Pharmacology

Question 1

Endogenous

Answer 1

Substance created w/in body

Question 2

Exogenous

Answer 2

Substance created outside of body

Question 3

Titration

Answer 3

Slowly increasing dosage to build tolerance to adverse drug reactions (ADRs)

Question 4

Tachyphylaxis

Answer 4

Tolerance that develops over hours or days

Question 5

Types of intramolecular bonds

Answer 5

Covalent (usually irreversible in body) > ionic > hydrogen > hydrophobic

Question 6

Signaling mechanisms

Answer 6

• Intracellular - drug crosses membrane to intracellular receptor
• Binds w/ transmembrane protein - Ed Scissorhands or scissors in drawer
• Binds w/ and opens/closes transmembrane channel
• G-protein systems

Question 7

Catecholamines

Answer 7

Epi, Norepi, Dopamine

Made by adrenal glands and derived from tyrosine

Question 8

Agonists (full, partial and inverse)

Answer 8

Cause an action
Full - has maximum effect
Partial - less than max effect
Inverse - causes action opposite of an agonist

Question 9

Antagonists (reversible, irreversible, competitive and noncompetitive)

Answer 9

Blocks an agonist’s action at the receptor
Reversible vs irreversible - whether agonist can also bond or not; covalent bond vs others
Comp. vs noncomp. - binds at same or different site as agonist

Question 10

Tapering

Answer 10

Slowly weaning off drug to avoid adverse withdrawal symptoms

Question 11

Mixed agonist/antagonist

Answer 11

Drug w/ agonist effect at one receptor and antagonist effect at another
Not common

Question 12

Common ADRs

Answer 12

GI upset
Hypersensitivity (allergic rx)
Note: ADRs are a type of unpleasant/unwanted side effect

Question 13

Pregnancy categories

Answer 13

A - controlled studies show no fetal risk
B - no fetal risk evidence in human studies; fetal harm remote
C - fetal risk not excluded, adequate studies lacking; risk outweighed by benefit
D - evidence of fetal risk from human studies; benefit may outweigh risk
X - contraindicated

Question 14

Drug schedule classifications

Answer 14

CI - high abuse potential, no accepted medical use
CII - high abuse potential, accepted medical use (w/ restrictions)
CIII - less abuse potential
CIV - low abuse potential (includes OTC)
CV - lowest abuse potential (includes OTC)

Question 15

Type IV Hypersensitivity

Answer 15

T cell-mediated, slow rx, only requires one exposure, often fatal, Steven-Johnson syndrome or toxic epidermal necrolysis (like burns)

Question 16

Acetaminophine

Answer 16

Analgesic, antipyretic

Question 17

Tylenol

Answer 17

Analgesic, , antiinflammatory, NSAID, non-selective COX inhibitor

Question 18

Type I Hypersensitivity

Answer 18

B cell mediated, involves IgE antibodies, rapid rx, requires two exposures, anaphylaxis

Question 19

Pharmokinetics

Answer 19

How body affects a drug - absorption, metabolism, excretion

Question 20

Pharmodynamics

Answer 20

How a drug affects the body

Question 21

Types of DDIs

Answer 21

Pharmakokinetic - changes how drug is absorbed, distributed, metabolized or excreted; usually less drug-specific b/c it affects everything that uses that pathway
Pharmacodynamic - changes how a drug affects the body; a drug’s pharmacodynamic DDIs may be more varied from interacting drug to interacting drug

Question 22

Polypharmacy

Answer 22

Individual taking many drugs

Question 23

ADR

Answer 23

Adverse Drug Reaction

Question 24

Therapeutic threshold

Answer 24

Window between minimum effective dosage and maximum effective dosage (dosage between ED50 to TD50)

Question 25

Inert drugs

Answer 25

Bind to a receptor w/ no direct physiological effect (may have indirect effects)

Question 26

T/F - Most drug effects show a linear change in relation to concentration

Answer 26

False - usually show a greater change at low concentrations - slope becomes flatter at higher doses

Question 27

MEC

Answer 27

Minimum effective concentration

Question 28

Peak effect/max efficacy

Answer 28

Dose where drug has maximum effect

Question 29

Onset of effect

Answer 29

Time between administration and desired effect

Question 30

Therapeutic index

Answer 30

LD50/TD50 - wider TI implies a safer drug

Can vary between effects of the same drug (Ibu. for pain vs inflammation

Question 31

What must be assumed w/ an enhanced response to a given drug dose?

