Part 4 - Transdermal Drug Delivery Systems

Question 1

there are many different dosage forms available via the skin route.
name those that give SYSTEMIC effects and those that give LOCAL effects

Answer 1

systemic effects - transdermal patch

local- ointments, creams, lotions, topical solutions, pastes, liniments, powders, gels, tinctures, aerosols

Question 2

what is percutaneous absorption?

Answer 2

the absorption of substances from outside the skin to positions beneath the skin (including entrance to the bloodstream)

remember: per in Latin means THROUGH

Question 3

give the components of the stratum corneum of the skin

Answer 3

protein, water, lipid

40% protein (keratin)
40% water
20% lipid (triglycerides, free fatty acids, cholesterol, phospholipids)

Question 4

name the types of skin penetration that can occur with a drug

Answer 4

-transcellular penetration
-intercellular penetration
-transappendageal penetration

Question 5

differentiate between the types of skin penetration by a drug

Answer 5

transcellular = across cells. PASSIVE. no enzymes needed

intercellular - between cells. again - no energy or enzymes needed

transappendageal - penetration via hair follicles, sweat/sebum glands, and pilosebaceous apparatus

Question 6

between the 3 types of skin penetration by a drug, which is the most common absorption mechanism?

Answer 6

intercellular penetration

Question 7

paracellular penetration is also known as….

Answer 7

intercellular penetration

Question 8

put the following in order from superficial to deep:

dermis
stratum corneum
epidermis

Answer 8

statrum corneum
epidermis
dermis

Question 9

of the 3 penetration mechanisms, which does not happen naturally?

Answer 9

transappendageal penetration.
physically pushed through a hole (hair follicle, sweat/sebum gland, pilosebaceuos apparatus)

Question 10

name 5 factors that affect percutaneous absorption

Answer 10

-drug
-area of application
-physiochemical attraction to the skin compared to the vehicle
-hydration of the skin
-medicated application period

Question 11

explain how the drug itself is a factor that affects percutaneous absorption

Answer 11

the concentration – high concentration will mean fast absorption (Fick’s law)

liphophilic drugs penetrate better

ionization reduces penetration (PKA IS IMPORTANT)

small molecules (100-800MW) penetrate faster

Question 12

for a transdermal patch, what is the ideal molecular weight for the drug? why?

Answer 12

400

MW 100-800 can penetrate

Question 13

true or false

hydrophilic drugs undergo faster percutaneous absorption

Answer 13

FALSE - lipophilic

Question 14

Explain how pka value of a drug affects percutaneous absorption

Answer 14

ionization will reduce penetration. therefore, we want to control the pH so the drug remains unionized

Question 15

what is the thinnest area to apply a transdermal patch and thus has the quickest sbsorption

Answer 15

skin behind the ear

Question 16

explain how the area of application of the drug on the skin is useful

Answer 16

can help to control the dose.

normally, all patches are the same dose. therefore, to increase the dose you would increase the area of application by applying 2 patches instead of 1

Question 17

non polar or polar:

which drug will go the transcellular route? what about intercellular?

Answer 17

nonpolar drugs will go the transcellular route (if small)
and polar drugs will go the intercellular route
(unionized, but has polar functional groups)

Question 18

what is the ideal partition coefficient for percutaneous absorption

Answer 18

1
good for solubility and for permeability

Question 19

what kind of drug will go through the transcellular pathway of percutaneous absorption

Answer 19

only drugs that are lipophilic and small

Question 20

true or false

all percutaneous absorption mechanisms are passive

Answer 20

FALSE - transcellular and intercellular are, but not transappendageal

Question 21

which is more hydrophilic - the epidermis or the stratum corneum?

Answer 21

epidermis

Question 22

explain the difference between absorption through the GI tract and absorption through the skin

Answer 22

for the GI, the drug first has to dissolve in aqueous phase and then partition through lipid phase

it is the opposite for skin absorption because the epidermis comes after the stratum corneum and the stratum corneum is more lipophilic

Question 23

how can penetration through the skin be enhanced?

Answer 23

through use of a chemical enhancer to disrupt the phospholipids and make it easier for the drug to get through the stratum corneum

also, absorption can be enhanced through hydration of the skin

Question 24

true or false

the drug should have a greater physiochemical attraction to the skin than to the vehicle

Answer 24

TRUE – so that the drug will leave the vehicle

Question 25

what is the “horny layer”?
how does it affect drug absorption through the skin?

Answer 25

stratum corneum

the thinner the stratum corneum, the greater percutaneous absorption

Question 26

name 7 physiological conditions of the skin that may have an impact on the penetration of the drug

Answer 26

bonding
sebum
hydration
thickness
injury
metabolism
temperature

Question 27

explain how “bonding” is a physiological condition of the skin that may have an impact on the penetration of the drug

Answer 27

the accumulation of bonding in the epidermis can decrease the initial transport of the drug

Question 28

explain how sebum in the skin can affect the penetration of the drug through the skin

Answer 28

can alter the pH, and the amount and composition of sebum can alter the passage of the drug

Question 29

true or false

increased hydration usually decreases penetration rate

Answer 29

FALSE - usually increases

Question 30

what can increase hydration?

