Pharmacology

Question 1

Pharmacokinetics is

Answer 1

the movement of a drug within the body. It includes the study of ADME.

Question 2

ADME = ?

Answer 2

A = Absorption - getting thru membranes to circulation
D = Distribution - movement of a drug from general circulation into the tissue spaces
M = Metabolism/Biotransformation - making the drug more suitable for elimination. Sometimes deactivates the drug.
E = Elimination removal of a drug/metabolites from the body.

Question 3

Pharmacodynamics is

Answer 3

what the drug does to the body.
Dose/Response relationships
Drug-Receptor interactions: agonist, antagonist, inert binding

Question 4

When does the “clock” on a patent start running on a drug patent? How long does it last?

Answer 4

Starts running at the time of Investigational New Drug IND application submission.
A patent lasts for 20 years.

Question 5

What is an orphan drug?

Answer 5

Drugs developed for diseases with low incidence in the U.S.

Question 6

What is a Pregnancy Category A?

Answer 6

A - Adequate, well controlled studies with pregnant woman have not demonstrated a risk to the fetus in the first trimester and no evidence of risk in later trimesters.

Question 7

What is a Pregnancy Category B?

Answer 7

B - Animal studies no risk to the fetus.
No studies on pregnant women.
OR Animal studies - adverse effect, but adequate well-controlled studies on pregnant women have not demonstrated a risk to the fetus.

Question 8

What is a Pregnancy Category C?

Answer 8

Animal study - adverse effect
No adequate well-controlled human studies
Benefit to Mother acceptable despite potential risks.
OR - No animal or human study.

Question 9

What is a Pregnancy Category D?

Answer 9

Evidence of human fetal risk through adequate well-controlled observational studies. BUT benefit outweighs potential risk.

Question 10

What is a Pregnancy Category X?

Answer 10

Good Studies show Fatal abnormalities. DO NOT USE DRUG ON PREGNANT WOMEN.

Question 11

Schedule I drugs

Answer 11

High abuse potential. No use other than research. Ex. Heroin, LSD, Marijuana

Question 12

Schedule II drugs

Answer 12

High Abuse Potential associated with severe dependence. (Psychologic and Physiologic) Ex. narcotics, amphetamines, barbiturates

Question 13

Schedule III drugs

Answer 13

Less abuse potential with moderate dependence liability. Non-barbituate sedatives, anti-anxiety agents, and non-amphetamines stimulants, and narcotics in combo. ex. codeine/acetametaphine

Question 14

Schedule IV

Answer 14

Less Abuse Potential with limited dependence. Some sedatives, anti-anxiety , non-narcotic analgesics. ex. Valium

Question 15

Schedule V

Answer 15

Limited abuse potential. products with sm amts of narcotics (codeine) antitussives, anti-diarreals. Purchased from pharm w/o prescript. Nearly OTC.

Question 16

What is a Gap Junction?

Answer 16

Protein that permits substances to pass btwn the cells w/o entering the ECF. (cytoplasmic tunnel.

Question 17

Digoxin - mechanism and result

Answer 17

Competes with the K+ ions on the Na+/K+ ATPase pump. Increases the force of contraction.

Question 18

Penicillin and Probenecid

Answer 18

Competitive antagonists for excretion carrier sites. Probenecid allows penicillin to have a greater 1/2 life. Probenecid occupies kidney excretion proteins before the penicillin b/c of its increase affinity for that protein binding site. Carrier Mediated Drug Transport.

Question 19

Passive Diffusion

Answer 19

Lipid solubility and Fick’s Law

Question 20

Facilitated Diffusion

Answer 20

Carrier Dependent - saturation dependent, requires No energy but an electrochemical potential.

Question 21

Paracellular pathway

Answer 21

Movement through intercellular channels - gaps btwn cells. Key pathway for drug passage. Principle driving force is hydrostatic pressure. Also onconic pressure, and drug concentration.

Question 22

What is the principle transmembrane process for lipid soluble drugs?

Answer 22

Passive (simple) Diffusion

Question 23

The Rate of Diffusion depends on? (Fick’s Law)

Answer 23

(Concentration gradient x SA x Diffusion Coef)/Membrane Thickness

Question 24

Most Drugs exist as weak electrolytes:

What does that mean? Why?

Answer 24

Weak acid: RH = (R-) +(H+)
Weak Base: RH + H+ = RH2+

This allows molecules to transverse through different layers of a membrane both hydrophobic and hydrophilic.

Question 25

What does a pKa of 4.5 mean?

Answer 25

It means that at a pH of 4.5 the molecule will dissociate into 50% ionized and 50% non-ionized. pKa is a constant specific to each drug.

Question 26

Ionized molecules pass through

Answer 26

Water

Question 27

Non-ionized molecules pass through

Answer 27

lipids

Question 28

A weakly acidic drug will accumulate on the acid or base side of the membrane?

Answer 28

On the basic side. A weakly basic drug will accumulate on the acidic side.

Question 29

Le Chatlier’s Principle

Answer 29

Changes in a system that was once in equilibrium will tend to move toward re-establishing the equilibrium.

