Pharmacologic predisposition

Question 1

What are the components of the physiological disposition of drugs? (AMDE)

Answer 1

Absorption, distribution, metabolism, excretion.

Question 2

“1st pass”

Answer 2

Refers to interaction between drug and metabolic systems it encounters when it is absorbed through the GI tract.

Question 3

Partition coefficient

Answer 3

Experimentally determined measure of how lipid soluble a drug is and therefore how readily it will diffuse across a membrane. Higher partition coefficient means more lipid soluble and more rapid diffusion. This only matters for drugs that are absorbed through simple diffusing (primarily).

Question 4

What are some characteristics of drugs that can diffuse across a membrane?

Answer 4

Small and unionized.

Question 5

If a drug is a weak base, which form is unionized (will pass through a membrane)?

Answer 5

The dissociated form

Question 6

If a drug is a weak acid, which form is unionized (will pass through a membrane)

Answer 6

The non-dissociated form (HA)

Question 7

Henerson-Hasselbach equation:

Answer 7

[base]/[acid]=10^(pH-pKa)

Question 8

ion trapping/pH partitioning

Answer 8

When the pH differs on either side of a membrane, there will be a difference in total drug concentration across the membrane.

Question 9

If you have two compartments with different pH separated by a membrane, which compartment will have a higher amount of total drug if the drug is a weak acid?

Answer 9

The more basic compartment will have more total drug.

Question 10

If you have two compartments with different pH separated by a membrane, which compartment will have a higher amount of total drug if the drug is a weak base?

Answer 10

The more acidic compartment will have more total drug.

Question 11

Three advantages and disadvantages of the intravenous route

Answer 11

Advantages: Rapid onset of action, accurate control of blood levels, direct entry to central compartment. Disadvantages: non-removable, rapid injections cause high concentrations (which can lead to adverse events), embolism/fever/excessive fluid loss.

Question 12

Intrathecal

Answer 12

route directly into CNS. For local effects and to circumvent barriers for spinal anesthesia, acute CNS infection, and brain tumors.

Question 13

Does intramuscular or subcutaneous absorb more rapidly?

Answer 13

IM

Question 14

Is IM or SC more likely to cause irritation

Answer 14

SC

Question 15

What is a key shortcoming of the transdermal route?

Answer 15

The agent must me lipid soluble. Abrasions can lead to abrupt increase in the permeability of the epidermis.

Question 16

What are most allergic reactions to in use of transdermal patches?

Answer 16

The adhesive.

Question 17

What are the three enteral routes?

Answer 17

1. Sublingual/buccal 2. Rectal 3. Oral

Question 18

How are drugs absorbed in the sublingual route?

Answer 18

Through the blood supply of the mucous membrane and directly into systemic circulation (no first pass).

Question 19

How are drugs absorbed in the rectal route

Answer 19

Through the mucosa of the rectum, with 50% into the pudendal veins and the systemic circulation, and 50% into the portal circulation.

Question 20

What is the major site of absorption in the oral route?

Answer 20

The small intestine, due to large surface area and a long transit time. Where specifically depends on drug pH and lipid solubility.

Question 21

What determines the rate at which a drug administered through the oral route will be absorbed?

Answer 21

The speed at which the stomach empties. Liquids, ulcers, and pancreatitis increase the speed. Solid food, fats, acids, trauma, GI obstruction can all slow down absorption.

Question 22

Vessel rich group

Answer 22

brain, heart, liver, lung, kidneys

Question 23

Breastmilk is slightly ____________ and therefore ___________ compounds tend to accumulate here relative to plasma

Answer 23

breast milk is slightly acidic, so basic compounds tend to accumulate

Question 24

Where does most drug metabolism occur

Answer 24

The liver.

Question 25

t(1/2)=

Answer 25

(0.7*Vd)/Cl

Question 26

k=

Answer 26

rate constant of elimination

Question 27

Vd

Answer 27

volume of distribution- it is a characteristic of the drug, not an actual volume. It’s unit is liters/kg or liters/m^2

Question 28

total amount of drug =

Answer 28

sum of ionized and unionized forms

Question 29

Which drug will clear the system faster, one bound to albumin or one that is free?

Answer 29

Free drug will be filtered out in the kidneys. Albumin is too large to enter the filtrate and stays in the blood, along with drug bound to it.

Question 30

Where does most absorption of oral drugs take place?

