Principles of Drug Disposition (Cynthia Valencia, MD)

Question 1

Picture the Therapeutic Triangle in your head

Answer 1

Question 2

T/F: Pharmacokinetics is concenred with the relationship between “concentration” and “dose”

Answer 2

True

Question 3

What is the basis of pharmacogenetics?

Answer 3

One size fits all may not always apply to drugs

Question 4

What is the connection between pharmacokinetics and pharmacodynamics?

Answer 4

Concentration

Question 5

What are the objectives of pharmacokinetics?

Answer 5

1. Prediction of therapeutic doses
2. Adjustment of individual drug dosage
3. Correlation between therapeutic blood concentration and pharmacologic effects

Question 6

What are the uses of pharmacokinetics?

Answer 6

1. Maximize efficacy and safety
2. Measure drug concentration in relation with effects and toxicity
3. Determine therapeutic human doses

Question 7

T/F: Digitalis and cyclosporin have a high therapeutic index

Answer 7

False

They have a low therapeutic index.

Question 8

Rats have how many times more metabolic capability than humans?

Answer 8

20 times

Question 9

What are the factors affecting the prescribed dose?

Answer 9

Patient compliance

Medication errors

Question 10

What are teh factors affecting administered dose?

Answer 10

Rate and extent of absorption

Body size and composition

Distribution in body fluids

Binding in plasma and tissues

Rate of elimination

Question 11

What are the factors affecting concentration at locus of action?

Answer 11

Physiological variables

Pathological factors

Genetic factors

Interaction with other drugs

Development of tolerance

Question 12

What are the factors affecting the intensity of effect?

Answer 12

Drug-receptor interaction

Functional state

Placebo effects

Question 13

What variable is required to determine the quality of generic drugs?

Answer 13

Bioavailability

Question 14

T/F: Distribution is primarily concerned with protein-binding, drug reservoirs and the apparent volume of distribution

Answer 14

True

Question 15

What are the two metabolic enzyme systems?

Answer 15

Hepatic microsomal

Non-microsomal

Question 16

What are the pharmacokinetic principles of elimination?

Answer 16

Clearance and half-life

Question 17

What are the different membrane transport mechanisms?

Question 18

What are the two forms of specialized transport?

Answer 18

Carrier-mediated transport and pinocytosis

Question 19

Active transport is subject to (1), (2), and (3) by co-transported compounds.

Answer 19

(1) saturability
(2) selectivity
(3) competitive inhibition

Question 20

Enumerate the factors that affect absorption

Answer 20

Physical state

Degree of ionization and lipid solubility

Concentration of drug

Area of absorbing surface

Gastric emptying

Route of administration

Question 21

Define: First Pass Effect

Answer 21

Drug undergoes disintegration and dissolution even before reaching the target site

Question 22

How many % of oral medication is destroyed by the liver before it reaches the heart?

Answer 22

90%

Question 23

Solids must undergo what processes before absorption?

Answer 23

Disintegration

Disaggregation

Dissolution

Question 24

On average, how long does gastric emptying take?

Answer 24

30 mins - 1 hours

Question 25

What are the factors that affect absorption of an ingested pill?

Answer 25

1. Disintegration time
2. Dissolution rate
3. Gastric emptying time
4. Presence of drug-metabolizing enzymes in intestinal wall
5. pH of lumen fluid
6. Surface area
7. Intestinal transit time
8. Transport across columnar cell

Question 26

T/F: All strong acids and bases are poisons.

Answer 26

True

Question 27

T/F: Most weak acids and bases exist in their ionized form

Answer 27

False

They exist in their non-ionized forms.

Question 28

Give examples of weak acids

Answer 28

Aspirin and acetylsalicylic acid

Question 29

Discuss the relationship between acid/base ionization and absorption

Answer 29

Protonated weak acid and deprotonated weak base are easily absorbed

Question 30

Give an example of a weakly basic drug

Answer 30

Amphetamine

Question 31

How do you treat poisoning with an acidic or basic drug?

Answer 31

Alkalinize or acidify the urine to convert the compound into the more excretable form

Question 32

Which is more hydrophobic - digoxigenin or digitoxigenin?

Answer 32

Digitoxigenin

Question 33

Which can be orally administered - digoxigenin or digitoxigenin?

Answer 33

Digoxigenin

Question 34

Which is more easily excreted through the kidney - digoxigenin or digitoxigenin?

Answer 34

Digoxigenin

Question 35

GIve examples of digoxin glycosides

Answer 35

Digitoxigenin and digoxigenin

Question 36

T/F: Higher concentration in solution = higher concentration in plasma

Answer 36

True

Question 37

Compare the surface area of the intestines with that of the stomach.

Answer 37

It is 1000x greater.

