote k reabsorption
  -treat hypokalemia
  -useful in combination with thiazide or loop
  side effects hyperkalemia

Question 34

procainamide

Answer 34

-antiarrythmic
-class 1A sodium channel blocker
-moderate conduction slowing
- moderate sodium channel blockade
-increases effective refractory period
- used in supraventricular tachycardia
- blocks open na channels leading to an increased threshold of excitability

Question 35

lidocaine

Answer 35

-class 1b sodium channel blocker
-antiarrythmic
-little change in conduction velocity
-shortens refractory period
-binds to inactivated sodium channels
—keeps them in inactivated state
—depolarization =inactivation
-effect is more in depolarized tissue
- less automaticity in deplarized cells
- rapid kinetics at normal resting membrane potentials
-slower kinetics at depolarized resting membrane potentials (damaged cells)
-used in ventricular tachycardia

Question 36

flecainide

Answer 36

-class 1c sodium channel blocker
-antiarrythmic
-little change in refractory period
-profound decrease in conduction velocity
-used in life threatening ventricular tachycardia or fibrillation and for the treatment of refractory supraventricular tachycardia

Question 37

amiodarone

Answer 37

-class III AP prolonging antiarrhythmic
-block k channels prolonging action potential
- dont affect na channels so velocity is not affected
-side effects include arrythmias, pulmonary fibrosis, thyroid issue, rash, grayness

Question 38

diltiazem

Answer 38

-class IV non vascular specific calcium channel blocker antiarrhythmic
-primary effect slows av nodal conduction
- decrease ventricular response to atrial fibrillation
- well tolerated
-av nodal block with high doses

Question 39

digoxin

Answer 39

• na pump inhibitor antiarrhythmic
• decrease av nodal conduction

Question 40

dobutamine

Answer 40

-beta 1 stimulation
-cardiac contraction modulator
-ceiling effect(can onlystimulate heart so much)
- short term use (keep patient alive)
-increase sympathetic tone during heart failure

Question 41

milrinone

Answer 41

-cardiac contraction modulator pde3 inhibitor
-increased camp levels= more pka=more ca= increase contraction
-mimics b1 stimulation
-ceiling effect

Question 42

digoxin

Answer 42

cardic contraction modulator indirect na/ca exchanger inhibition
-decreases calcium efflux
-limits na ca exchanger indirectly
- cardiac glycoside
-na k atpase blocker (low intracellk, hi intracell na)
-more na in cell decreases ca effluc through exchanger
- can cause av block

Question 43

pimobednan

Answer 43

cardiac contraction modulator calcium sensitizer
-sensitizes contractile machinery to calcium-
-related to an increased affinity of troponin c for calcium
-