Answer 30

Sm intestine. pH and surface area are primary determinants. Most drugs are weak bases which tend to be sequestered in the more acidic compartment. Therefore more basic drugs are absorbed further from the stomach.

Question 31

What determines the rate by which a drug taken PO will enter the circulation?

Answer 31

The time it takes for the stomach to empty into the intestine is the primary determinant. The rate is increased by fluid intake, ulcers, pancreatitis. It is decreased by presence of solids, lipids, labor, diabetes, pneumonia, ab trauma and gi obstruction.

Question 32

Why do many drugs accumulate in breast milk?

Answer 32

It is slightly acidic and most drugs are weak bases.

Question 33

Pros of IV route

Answer 33

Rapid onset of action, accurate control of blood levels.

Question 34

In general, what does cytochrome p450 do?

Answer 34

Phase 1 metabolic reactions (oxidation, reduction, hydrolysis)

Question 35

What are phase II metabolic reactions?

Answer 35

Conjugations: glucaronidation, sulfation, methylation, acetylation, glutathione conjugation.

Question 36

Cons of IV route

Answer 36

non-removable. High concentrations if rapid injection (even if transient can cause adverse effects). Embolism, fever, excessive fluid loads.

Question 37

Why use the intrathecal route?

Answer 37

Circumvents blood-brain barrier. Used for spinal anesthesia, acute CNS infections, brain tumor treatments.

Question 38

Advantages of IM route vs subcutaneous

Answer 38

1. IM more rapidly absorbed 2. IM less sensitive to irritants 3. SC must use small volumes 4. SC more painful and more susceptible to infection (local abcess)

Question 38

Advantages of inhalation route (4):

Answer 38

1. Large surface area 2. High blood flow 3. Efficient absorption of atomized particles, aerosols, gases 4. Local and systemic delivery

Question 38

Disadvantages of inhalation route (3):

Answer 38

1. Requires specialized metering equipment 2. Allergic reactions- can cause rapid anaphylaxis. 3. Route for drugs of abuse.

Question 38

Advantages of sublingual/buccal route (2):

Answer 38

1. No first pass (absorbed directly into SVC) 2. Rapid onset of action

Question 39

Advantages (3) and disadvantages (1) of the rectal route:

Answer 39

Advantages: 1. Wide variety of drugs available 2. Can be administered to unconscious patient 3. 50% of drug absorbed will bypass the 1st pass (entering pudendal circulation) Disadvantages: 1. Absorption is incomplete, irregular

Question 40

Disadvantages of oral route (3):

Answer 40

1. Can irritate the GI tract 2. Drug can be inactivated/destroyed by pH, GI enzymes, liver 3. Irregular absorption/slow onset

Question 41

In what order are tissues perfused?

Answer 41

1. Blood 2. Vessel-rich group 3. Muscle 4. Fat

Question 42

Which organs are in the vessel-rich group (VRG)?

Answer 42

Heart, lungs, brain, liver, kidneys.

Question 43

How does the blood-brain barrier prevent passage of drugs into the brain (2 reasons)?

Answer 43

1. Brain capillaries are not fenestrated like typical capillaries, and thus do not allow free passage of drug through. So drugs must diffuse through cells of capillary walls. Only highly hydrophobic drugs can pass through both membranes of capillary cells and adjacent glial cells. 2. Several active transporters (including multi-drug transporter) pump drug back out.

Question 44

Why do most drugs pass through the placenta to the fetus?

Answer 44

Placenta has normal cell membranes. Any drug that is taken orally and available to mother will pass through the placenta.

Question 45

What are the 4 major outcomes for drugs when they are metabolized?

Answer 45

1. Drug–> inactive metabolite (95% of the time) 2. Drug–> toxic metabolite 3. prodrug (eg codeine) –> active drug (morphine) 4. Drug–> active metabolite **A drug can undergo more than one metabolic reaction.

Question 46

What are the phase I metabolic reactions?

Answer 46

Oxidation, reduction, hydrolysis

Question 47

What do phase III metabolic enzymes do?

Answer 47

Transport drug to blood or bile in liver.

Question 48

What is the difference between microsomal and non-microsomal oxidations?

Answer 48

microsomal oxidations occur in the smooth ER. non-microsomal oxidations occur in the mitochondria. The cytochrome p450 system is microsomal.

Question 49

what are CYP3A4 and CYP3A5? Why is this significant for patients?

Answer 49

Two isoforms of cytochrome p450 in the smooth ER of hepatocytes that are responsible for metabolism of 50% of drugs. This is important because drugs that share the same metabolic pathway can interact.