Question 30

Name the pH of
blood
CSF
Breast Milk

Answer 30

Blood = 7.4
CSF = 7.35
Breast Milk = ~6.8
pH differences are only significant for passive diffusion. Important in distribution through protected tissue.
=> a weak acid would accumulate in the blood.
=> a weak base would accumulate in the CSF and/or breast milk

Question 31

Name the Restricted Tissue Spaces:

Answer 31

Blood-Retinal Barrier, Testis, Blood-Brain Barrier, Breast, Placental Barrier

Question 32

What determines the rate of Drug distribution after drug absorption?

Answer 32

Cardiac Output
Regional Blood Flow
Capillary Permeability
Tissue Volume
Drug lipid solubility (small limitation)

Question 33

First Phase and second phase - what tissues receive the greatest drug distribution?

Answer 33

1) liver, kidney, brain (restricted), lungs
2) Muscle, most viscera, skin and fat. (slower)

Usually drugs distribute rapidly because of the highly permeable membrane of the capillary endothelial membrane.

Question 34

Drug-Protein binding. What is it?

What proteins are involved?

Answer 34

The binding of the drug to a protein:
Albumin
Lipoproteins
Erythrocytes
Alpha1-Acid Glycoprotein

The bound portion of a drug is not available for pharmacological response.
Can’t get through membranes by any mechanism.
Can’t be filtered in the Glomerulus
Can’t pass into hepatocytes

Question 35

Perfusion Rates (%CO) of 
Kidney
Brain 
Liver
Muscle
Placenta

Answer 35

Kidney = 20
Brain = 12
Liver = 24
Muscle = 23
Placenta = 10

Question 36

Apparent Volume of Distribution

Answer 36

Not a physical measurement!

Calculation of the volume needed to contain the amount of drug homogeneously distributed in the body at the concentration of the blood, plasma or water.

The volume in which an administered drug is distributed. In equilibrium the sampling of drug from one compartment should equal the drug concentration in all other compartments.

Question 37

The typical compartments considered when describing drug distribution

Answer 37

plasma fluid, interstitial fluid, intracellular fluid.

Question 38

Albumin:
Where is it synthesized?
What is it’s T1/2
Significance?

Answer 38

Liver
17 to 18 days
Maintains osmotic pressure of the blood.
MOST SIGNIFICANT PROTEIN FOR BINDING WEAK ACIDS.

Question 39

Alpha1-Acid Glycoprotein Importance?

Answer 39

Most important protein involved in the binding of drugs that are weak bases.

Question 40

Causes of Hypoalbuminemia

Answer 40

Hospitalization - Protein-Calorie Malnutrition. Decreased albumin when healing.
Absorption Deficiencies: poor absorption of dietary protein
Chronic Liver Disease (Cirrhosis)
Nephrotic Syndrome

Question 41

Nephrotic Syndrome =

Answer 41

Hyperlipidemia, Edema (hypovolemia) and Hypoalbuminemia

Question 42

Problems with Route Administration/Saturation of proteins binding sites

Answer 42

Rapid IV: Doesn’t bind fast therefore there is too much active drug unbound to protein.
IM: Exposure to other proteins: Cause a Drug Reservoir

Question 43

Drug reservoir

Answer 43

tissue proteins bind the drug. This can result in toxicity or prolonged drug action.
ex. Tetrocyclines in pregnant women and children - accumulates in teeth and bones.

Question 44

Major Organs involved in drug clearance:

Answer 44

Liver, Kidney Lesser: Sweat, Lungs, GIT (Bacteria that act like liver) Breast Milk

Question 45

Two mechanisms for drug clearance

Answer 45

Excretion and Metabolism (biotransformation)

Biotransformation is an enzymatic process that begins in the GIT.

Question 46

Two types of biotransformation reactions

Answer 46

From Lipophilic to Hydrophilic to Increase lipid solubility:
Phase I: Oxidation/Reduction - usually make it inactive. Although sometimes it results in active intermediate formation.
Phase II: Synthetic Reactions that enhance polarity and decrease lipid solubility (Makes it more water soluble)

Question 47

What are Prodrugs?

Answer 47

They require biotransformation in order to become an active metabolite that can elicit a pharmacological response.

The are designed to be inactive until metabolized to an active form.

Question 48

How can biotransformation affect distribution of a drug?

Answer 48

Increased polarity will limit movement through a plasma membrane, enhance renal excretion by reducing passive reabsorption.
Also will usually inactivate or decrease the pharmacologic activity of the drug

Question 49

What is the half life of a drug? What can affect the half life?

Answer 49

The half-life of a substance, usually denoted by t1/2, is the time taken for half of the dose to be eliminated or metabolized. A change in the biotransformation can change the half life. Things the change the rate of biotransformation Age, Nutrition, Disease, DDI. If the change is due to another drug it is a drug-drug interaction.
Liver disease increases half-life.

Question 50

What is an Enzyme Dependent Biotransformation?

Answer 50

Functions to unmask or introduce a functional group commonly making the drug more polar although it is sometimes, modified or enhanced.

Question 51

What is the enzyme that is responsible for the hepatic metabolism of over 50% of all clinically prescribed drugs?