Answer 30

occlusive dressings

Question 31

how can hydration vary across the skin

Answer 31

the age of the skin
the location of the skin
the condition of the skin

Question 32

where on our body is the skin very thin?
where very thin?
what does this say about the absorption rate?

Answer 32

thin = behind ear
thick = palm of hand

follows Fick’s first law - very small thickness = easier absorption

Question 33

explain how injury affects drug absorption through the skin

Answer 33

skin that is cut increases the penetration rate, but applying a transdermal patch may cause irritation and should be avoided

Question 34

explain how metabolism can affect percutaneous drug absorption

Answer 34

1st pass effects used to be thought to be that drugs were destroyed at the FIRST ENCOUNTER to the body. however, this is not true anymore

we don’t normall have a lot of enzymes hanging around near our skin - they’re in the liver.

in theory tho, increased metabolism causes reduced penetration of the drug

Question 35

name 2 factors that affect metabolism (skin)

Answer 35

-age
-skin condition

Question 36

what is the normal temperature of our skin?

Answer 36

~30 degrees celsius

Question 37

name 3 percutaneous absorption enhancers

Answer 37

-chemical enhancers
-iontophoresis
-sonophoresis

Question 38

explain how chemical enhancers enhance percutaneous absorption

Answer 38

the increase the skin permeability by REVERSIBLY damaging or altering the physiochemical nature of the stratum corneum. reduces its resistance to diffusion

they cause hydration of the skin and the structure of the lipids and lipoproteins in the intercellular channels are altered

Question 39

name 3 chemical enhancers

Answer 39

alcohol
azone
DMSO (dimethyl sulfur oxide)

Question 40

explain how azone and DMSO differ in their functions as chemical enhancers

Answer 40

azone gets inserted between lipid bilayers which increases the permeation of the drug through the intercellular pathway

DMSO SOLVATES the polar heads of the phospholipids which expands the aqueous region

Question 41

differentiate between iontophoresis and sonophoresis.

what are they used for?

Answer 41

used as percutaneous permeation enhancers.

iontophoresis = delivery of a charged chemical compound across the skin membrane by using an ELECTRICAL FIELD

sonophoresis = used at high frequency ultrasound to increase permeation. the sound waves increase the separation between the cells of the stratum corneum

Question 42

__________ is(are) PHYSICAL method(s) of increasing drug permeation through the skin

Answer 42

iontophoresis and sonophoresis

Question 43

define the major barrier of the skin

Answer 43

the stratum corneum

Question 44

what are the percutaneous absorption models?

Answer 44

-in vivo studies (animals)
-in vitro studies (2 layer models of the skin - side by side and up and down models. - follows Fick’s first law)

Question 45

explain the advantages/benefits of the 2 in vitro percutaneous absorption models available

Answer 45

the “up and down” model poses an issue when air gets to the top and becomes a barrier

the “side by side” model solves this issue

Question 46

in the side by side absorption model, the dermis faces the ___ compartment and the epidermis faces the _____ compartment

in the up/down absorption model, the dermis faces __ and the epidermis faces ___

Answer 46

dermis faces donor compartment and epidermis faces receptor compartment

epidermis faces down and dermis faces up

Question 47

which has looser tissue - the epidermis or the stratum corneum

Answer 47

epidermis

Question 48

“an application of physical-chemical properties to predict absorption expectation through biological membranes”

Answer 48

membrane permeability studies

Question 49

according to membrane permeability studies…..

Answer 49

Fick’s first law is followed.
as conc of the drug increases, the rate of diffusion also increases

Question 50

membrane permeability studies used what kind of invitro equipment?

Answer 50

the side by side model (with dermis facing donor compartment and epidermis facing receptor)

Question 51

an early assessment of the passage of drugs across biological membranes

Answer 51

membrane permeability studies

Question 52

“passive absorption mechanism”

Answer 52

Fick’s first law

Question 53

name and differentiate between the 2 transdermal delivery systems

Answer 53

matrix type (monolithic)
membrane type

monolithic system (matrix type) – has a drug matrix layer between the backing and frontal layers

membrane-controlled systems – contains a drug reservoir (or pouch) usually in liquid or gel form, a rate-controlling membrane, and backing, adhesive, and protecting layers

Question 54

true or false

the membrane system cannot give zero order drug release

Answer 54

FALSE - IT CAN

matrix type cannot

Question 55

what does zero order mean

Answer 55

the rate does not vary with the increase or decrease of the concentration of the reactants (drug)

Question 56

what is the 5 layer, bulky, matrix type patch?

