Uptake & Distribution

Question 1

Define Pharmacodynamics

Answer 1

What drug does to the body

1. Mechanism of effect
2. Sensitivity
3. Responsiveness

Question 2

Define Pharmacokinetics

Answer 2

What your body does to the drug

1. Absorption
2. Distribution
3. Metabolism -liver
4. Excretion - kidneys

Question 3

Commonly measured parameters of injected drugs are?

Answer 3

1. Elimination half-life
2. Bioavailability
3. Clearance
4. Volume of distribution Vd

Question 4

Define the Compartmental Model

Answer 4

Divides body into two compartments that represent THEORETICAL spaces with CALCULATED volumes.

1. Central
2. Peripheral (reservoir)

Question 5

Which compartment has a RAPID uptake of a drug?

Answer 5

Central

Question 6

Which compartment is made up of highly perfused tissues and intravascular fluid?

Answer 6

Central

Question 7

Which compartment is the drug FIRST introduced into

Answer 7

Central

Question 8

Which organs make up the central compartment?

Answer 8

Kidney, lungs, liver, heart, brain

Question 9

How much CO does the central compartment receive?

Answer 9

75%

Question 10

How much CO does the peripheral compartment receive?

Answer 10

25%

Question 11

How much body mass does the Central compartment contain?

Answer 11

10%

Question 12

How much body mass does the reservoir contain?

Answer 12

90%

Question 13

What causes a decrease in the rate of transfer between the Central compartment and the Peripheral compartment?

Answer 13

Aging

Question 14

Why do you decrease dosage of drugs (eg Thiopental) in the elderly?

Answer 14

There is a lag due to the slowed rate of transfer between compartments leading to a greater plasma concentration in certain drugs.

Question 15

What happens when the plasma drug concentration declines below tissue drug concentration?

Answer 15

the drug leaves the tissues and re-enters the circulation

Question 16

Why do you shut off anesthetic gases/TIVA early in the obese population?

Answer 16

Fat acts as a reservoir that maintains plasma concentration and prolongs the effect of a drug.

Question 17

What effect can large or repeated doses of a drug have on redistribution?

Answer 17

Negate redistribution, prolonging duration of action by saturating inactive tissue to a point where effect depends on metabolism of the drug rather than redistribution.

Question 18

What body tissues make up the peripheral compartment?

Answer 18

Muscle groups, Fat group, Vessel-poor group

Question 19

Lungs act as a reservoir for what kind of drugs?

Answer 19

Lipophilic drugs (lidocaine, fentanyl, Demerol)

Question 20

What drugs do not cross the blood-brain barrier into the brain circulation?

Answer 20

Ionized, water soluble drugs.

Question 21

What drugs CAN cross the Blood-brain barrier?

Answer 21

Lipophilic drugs

Question 22

How do you overcome the blood brain barrier? (4 ways)

Answer 22

1. Large doses of drug
2. Head injury
3. Hypoxemia
4. Old age

Question 23

What is the Biophase?

Answer 23

Also called the “effect site”, where drugs exert their biological effect. The immediate milieu where drugs act upon the body including:

1. Membranes
2. Receptors
3. Enzymes

Question 24

What is the biophase of muscle relaxants?

Answer 24

Muscles

Question 25

What is the biophase of anesthetics?

Answer 25

The brain (effect site)

Question 26

What is the rate constant of drug elimination from the effect site/biophase ? (I.e. rate eliminated from the brain if the drug is an anesthetic)

Answer 26

Ke0

Question 27

Formula for Vd?

Answer 27

Vd = (Dose of IV drug) / (plasma concentration before elimination)

Eg: dose 50mg, plasma conc prior to elimination 10mg/L
(50mg) / (10mg/L) = 5L Vd

Question 28

What is Volume of distribution Vd?

Answer 28

Sum of all the volumes of the theoretical compartments that constitute the Compartmental Model. How quickly does the dose occupy space.

Question 29

Vd is influenced by? (3 things)

Answer 29

1. Lipid solubility (matters most)
2. Binding to plasma proteins
3. Molecular size

Question 30

What is lipid solubility? How does it contribute to Vd?

Answer 30

More lipophilic = more Vd (quicker it can distribute to all spaces in the body). Matters more than protein binding.
Eg: drug is highly protein bound but super lipophilic, available drug will have a large effect.

Question 31

How does binding to plasma protein effect Vd?

Answer 31

Highly bound drugs cant cross membranes (BBB) = lower Vd. Drugs that are bound to plasma proteins will UNBIND as elimination begins.

