Pharmacokinetics/Pharmacodynamics (Exam I)

Question 1

What does TTE mean in regards to pharmacodynamics/kinetics?

Answer 1

• Titrated to effect

Question 2

Receptors are usually __________.

Answer 2

• Proteins

Question 3

Almost all drugs are reversible except for drugs that are ________ ______.

Answer 3

• Covalently bonded

Question 4

Regarding the graph below: What type of drug would you expect looking at the orange line? (agonist, antagonist, partial, inverse, etc.)

Answer 4

Orange = Full Agonist

Question 5

Regarding the graph below: What type of drug would you expect looking at the blue line? (agonist, antagonist, partial, inverse, etc.)

Answer 5

Blue = Strong partial agonist

Question 6

Regarding the graph below: What type of drug would you expect looking at the yellow line? (agonist, antagonist, partial, inverse, etc.)

Answer 6

Yellow = Weak partial agonist

Question 7

Regarding the graph below: What type of drug would you expect looking at the black line? (agonist, antagonist, partial, inverse, etc.)

Answer 7

Black = Antagonist

Question 8

Regarding the graph below: What type of drug would you expect looking at the green line? (agonist, antagonist, partial, inverse, etc.)

Answer 8

Green = Inverse agonist

Question 9

What two mechanisms can occur with receptors that will increase or decrease their expressed quantity?

Answer 9

• Downregulation & Upregulation

Question 10

What is tachyphylaxis and what drug was given as an example in lecture?

Answer 10

• Tachyphylaxis = rapid tolerance development
• Ex. Ephedrine

Question 11

What sort of expression of β receptors would expect to see in a patient dealing with a chronic pheochromocytoma?

Answer 11

• Downregulation of β receptors in response to the increase in catecholamines

Question 12

What three receptor locations were discussed in lecture?

Answer 12

• Lipid Bilayer
• Intracellular
• Circulating in plasma

Question 13

What type of drugs interact with intracellular receptors?

Answer 13

• Insulin, steroids & milrinone

Question 14

What type of drugs interact with circulating protein receptors?

Answer 14

• Anticoagulants

Question 15

What type of drugs interact with membrane bound receptors?

Answer 15

• Opioids, benzos, β-blockers, NMBs
• Most common (especially for anesthetics)

Question 16

Acidic drugs bind primarily to ________.

Answer 16

• Albumin

Question 17

Basic/Alkalotic drugs bind primarily to _______.

Answer 17

• α1-acid glycoprotein

Question 18

How much bound drug crosses protein membranes?

Answer 18

• 0% (only “free” unbound drugs cross membranes)

Question 19

What degree of volume of distribution (V_D) would be seen with drugs that are poorly protein bound and lipophilic?
What examples were given in lecture?

Answer 19

• ↑ ↑ ↑ V_D
• Thiopental & Diazepam

Question 20

What degree of volume of distribution (V_D) would be seen with drugs that are highly protein bound and/or hydrophilic?
What example(s) were given in lecture?

Answer 20

• ↓ ↓ ↓ V_D
• Warfarin

Question 21

What drug examples were given in lecture as having active metabolites?

Answer 21

• Diazepam
• Propanolol (Inderal)
• Morphine (2 metabolites)
• Codeine (& other prodrugs)

Question 22

What does metabolism convert active drugs into?

Answer 22

• H₂O soluble & inactive metabolite forms

Question 23

What is the most common way that drugs are metabolized?
What other ways exist?

Answer 23

• Hepatic CYP450’s
• Hoffman Elimination, Ester hydrolysis, Kidneys, & Tissue Esterases (GI tract & placenta)

Question 24

What is the purpose of Phase I reactions?
What chemical processes occur during these reactions?

Answer 24

• Increase polarity & prepare for phase II
• Oxidation/Reduction & Hydrolysis

Question 25

What occurs during Phase II reactions?
By what chemical process does this occur?

Answer 25

• Covalent bond with polar molecule = H₂O-soluble
• Conjugation

Question 26

What is the most common CYP450 enzyme?
How many drugs are estimated to be metabolized by this enzyme?

Answer 26

• CYP3A4
• > 50% (opioids, benzos, LA, antihistamines, etc)

Question 27

What is CYP450 induction?
Give an example.

Answer 27

• Drug induces enzyme to increase enzyme activity.
• Phenobarbitol induces enzymes & metabolism of other drugs is increased.

Question 28

What is CYP450 Inhibition?
Give an example.

Answer 28

• Drug inhibits enzyme & decreases enzyme activity.
• Ex. Grapefruit juice inhibits CYP activity and some drugs become more toxic.

Question 29

What is the formula for Rate of Drug Metabolism?

Answer 29

• R = Q ( C-inflow - C-outflow)

or

• R = Q (ΔC)

Question 30

What is flow-limited hepatic clearance?

Answer 30

• When Q limits metabolic rate

Question 31

What is capacity-limited hepatic clearance?