Question 38

Will aspirin be partially absorbed in the stomach in teh presence of HCL?

Answer 38

Yes, because it exists as the non-ionized form.

Question 39

What is the relationship between gastric emptying time and absorption?

Answer 39

Shorter GET, greater absorption

Question 40

Why does taking a drug before or after a meal matter?

Answer 40

Drugs can be degraded by the acidic environment of the stomach.

Question 41

What factors increase GET?

Answer 41

1. Hot and heavy meals
2. Vigorous exercise
3. Lying on left side
4. Diseases
5. Atropine, opiate drugs and Ach
6. Emotion, pain and stress

Question 42

What factors decrease GET?

Answer 42

1. Fasting, hunger and cold meals
2. Mild exercise
3. Lying on right side
4. Bilroth’s procedure or Dumping syndrome
5. Prokinetic drugs like cisapride or domperidone

Question 43

What are local routes of administration in deeper tissues?

Answer 43

1. Intraarticular
2. Intrathecal
3. Retrobulbar

Question 44

When is the intraarterial route of administration used?

Answer 44

Emergencies and aggressive therapy (e.g. carotid, femoral and brachial arteries)

Question 45

What are the disadvantages of the oral route of administration?

Answer 45

Patient must be conscious and not vomiting

Not suitable for unpalatable drugs

Question 46

What pain-relieving drug applied to the chest is given to cancer patients? It’s a potent opioid analgesic 1000x more potent than morphine.

Answer 46

Fentanyl TDS

Question 47

What are examples of subcutaneous modes of administration?

Answer 47

1. Dermojet
2. Pellet implantation
3. Silaistic implants

Question 48

T/F: Time to steady state is independent of dosage.

Answer 48

True

Question 49

What determines the fluctuations in blood plasma drug concentration?

Answer 49

Proportional to dosage interval/half-times

Question 50

Steady state concentration is proportional to?

Answer 50

Dosage interval and CL/F

Question 51

Metabolism of estrogen and digoxin by normal gut flora result in?

Answer 51

Increase and decrease of absorption, respectively

Question 52

Why does less than 10% of isoproterenol and disodium cromoglycate reach bronchi?

Answer 52

Destruction by gut wall metabolism and first pass hepatic metabolism

Question 53

Define: Bioavailability

Answer 53

Percentage of active drug that enters systemic circulation as a parent compound

Question 54

What causes the variations in bioavailability?

Answer 54

Metabolism during absorption

Question 55

T/F: Generic drugs have to

Question 56

T/F: Bioequivalence is absolute bioavailability

Answer 56

False

It is relative bioavailability.

Question 57

What are the factors that affect distribution?

Answer 57

1. Cardiac output
2. Regional blood flow/vascular perfusion
3. Relative permeability of tissue membranes to the drug
4. Relative partitioning of drug between tissues and blood

Question 58

T/F: Protein-bound drug is always inactive.

Answer 58

True

Question 59

Give an example of highly bound drugs

Answer 59

Anticoagulants (99% bound; 2% free (i.e. bishydroxycoumarin))

Question 60

Protein binding less than (1) is insignificant.

Answer 60

80%

Question 61

What is the concentration of albumin in the blood plasma?

Answer 61

40 g/L

Question 62

How much drug would you need to saturate plasma albumin?

Answer 62

116 mg/L

Question 63

For drugs with a very narrow margin of safety, what is important?

Answer 63

Protein binding

Question 64

What are drugs with high Vd?

Answer 64

Quinacrine

Digoxin

Meperidine

Amphetamine

Propanolol

Procainamide

Lidocaine

Tetracycline

Question 65

What are drugs with low Vd?

Answer 65

Penicillin G

Theophylline

Gentamycin

Kanamycin

Salicylic Acid

Phenylbutazone

Tolbutamide

Warfarin

Question 66

T/F: Phase 1 of metabolism involves simple reactions, while Phase 2 involves coupling reactions

Answer 66

True

Question 67

What is the rationale behind the use of pro-drugs?

Answer 67

Active form is not palatable at times.

Question 68

Give examples of produrgs and their active forms

Answer 68

Bacampicillin/pivampicillin - ampicillin

Alpha-methyldopa - alpha-methylnorepinephrine

Enalapril - enalaprat

Fluorouracil - fluorodine monophosphate

Levodopa - dopamine

Prednisone - prednisolone

Mercaptopurine - methylmercaptopurineribonucleotide

Question 69

What is the most important drug-metabolizing reaction?

Answer 69

Oxidation

Question 70

What two drugs, when taken together, cause torsades de pointes?

Answer 70

Astemizole and clarithromycin

Question 71

What is the choice of drug for typhoid here in the Philippines?