Question 32

How does molecular size affect Vd?

Answer 32

Smaller size = higher Vd (can cross the BBB readily)

Question 33

Time necessary for plasma[] of drug to decline 50% during the elimination p0hase

Answer 33

Elimination half time

Question 34

Elimination half time is ______ (direct/indirect) proportional to its Vd

Answer 34

Directly

Question 35

Elimination half time is _______ (independent/dependent) on the dose of drug administered

Answer 35

Independent

Question 36

Time necessary to eliminate 50% of the drug from the body

Answer 36

Elimination half-life

Question 37

What happens if dosing intervals are less than the elimination half times?

Answer 37

Drug accumulation

Question 38

What happens when the plasma [ ] decrease doesn’t parallel its elimination from the body?

Answer 38

Elimination half time and elimination half life are NOT equal

Question 39

Elimination half life is always greater than elimination half time (True/false)

Answer 39

True; plasma [ ] will always be less than the total body [ ]

Question 40

If a drug undergoes 3 half-times, what percent of initial amount is eliminated?

Answer 40

87.5

3 half-times; 1/8 is the fraction of initial amount remaining… so 7/8 has been eliminated… 7/8 = 87.5

Question 41

Why is the distribution phase part of the Plasma Concentration Curve so rapid?

Answer 41

Rapid drop as the drug goes from the central —> peripheral compartment

Question 42

What does the Beta distribution part of the Plasma Concentration Curve represent

Answer 42

Elimination phase

Question 43

Context sensitive half-time refers to ____

Answer 43

Discontinuing an IV infusion.

Question 44

Define context-sensitive half-time

Answer 44

Time required for plasma [ ] of a drug to decrease by 50% after discontinuation of drug administration.

Question 45

What does the context sensitive half time depend on?

Answer 45

1) Distribution
2) Excretion
3) Physiochemical properties (lipid solubility, size, protein binding) of the drug
4) length of infusion

Question 46

Systemic absorption (regardless of route) depends on ___

Answer 46

The drug’s SOLUBILITY

Question 47

The most convenient & most economic route is ______

Answer 47

PO

Question 48

Disadvantages of the PO route in terms of drug absorption

Answer 48

1. Emesis
2. Destruction by enzymes (1st pass effect) or acidic gastric fluid
3. Irregular absorption w. Food or other drugs.

Question 49

Define the First pass effect

Answer 49

Drugs absorbed via the GI system enter the portal venous blood flow and pass through the liver before entering the systemic circulation. Here they are extensively extracted and metabolized

Question 50

How do drugs absorbed in the GI system get to the liver?

Answer 50

Via the portal venous blood supply

Question 51

Which routes bypas the liver and prevents the first pass effect?

Answer 51

Sublingual, transmucosal, IV, Rectal (distal rectum), transdermal

Anything that avoids the GI system

Question 52

Punctured nifedipine capsules & CBD oil are examples of what kind of route? What is the benefit?

Answer 52

Sublingual; prevent the first pass effect

Question 53

Which route provides a sustained therapeutic plasma [ ] of a drug?

Answer 53

Transdermal

Question 54

How does transdermal absorption work?

Answer 54

Drug enters via sweat ducts & hair follicles which function as diffusion shunts.

Question 55

What is the rate-limiting step in transdermal absorption?

Answer 55

Diffusion across the stratum corners of the epidermis. Thickness and blood flow are factors reflected in the skin’s permeability for drugs.

Question 56

Proximal vs Distal rectum

Answer 56

Proximal —> GI, portal system, liver = First pass effect

DIstal —> bypasses portal system

Question 57

Why is the rectal route unpredictable?

Answer 57

Distal vs proximal administration … if the drug is too far in (proximal) then it is susceptible to the first pass effect.

Question 58

Which route will achieve therapeutic plasma levels precisely & rapidly

Answer 58

IV

Question 59

Which form (ionized/non-ionized) of a drug can diffuse across lipid cell membranes (BBB, renal, tubules, GI epithelium, hepatocytes)?

Answer 59

Non-ionized, lipid soluble

Question 60

Which fraction of a drug is pharmacologically ACTIVE

Answer 60

Non-ionized form

Question 61

Which form a drug will undergo re-absorption across renal tubules, absorbed from the GI tract and metabolized by liver?

Answer 61

Non-ionized

Question 62

Which form of a drug is excreted by the kidneys unchanged?

Answer 62

Ionized

Question 63

Why cant ionized drugs cross the lipid cell membrane?