Answer 51

CYP3A4
with CYP2D6 and you will cover 80% of all drugs.
Isoforms of P450

Question 52

What is the rate limiting step of biotransformation?

Answer 52

Phase II requires substrates to alter the drug metabolite. if the substrate is unavailable then the drug will accumulate and increase the t1/2. If phase II occurs w/o Phase I a toxic metabolite can be created instead of an easily excretable metabolite.

Question 53

What substrates are required for acetaminophen to be metabolized in phase II?
In phase I?
What is the toxic metabolite called?

Answer 53

Phase II: Glucoronide or Sulfate(these are polar and water soluble)
Phase I: Glutathione
NAPQI

Question 54

What drugs do elderly patients have a difficult time absorbing do to their decreased capacity?

Answer 54

Benzodiazepines, beta blockers, TCA (tricyclic antidepressants), barbituates

Question 55

What happens when chloramphenicol is not adequately metabolized?

Answer 55

It is a broad spectrum antibiotic. It can cause Grey-baby syndrome.

Question 56

Enzyme Induction is…

Problems that can occur are?

Answer 56

an enzyme that increases the metabolism of the inducing drug. It can produce an apparent drug tolerance, with drug-drug interaction-toxicity can result with the discontinuation of the inducing drug if the dose had been adjusted to the drug being metabolized.
Can involve new enzyme synthesis.

Question 57

What is an enzyme inducer? What are some examples?

Answer 57

An enzyme inducer is a type of drug that increases the metabolic activity of an enzyme either by binding to the enzyme and activating it. Barbituates and Phenytoin,(accelerate the metabolism of coumadin) Tobacco smoke, St. John’s Wort.

Question 58

How does enzyme inhibition occur? Examples.

Answer 58

Some drugs inhibit the enzyme inducers. these drugs form complexes with cytochrome P450. Results in toxicity &/or increased t1/2.
Examples: Grapefruit, Disulfiram(Antabuse), Erythromycin & Terfenadine => Torsades de pointes. TSA, SSRI’s, Ioniazid

Question 59

How does intestinal microflora affect drug metabolism?

Answer 59

Anaerobic microorganisms are rich in reductases. They can hydrolyze and neutralize glucuronide conjugates and if it is lipid soluble it can get reabsorbed into the intestines. Birth Control needs to be reabsorbed to work for a full cycle. ABX can mess that up.

Question 60

What is the principle mechanism for excreting a drug?

Answer 60

Renal excretion via Glomerular filtration

Question 61

Glomerular filtration of a drug is dependent on? What is the driving force?

Answer 61

Size and shape but not charge.
Arteriole pressure within the glomerular capillaries both afferent and efferent. Vasodilation and constriction are very significant in drug excretion.

Question 62

Why would you try to alkalinize urine output via bicarb?

Answer 62

If there is a weak-acid drug/toxin that you would like to remove from the system it will more likely stay in the renal tubules if it is a more basic environment.

Question 63

Biliary excretion occurs when…

Why would a drug get reabsorbed in the gut?

Answer 63

the drug has already been metabolized.

If a bacteria had hydrolyzed the conjugate, it could get reabsorbed. Ex. digoxin, chloramphenicol, cardiac glycosides.

Question 64

What is Bioavailability?

Answer 64

Fraction of the administered dose that reaches general circulation in unchanged form. %age of total dose administered as compared to IV administration.

Question 65

What is Bioequivalence?

Answer 65

An FDA way to compare Generics to trade names. All though something may have bioequivalence there still may be clinical differences, not to mention $ differences.

Question 66

What is the Therapeutic window?

Answer 66

It is the dose of a drug that keeps it above the Minimum Effective Concentration for the desired response and below the MEC for the Adverse Drug Reaction. Continuous Drug Dosing is designed to keep the drug level in the therapeutic range.

Question 67

What is the EC50 in a Maximal Effect vs potency graph?

Answer 67

Effective Concentration in 50% of the population. It is a good way to compare drugs on the basis of relative potency. Graphed to the left is more potent. Lower angle less effective with each increase in potency.

Question 68

TI = LD50/ED50 what does this mean?

Answer 68

Theurapeutic Index = Dose needed to kill 50% of popn/ the dose needed to be effective in 50% of patients.

Question 69

TI = TD50/ED50

Answer 69

Theurapeutic Index = toxic dose in 50% of people/effective dose in 50% of people.
this can have many meanings. Toxic could have many meanings…head ache to stomach ache etc.. Therefore there can be more than 1 TI per drug. The bigger the TI the better.

Question 70

In regards to Drugs

1) Full agonist =
2) Partial agonist =

Answer 70

1) A full agonist elicits a maximum response from an organ or tissue when all receptors of the tissue or organ are occupied.
2) A partial agonist in the same situation elicits a partial response.

Question 71

Antagonist is

Answer 71

a drug that binds to the same receptor as an agonist (drug or endogenous substance) but does not activate the receptor. Reversible or Irreversible

Question 72

If an antagonist is reversible what does that mean for the agonist?

Answer 72

At a higher dose the agonist can overcome the effects of the antagonist.