Question 50

What must be present for drug metabolism by P450?

Answer 50

1. P450 2. Oxygen 3. An electron source (NADPH) 4. P450 reductase

Question 51

What are the stages of the “first pass”

Answer 51

1. some P450s are in gut wall and metabolize drug there 2. Mesenteric vein–>portal vein 3. p450s in liver

Question 52

what is induction?

Answer 52

Increased metabolism of a drug in response to exposure to that drug or another drug that is metabolized. Often induction is broad, meaning that use of one drug can induce increased expression of several families of p450, affecting their own metabolism as well as that of other drugs.

Question 53

How does induction occur at the molecular bio level?

Answer 53

Drugs (and other targets) that interact with p450 activate type II nuclear receptors that increase expression of mRNA for p450.

Question 54

in general, what are the consequences of induction?

Answer 54

Increased rate of metabolism. This means an increased first pass effect and lower drug bioavailability/reduced drug exposure at target.

Question 55

List some examples of common p450 inducers:

Answer 55

EtOH (chronic), barbiturates, contraceptives, cigarettes, cannibus, some TB antibiotics (rifampin, isoniazid)

Question 56

What is p450 inhibition? What are the consequences?

Answer 56

Some drugs inhibit metabolic activity of p450 by disrupting heme. This results in reduced first pass, increased bioavailability, and reduced drug clearance.

Question 57

What are some common drugs that inhibit p450?

Answer 57

Cimetadine (Tagamet), erythromycin, clarithromycin.

Question 58

Monoamine oxidase is responsible for…

Answer 58

non-microsomal metabolism of epinephrine and norepinephrine in the cytosol of hepatocytes.

Also for metabolism of histamine.

Question 59

Is alcohol dehydrogenase an microsomal or nonmicrosomal phase I metabolic enzyme? Aldehyde dehydrogenase? What types of reactions are these? What is special about aldehyde dehydrogenase?

Answer 59

Both are nonmicrosomal- exist in cytosol. Reactions are hydroxylations. Many drugs inhibit aldehyde dehydrogenase leading to a build-up of acetaldehyde in hepatocytes when patient drinks EtOH and adverse events.

Question 60

Where do hydrolytic enzymes (like amidases and esterases) operate? What are some drugs metabolized through this system?

Answer 60

These enzymes exist in many organs AND blood plasma, so many of these reactions occur in circulation. Acetylcholine, aspirin, many antibiotics and lipid lowering drugs are metabolized through this system.

Question 61

Are reductions common phase I metabolic reactions? When/where do they occur?

Answer 61

No, they are rare. They tend to occur under low oxygen in the GI tract and liver. Prednisone and sulindac (pro-drug) are examples of drugs that are reduced.

Question 62

What are the 5 types of conjugation reaction that drugs go through in metabolism (Get Some MAG)? What effects do they have (in general) on drug solubility?

Answer 62

Glucuronidation, Sulfation, Methylation, Acetylation, Glutathione conjugation. They almost always lead to inactive metabolites. Glucuronidation, sulfation, and glutathione conjugation lead to increased water solubility. Methylation and acetylation decrease water solubility.

Question 63

How do glucuronidation and sulfation aid in drug clearance?

Answer 63

Both glucuronated and sulfated products tend to be ionized at physiologic pH, and are therefore not reabsorbed from the filtrate in the kidneys. Glucuronic acid specifically has an active transport system (UDP-glucuronyl transferase) that moves it (and whatever is conjugated to it) into the filtrate.

Question 64

What is UDPGA?

Answer 64

UDP-glucuronic acid. This is the activated cofactor for UDP-glucuronyl transferase system in the liver.

Question 65

Do all patients methylate and acetylate substances at the same rate? Why/why not?

Answer 65

No, methylation and acetylation are under genetic control. Some patients do it fast, others do it slow. Slow acetylation and methylation are associated with toxicity because inactive metabolite is not formed as quickly as expected.

Question 66

What is the role of glutathione conjugation in metabolism?

Answer 66

It is the “chemical mop” that has as substrate chemically reactive compounds that could otherwise be dangerous.

Question 67

How is drug metabolism affected in a patient with heart disease?

Answer 67

For many drugs, delivery of blood to the liver is the rate-limiting step of metabolism. Heart disease reduces blood flow to liver and thus decreases metabolism for these drugs. Some antihypertensive drugs also have this effect.