Answer 63

Repelled from portion of the cell with similar charges.

Question 64

Weak acid drug is administered to an acidic patient… should you increase or decrease the dose? Why?

Answer 64

Decrease dose since less ionization is happening.

Question 65

A weak base drug is administered to an acidic patient. Should you increase or decrease the dose? Why?

Answer 65

Increase dose due to increased ionization of drug.

Question 66

What does the degree of ionization depend on?

Answer 66

Dissociation constant pK of drug & pH of surrounding environment

Question 67

How does ion trapping happen?

Answer 67

A membrane separates two different pH environments, once a drug crosses the membrane (i.e. placenta) into a more acidic/basic environment and ionizes in the new environment it wont cross back over the membrane and end up building up (in the fetus) in its ionized form (can eventually be excreted by kidneys of baby, however since the BBB may not be fully developed, the ionized form may cross the BBB when its not supposed to)

Question 68

What protein binds to acids?

Answer 68

Albumin

Question 69

What protein binds to bases

Answer 69

Alpha acid glycoproteins

Question 70

Which form of a drug will readily cross the cell membrane? (Protein bound/unbound)

Answer 70

Unbound

Question 71

What happens to protein binding when plasma [ ] of drug decreases?

Answer 71

The drug will unbind from the protein and become available

Question 72

True/False More protein binding = longer effect

Answer 72

True (generally) - because if drug is protein bound, it cant cross into the liver for elimination so it stays around longer until it is unbound.

Question 73

When can a protein-bound drug be metabolized/excreted?

Answer 73

Once it unbinds

Question 74

Vd is ___ (direct/inversely) proportional to protein binding

Answer 74

Inversely

Question 75

Which drugs will be markedly effected by alterations in protein binding?

Answer 75

Highly protein bound drugs: Warfarin, propranolol, phenytoin, diazepam

Question 76

Define clearance

Answer 76

Volume of plasma cleared of drug by metabolism and excretion

Question 77

When drug administered (in therapeutic dose ranges) is cleared at a rate PROPORTIONAL to the amt drug present in plasma… this is

1. First order kinetics
2. Zero order kinetics

Answer 77

First order kinetics

Question 78

When drug administered exceeds metabolic or excretory capacity of the body to clear drugs and a CONSTANT AMOUNT of drug is cleared per unit of time (eg 2mg/hr) this is

1. First order kinetics
2. Zero order kinetics

Answer 78

Zero order kinetics

Question 79

Drugs who clear via Zero Order Kinetics principle

Answer 79

ASA, DIlantin, ETOH

Question 80

When hepatic extraction is higher than 0.7, the clearance of the drug will depend on_____

Answer 80

Hepatic blood flow

“Perfusion-dependent elimination”

Question 81

If hepatic extraction ratio is less than 0.3, ____ and ____ will aid in hepatic clearance

Answer 81

Decrease in protein binding & Increase in enzymatic activity
“Capacity - dependent elimination”

Changes in hepatic blood flow will have minimal changes in its clearance.

Question 82

Most important organ for elimination of unchanged drugs or their metabolites

Answer 82

Kidney

Question 83

Water soluble compounds are excreted ____ (more/less) efficiently by kidneys than lipid soluble drugs

Answer 83

More

Question 84

Usually a drug has to be _____ or ______ to be excreted via urine

Answer 84

Ionized or SMALL lipophilic

Lg lipophilic drugs will be reabsorbed… unchanged drug is not excreted in urine.

Question 85

How do you turn a lipophilic drug into a form where it can be excreted?

Answer 85

Metabolize it! Bio transformation from pharmacologically active into water soluble/inactive/ionized form.

Question 86

What does it mean if a drug is X amount “excreted unchanged”

Answer 86

Portion will never have an effect (ionized) and will go straight to the kidneys for excretion (be aware of pats with Kidney failure!)

Question 87

Increased water solubility ___ (inc/dec) the Vd of a drug and enhances renal excretion

Answer 87

Decreases

Question 88

Why is metabolism not equal inactivation/detox of a drug?

Answer 88

Some metabolites are active

Question 89

4 pathways of metabolism

Answer 89

1. Oxidation
2. Reduction
3. Hydrolysis
4. Conjugation

Question 90

What happens in Phase 1 of metabolism

Answer 90

oxidation, reduction, hydrolysis

Question 91

What happens in Phase II of metabolism

Answer 91

Conjugation

Drug interacts with endogenous substrate to form water soluble CONJUGATES —> excreted by kidney

Question 92

Sites of metabolism

Answer 92

1. Plasma
2. Kidneys
3. Lungs
4. GI tract
5. Liver

Question 93

What enzyme is responsible for metabolism of most drugs in the liver? Where is it located?