Answer 31

Increase in drug sensitivity

Question 32

What is one way to help avoid tolerance?

Answer 32

Giving drugs in bursts or taking periodic breaks (four days on, one day off)

Question 33

Hyperreactivity is not hypersensitivity

Answer 33

True

Question 34

Metric conversions

Answer 34

kilo (1000) — hecto (100) — deka (10) — base — deci (.1) — centi (.01) — (.001)

Question 35

Half-life

Answer 35

Time required to eliminate 50% of absorbed dose of a drug

Question 36

How do you avoid first pass metabolism?

Answer 36

Enter bloodstream somewhere where you will go to the heart before the liver.
Avoid delivery through intestines or hepatic portal

Question 37

Parenteral administration

Answer 37

w/ a needle - IV, IM, sub cu, intradermal, IO, intrarticular, intralesional, intrathecal (through dura and into spinal canal and CSF), epidural

Question 38

What type of administration route are sublingual and buccal?

Answer 38

Topical
Neither are suitable for high-dose drugs
Avoids first pass metabolism

Question 39

Characteristics of classic topical admin.

Answer 39

Pros - Cheap, treats affected site, low risk of systemic effects, easy to self-administer
Cons - variability in effects, systemic absorption possible, local toxicity

Question 40

Characteristics of respiratory admin.

Answer 40

Pros - good for systemic and local administration, easy to self-administer, cheap, can bypass first-pass metabolism, fast onset
Cons - high potential for abuse, systemic effect for respiratory ailments
Nasal - good perfusion and surface area, may go directly into CSF

Question 41

Characteristics on enteral admin.

Answer 41

Pros - cheap, easy, safe

Cons - variable absorption, upset stomach, first-pass metabolism

Question 42

Infiltration

Answer 42

Fluid from parenteral admin ends up outside vessel

Question 43

Extravasation

Answer 43

Infiltration that causes a blister

Question 44

Lbs/kg

Answer 44

2.2 lbs/kg

Question 45

mL/tsp

Answer 45

5 mL/tsp

Question 46

Enterohepatic circulation

Answer 46

Drug goes through liver, is concentrated and excreted in stomach bile and reabsorbed in GI tract.
Extends duration of drug in body.

Question 47

Clearance

Answer 47

Clearance = (elimination rate)/(drug concentration) = liters/hour
Volume of fluid that would be cleared of the drug

Question 48

Types of drug metabolism

Answer 48

Phase I - uses CYP450 system (mostly isoenzymes CYP3A4 and CYP2D6) to oxidize/reduce/hydrolize drugs; alters pharmacodynamics
Phase II - uses other enzymes to conjugate (add glucuronic acid, sulfate, glycine); affects polarity and H20 solubility and increases clearance

Question 49

T/F - Molecular charge affects glomerular filtration

Answer 49

False

Question 50

Factors that affect tubular reabsorption

Answer 50

pH - weak acids more readily reabsorbed
Nonionized drugs more easily reabsorbed
More alkaline urine increases excretion of weak acids

Question 51

Biliary excretion

Answer 51

Concentration and excretion of drug through liver bile.

Usually involves Phase II metabolism

Question 52

Pulmonary excretion

Answer 52

Works for volatile (usually unchanged) drugs that passively diffuse into lungs.

Question 53

Breast milk excretion

Answer 53

Mostly lipid soluble drugs.

Relatively acidic milk can concentrate weak bases - opt for drugs w/ lower pKa

Question 54

Plasma half-life (elimination half-life)

Answer 54

Time it takes to clear half the drug concentration
Often used to help set dosing intervals.
Estimation - total elimination equals 5 x half-life

Question 55

Dosing to effect

Answer 55

Used when half-life is altered

Uses other, physiological marker (effectiveness or toxicity) to determine dosing

Question 56

Efficacy half-life

Answer 56

Time it takes for a drug to lose half its effect

Question 57

Cmax

Answer 57

Peak serum concentration

Question 58

Loading dose

Answer 58

A stronger initial dose that helps decrease the time until onset of effect

Question 59

Steady-state

Answer 59

Point where drug intake equals drug excretion and plasma concentration is steady
Css = steady state concentration

Question 60

Tmax

Answer 60

Time it takes to reach Cmax

Question 61

COX

Answer 61

Cyclooxygenase
COX-1 - GI activity, kidney perfusion, platelet clotting
COX-2 - inflammation, pain and swelling