Answer 31

• Liver CYP450’s ability to metabolize is the limiting factor

Question 32

What are the three components of Renal Clearance discussed in lecture?

Answer 32

• Glomerular filtration
• Active tubular secretion
• Passive tubular reabsorption

Question 33

What two factors determine glomerular filtration of drugs?

Answer 33

• GFR
• Amount of drug that is protein-bound

Question 34

What drug example was given in lecture that is subject to active tubular secretion?

Answer 34

• Penicillins

Question 35

What increases the tubular reabsorption of certain drugs?
What decreases the tubular reabsorption of drugs?

Answer 35

• Lipophillic = reabsorbed
• Hydrophillic = no reabsorption; excreted in urine.

Question 36

Differentiate Elimination Half-Time & Elimination Half-Life.

Answer 36

• Half-Time = time to elimination of 50% of drug from the plasma.
• Half-Life = time to elimination of 50% of drug from all tissues.

Question 37

80mg of a drug is given with the E 1/2 time known to be 5 minutes. What will the plasma concentration of the drug be in 20 minutes immediately after giving a second 80mg dose?

Answer 37

• 85mg

(5mg from original dose, 80mg from second dose)

Question 38

What is the context-sensitive half-time?
Give an example of a drug with a low context-sensitive half-time vs a high context-sensitive half-time.

Answer 38

• Time to a 50% decrease after an infusion is discontinued. (essentially measures increasing tissue accumulation affecting how long it takes for a drug to leave the body)
• Fentanyl = higher context half-time
• Propofol = lower context half-time

Question 39

What drug class is comprised of weak acids?

Answer 39

• Barbiturates

Question 40

What drug class is comprised of weak bases?

Answer 40

• Local Anesthetics & Opioids

Question 41

Ionization numbers that are ________ cross lipid bilayers very well.

Answer 41

• negative

Question 42

If the drug is a weak acid then PK ______ pH.

Answer 42

After

Question 43

If the drug is a weak base then PK ______ pH

Answer 43

Before

Question 44

Aspirin (weak acid; PK = 7.7) travels to blood with a pH of 7.4. Will this aspirin work well?

Answer 44

• 7.4 - 7.7 = -0.3
• Yes; ionization is negative therefore non-ionized & crosses barriers.

Question 45

Morphine (PK = 8.0) is injected into blood with a pH of 7.2. What will occur with this morphine?

Answer 45

• 8.0 - 7.2 = +0.8
• Ionization is + so drug will not cross membranes well and thus not work well.

Question 46

What is the process of ion trapping?

Answer 46

• When a drug is ionized and thus accumulates somewhere without being “used up” (mother-fetus example).

Question 47

What factors affect pharmacodynamics in elderly patients?

Answer 47

• ↓CO (affects brain & liver)
• ↓ protein binding
• ↑ body fat

Question 48

Differentiate acute vs chronic alcohol ingestion effects on pharmacodynamics.

Answer 48

• Acute: EtOH using all CYPs (drugs will “stick around” longer)
• Chronic: less of an effect, body has usually compensated.

Question 49

What is an example of a genetic phenotype correlating with increased anesthetic needs?

Answer 49

• Redheads

Question 50

In the graph below, which line would in indicate the most efficacious drug?

Answer 50

• Red

Question 51

In the graph below, which line would in indicate the most potent drug?

Answer 51

• Blue

Question 52

What is relative potency (time to drug effect)?

Answer 52

• Lag time between administration & effects (fent vs alifentanil)

Question 53

How is Therapeutic Index calculated?
What would a narrow TI indicate?

Answer 53

• LD₅₀/ED₅₀
• Narrow TI = more “dangerous” drug requiring careful monitoring.

Question 54

Differentiate LD₅₀ and ED₅₀.

Answer 54

• LD₅₀ = dose at which 50% of patients die.
• ED₅₀ = dose at which 50% of patients experience drug effect.

Question 55

What are chiral compounds?

Answer 55

• Molecules with asymmetric centers

Question 56

What are the characteristics of enantiomers?

Answer 56

• Chemically identical
• Mirror images
• Non-superimposable

Question 57

What term(s) would indicate a rightward rotation light in an optical isomer?

Answer 57

• Dextrorotary (D) or Rectus

Question 58

What term(s) would indicate a leftward rotation light in an optical isomer?

Answer 58

• Levoorotary (L) or Sinister

Question 59

What is a 50/50 mixture of optical isomers called?
Why does it matter?

Answer 59

• Racemic
• These compounds will have differing characteristics, effects, & ADME

Question 60

Which isomer of Ketamine is more potent and results in less delirium?

Answer 60

• S-Ketamine

Question 61

Which isomer of bupivicaine exhibits less cardiotoxicity?

Answer 61

• L-Bupivicaine

Question 62

Why would one want Cisatracurium over atracurium?

Answer 62

• Atracurium causes massive histamine release. Cisatracurium does not.