Answer 93

Hepatic microsomal enzymes
Located in the hepatic smooth ER

Eg: Cytochrome P-450

Question 94

6 isozymes of cytochrome P-450 involved in drug metabolism?

Answer 94

CYP1A2, CYP2D6, CYP2C19, CYP2E1, CYP2C9, CYP3A

CYP: 1a2, 2d6, 2c19, 2e1, 2c9, 3a

Question 95

What may be a reason a patient has “treatment resistant depression”? Or when cancer therapy is not working for a patient.

Answer 95

Patient does not have the proper hepatic microsomes isozyme (1 of the 6 CYP450) of the metabolic pathway to interact with drug (body wont react with it even if we are technically talking about metabolism)

Question 96

How does ETOH effect the dosage other drugs in a patient who is a frequent drinker?

Answer 96

Must INC dose b/c ETOH is an Enzyme Inducer

Repeated exposure to ETOH will stimulate the activity of enzymes…so other drugs that follow the same pathway as ETOH will be exposed to more enzymes that break it down hence larger dosages required. Larger doses of drugs and larger doses of ETOH required for desired effect.

Question 97

Which enzymes are involved in Oxidation, Reduction + Conjugation of drugs

Answer 97

Hepatic microsomal enzymes

Question 98

Which enzymes are involved in Hydrolysis (of ester bond) of drugs?

(Also does conjugation, oxidation and reduction)

Answer 98

Non-microsomal enzymes

versus hepatic microsomal enzymes that do oxidation, reduction and conjugation only

Question 99

Which enzyme is present in Liver (mostly), plasma & GI tract?

Answer 99

Non-microsomal enzyme

Question 100

Which enzymes do NOT undergo enzyme induction?

Answer 100

Non-microsomal enzymes

Vs hepatic microsomal enzymes that DO

Question 101

What is it called when you increase the concentration of receptors? Decrease?

Answer 101

Increase = up-regulate
Decrease = down-regulate

Question 102

Why is it wrong to simply take someone off beta blockers after a while?

Answer 102

They have up-regulated their concentration of beta receptors in response to beta blockers… can cause a hypertensive crisis.

Question 103

Taking growth hormone leads to small testes due to __

Answer 103

Down-regulation.

Exogenous form of growth hormone causes the body to down-regulate the receptors.

Question 104

State of Receptor Activation Theory states:

Answer 104

Non-activated receptors can be activated by the drug.

Question 105

Receptor occupancy theory states:

Answer 105

The more receptors occupied by the drug the greater the effect.

Question 106

Non-receptor drug action

Answer 106

When there is no receptor-drug interaction eg: chelating drugs form bonds with metallic cations. Antacids neutralize gastric acid by a direct action.

Question 107

Agonist drug vs antagonist drug

Answer 107

Agonists mimic molecule and activate the SAME receptor sites causing SIMILAR effect. Eg: opioid/mu receptor
Antagonists bind to SAME receptor and change configuration of site therefore PREVENTING effect from cell signaling molecules. Eg: betablocker

Question 108

How does chemical structure affect drugs?

Answer 108

Minor modifications in structure (stereochemistry) may result in drastic change in pharmacological properties. Interaction/ with biological receptors can differ greatly even to a point of no binding. Potency can be very different (ephedrine). Side effects can be different.

Question 109

Efficacy vs Potency

Answer 109

Efficacy - ability of drug to produce desired effect

Potency - relationship between effect and dose necessary to achieve effect

Question 110

what is the median EFFECTIVE dose?

Answer 110

ED 50

Dose at which 50% of people will get the effect

Question 111

What is the median LETHAL dose?

Answer 111

LD 50

dose at which 50% will die

Question 112

How do you estimate the clinical therapeutic index?

Answer 112

Ratio of LD50 to ED50 will suggest how selective that drug is in producing its desired effect

Question 113

Define a Hyper-reactive patient

Answer 113

People in whom a LOW dose of drug produces its expected pharmacologic effect
Eg: low dose in Asian population

Question 114

Hypersensitivity

Answer 114

Allergic

Question 115

Additive effect

Answer 115

When 1+1=2

The second drug acting with first produces equal summative effect.

Question 116

Synergistic effect

Answer 116

1+1=3

Two drugs produce an effect greater than their sum