Answer 56

Nitro dur

Question 57

what component of transdermal delivery systems is included to ensure that the drug will only move unidirectionally?

Answer 57

the backing layer

Question 58

true or false

if the drug is capable of providing an adhesive, an additional adhesive layer is still needed

Answer 58

FALSE – not needed

in the case of matrix type, there is no adhesive layer and the drug itself serves as the adhesive

Question 59

the drug reservoir for membrane type is a solution or gel.

what about the drug layer in matrix type system?

Answer 59

it is a POLYMER

Question 60

increased vehicle viscosity in transdermal delivery systems ____ diffusion coefficient

Answer 60

REDUCES

Question 61

______concentration/solubility of a drug penetrates better in TDDS

Answer 61

high

Question 62

true or false

lower concentration gradient = better penetration

Answer 62

false

higher concentration gradient = better penetration

Question 63

which increase penetration – nonaqueous vehicles or aqueous vehicles? in the case of TDDS

Answer 63

nonaqueous vehicles (occlusive)

Question 64

in the case of TDDS, _ area causes increased absorption

Answer 64

increased area

Question 65

name 6 design objectives for transdermal delivery systems

Answer 65

-deliver the drug for percutaneous absorption at therapeutic levels at optimal rate

-contain med agents that can release from the system and partition into the stratum corneum

-occlude the skin to ensure ONE WAY FLUX (dc/dt) into the stratum corneum

-have therapeutic advantage over other dosage forms

-not irritate or sensitize the skin

-adhere well to the skin and have the size, appearance, and site placement that encourage acceptance

Question 66

in order to ensure that the drug can be released from the system and partition into the stratum corneum……..

Answer 66

it must have the necessary physiochemical characteristics

Question 67

name 8 advantages of transdermal delivery systems **

Answer 67

-avoid GI absorption difficulties
-substitute for oral administration

-avoid first pass effect

-noninvasive and no inconvenience of parenteral therapy

-may be terminated fast

-provide extensive therapy with a single application

-extend the activity of the drugs having short half life

-easily and rapidly used in emergencies

Question 68

an advantage of TDDS is avoiding GI drug absorption difficulties.
explain this further

Answer 68

-low pH
-enzymatic activity
-drug interaction with food/drink and other oral drugs

Question 69

an advantage of TDDS’s is that they extend the activity of drugs having a short half life.
explain this further

Answer 69

there is a reservoir of drug in the delivery system and its release is controlled

Question 70

drugs with ___ half life are not suitable to be formulated as a transdermal patch

Answer 70

long half life

there’s no point. if you already take 1 tablet a day you would still have to apply the patch every day or so

Question 71

name 6 disadvantages of TDDS

Answer 71

-only potent drugs are suitable
-contact dermatitis at application site
-limited time that they can stay (due to rashes and sensitization)
-variable intra and inter percutaneous absorption efficacy (everyone has different skin)
-bacterial and enzymatic drug metabolism under the patch
-complex tech/high cost

Question 72

WHY can only relatively potent drugs be suitable candidates for drug delivery?

Answer 72

the skin is impermeable – natural limit of drug entry

Question 73

true or false

TDDS are cheap and easy to make

Answer 73

false – complex tech needed and expensive

Question 74

true or false

percutaneous absorption does not vary with the site of application

Answer 74

FALSE - it does vary

Question 75

TDDS’s should be applied to what kind of skin

Answer 75

clean and dry skin

Question 76

true or false

skin lotion should be used before applying a transdermal patch

Answer 76

FALSE

has to be intact, original skin.
lotion will impact the drug release from the patch

Question 77

true or false

transdermal delivery systems should NOT be physically altered by cutting

Answer 77

true

Question 78

true or false

a transdermal delivery system should always be worn for the full period stated in the product instructions

Answer 78

FALSE – not the case for nitroglycerin bc of tolerance effect

but for all other cases it is true

Question 79

what should the patient do with a TDDS after they remove it? why?

Answer 79

fold it in half with the adhesives facing each other so it can’t be reused.

after 24 hrs there’s still a lot remaining in the patch. ~20% used after 24 hours

Question 80

why is skin irritation a major issue for TDDS

Answer 80

lot of excipients and any possible chemical enhancers

Question 81

name 7 limitations of TDDS

Answer 81

-not for all drugs
-limited time it can be affixed
-variable inter and intra percutaneous absorption efficacy
-skin rashes, sensitization
-bacterial and enzymatic drug metabolism under the patch
-complex tech/ high cost

Question 82

what drugs can NOT be used in a transdermal patch

Answer 82

if the drug is not potent
sometimes, drugs with a short half life require a loading dose, and transdermal patches can’t deliver this high dose

also kind of useless for drugs with long half lives

Question 83

of the patches mentioned, which remains on the skin the longest

Answer 83

7 days - transdermal clonidine (Catapres-TTS)