Answer 71

Chloramphenicol

Question 72

Who are the most sensitive to adverse effects of drugs? most tolerant?

Answer 72

Japanese; Germans

Question 73

Does astemizole have the potential to cause arrythmia in the heart?

Answer 73

Yes, because it affects potassium channels in the heart

Question 74

What is the number one inducer of microsomal drug metabolizing enzyme?

Answer 74

Phenobarbital

Question 75

Where are microsomal DMEs found?

Answer 75

Liver, kidney, intestinal mucosa and lungs

Question 76

Why were infants placed under fluorescent light before?

Answer 76

Light promotes excretion of bilirubin from broken up RBCs.

Question 77

Where can non-microsomal DMEs be found?

Answer 77

Plasma, cytoplasm and mitochondria of liver cells

Question 78

Give examples of DME inhibitors

Answer 78

Allopurinol

Isoniazid

Cimetidine

Itraconazole

Clarithromycin

Ketoconazole

Ciprofloxacin

Metronidazole

Chloramphenicol

MAC inhibitors

Diltiazem

Phenylbutazone

Erythromycin

Sulfonamides

Question 79

T/F: Initial rapid decline of drug reflects distribution of drug throughout the body.

Answer 79

True

Question 80

What is the most important concept in designing a rational regimen for long-term drug administration?

Answer 80

Clearance

Question 81

T/F: Clearance is less reliable than half-life.

Answer 81

False

It’s actually more reliable because it’s more stable.

Question 82

When is clearance optimal?

Answer 82

During teenage years

Question 83

What are the formulas for clearance?

Answer 83

Cl = Vd x Ke

Cl = D/AUC

Cl = Dosing rate/Css

Question 84

What are the two types of drug-drug interaction?

Answer 84

Pharmacodynamic

Pharmacokinetic

Question 85

Describe: Pharmacodynamic Interaction

Answer 85

1. Due to drug interaction at common receptor site
2. Leads to effects greater than a drug acting alone

Question 86

Describe: Pharmacokinetic Interaction

Answer 86

1. Delivery of drug is modified by another drug
2. Increase or decrease of drug concentration at a site

Question 87

How do in-vitro drug interactions come about?

Answer 87

Pharmaceutical or chemical incompatibility

Question 88

How do in-vivo drug interactions come about?

Answer 88

Pharmacologic interaction within the body

Question 89

How do ferrous ions in oral iron supplements diminish absorption?

Answer 89

Formation of insoluble chelates of tetracyline antibodies

Question 90

What causes increased drug delivery?

Answer 90

1. Inhibition of plasma protein binding
2. Inhibition of hepatic drug-metabolizing enzymes (inhibition of ketoconazole)
3. Inhibition of renal secretion (probenecid to keep penicillin around longer)
4. Inhibition of drug transport (ketoconazole inhibits p-glycoprotein)

Question 91

What are examples of drugs that decrease absorption?

Answer 91

Antacids + metoclopramide

Cholestyramine + mineral oil

H2-receptor antagonists + sulfodecylsulfate

Question 92

What are examples of drugs that increase absorption?

Answer 92

Antacids

Metoclopramide

Question 93

What are examples of drugs that affect cellular uptake?

Answer 93

Guanidinium interacting with tricyclic antidepressants blocks hypertensive effect

Question 94

What are examples of drugs that affect protein binding?

Answer 94

Phenytoin (anticonvulsant) - Aspirin - increased free phenytoin

Warfarin - Aspirin - increased free warfarin

Phenytoin - Valproic acid - increased free phenytoin

Question 95

What are the inducers of drug oxidation?

Answer 95

Ethanol

Glutethimide

Phenobarbital

Phenytoin

Rifampin

Question 96

What are the inhibitors of drug oxidation?

Answer 96

Chloramphenicol

Cimetidine

Disulfiram

Ethanol (acute)

Isoniazid

Oral contraceptives

Propoxyphene

Valproate

Question 97

What are the drugs that affect hepatic metabolism?

Answer 97

Digitoxin + Rifampicin

Carbamazepine + Phenytoin

Acetaminophen + Oral Contraceptives (glucuronidation)

Chlordiazepoxide + Cimetidine

Theophylline + Cimetidine

Chlordiazepoxide + Oral Contraceptives (oxidation)

ALL RESULT IN INCREASED CLEARANCE

Question 98

What drugs affect renal excretion and how?

Answer 98

Decreased tubular secretion and clearance

Penicillin + Probenecid

Methotrexate + Aspirin

Procainamide + Cimetidine

Decreased tubular reabsorption & increased clearance

Quinidine + Ammonium Chloride

Increased tubular reabsorption & decreased clearance

Quinidine + Sodium Chloride

Aspirin + Ammonium Chloride