Question 68

What two factors affect how renally eliminated drugs are reabsorbed in the nephron?

Answer 68

Lipid solubility and ionization state. Non-polar uncharged molecules will be reabsorbed into the blood from the filtrate.

Question 69

How can renal excretion be facilitated medically?

Answer 69

By altering the pH of the urine (5-7). More acidic urine will trap weak base, more basic urine will trap weak acids.

Question 70

What are OATs, OCTs, and P-glycoprotein?

Answer 70

Organic anion transporters and organic cation transporters transport organic cations and anions AGAINST their respective concentration gradients into the kidney filtrate. These exist in the liver as well for biliary excretion. OATs and OCTs Some drugs inhibit one or the other and can therefore affect clearance of themselves and other drugs.

Question 71

Which drugs tend to be eliminated through biliary excretion?

Answer 71

Large molecular weight drugs, glucuronides, glutathione metabolites, sulfates, steroid hormones and conjugates.

Question 72

What are some pharmokinetic considerations for elderly patients?

Answer 72

Drier- smaller central compartment. Decreased Renal function (both filtration and blood flow), decreased liver size and function (smaller 1st pass), reduced p450 function (except cypA4), decreased perfusion of tissues.

Question 73

How can you estimate drug clearance efficiency of the kidneys?

Answer 73

Measure patient creatinine clearance, which is proportional to renal drug clearance. Then apply the Cockrott-gault equation. 140-age * wt(kg)/72 * [serum creatinine) = drug clearance (multiply by 0.85 for females).

Question 74

Which drug metabolic effects do NOT change with aging?

Answer 74

Absorption does not change with age (except transdermal route which is reduced).

Question 75

What are some pharmacodynamic changes that occur in elderly adults?

Answer 75

Most receptors, including alpha and beta adrenergic receptors, have decreased sensitivity. This means there is a loss of tachycardic response to sympathetic stimulation and an increase in vasoconstriction due to decreased vasodilatory effects by beta 2 adrenergic receptors. Conversely, CNS sensitivity tends to increase in the elderly. So drugs that depress CNS function should be given in lower doses.

Question 76

Why are there more adverse drug reactions among the elderly?

Answer 76

Basically, they take more drugs for more diseases. They are not at an increased risk of adverse events after controlling for the number of drugs they take.

Question 77

List some clinical strategies for reducing adverse events in elderly patients?

Answer 77

Evaluate need for therapy, take a CAREFUL history that includes all drugs and supplements that they take. Know the pharmacology of the drug. Begin therapy with low doses and titrate to the patient. Regularly review the plan and try to simplify therapy and eliminate unnecessary drugs. Always be suspicious.

Question 78

What is the critical period for organ development in a fetus?

Answer 78

1st trimester.

Question 79

teratogens

Answer 79

Drugs that can cause birth defects when taken by pregnant women. Most famous is thalidomide which causes body and limb malformations.

Question 80

DES

Answer 80

a drug marketed to women who had serial miscarriages. Caused increased risk of clear cell carcinoma of vagina (a VERY rare cancer).

Question 81

What are the largest causes of birth defects among women in the US?

Answer 81

Unknown, followed by congenital and cytogenic.

Question 82

Teratogenic class A

Answer 82

The best human studies show no risk.

Question 83

teratogenic risk category B

Answer 83

No evidence of risk in humans. Animal studies either show risk that has not been found in humans or animal studies show no risk and no adequate human studies have been conducted. Eg prednisone.

Question 84

teratogenic risk category C

Answer 84

Risk cannot be ruled out. Human studies are lacking and animal studies are either positive for fetal risk or lacking as well. Most drugs fall in this category.

Question 85

teratogenic risk category D

Answer 85

positive evidence of risk, but benefits may outweigh risks. Warfarin, lithium.

Question 86

tetragenic risk category X

Answer 86

Evidence of risk, contraindicated. Eg thalidomide.

Question 87

What are some pharmokinetic considerations for young and growing children?

Answer 87

Elimination mechanisms are not fully developed in newborns (cause of physiologic jaundice), blood-brain barrier is more permeable, Vd is relatively larger because they are more hydrated.

Question 88

What is the enterohepatic cycle?

Answer 88

Glucuronidated drugs are actively transported into the biliary duct and into the intestine. There gut bacteria remove glucuronic acid and the drug is free to be reabsorbed. Essentially it is a reservoir of drug. Antibiotics can reduce drug bioavailability if drug is primarily eliminated through biliary mechanism.