(PM3A) Skin

Question 1

What is the largest organ in the body?

Answer 1

The skin

Question 2

How much of the human body mass does the skin comprise, as a percentage?

Answer 2

15%

Question 3

How much water is lost through the skin everyday?

Give your answer as a volume.

Answer 3

Approximately 500mL

Question 4

Name some key functions of the skin.

Answer 4

• Thermal insulation (from the fatty layer)
• Cutaneous sensation
• Metabolic functions
• Blood reservoir

Question 5

How much of the body’s overall blood volume does the skin hold?

Answer 5

Approximately 5%

Question 6

What is the integumentary system?

Answer 6

(1) A system which protects the body from damage

(2) It includes:
- Skin
- Sweat glands
- Oil glands
- Hairs
- Nails

Question 7

How many main layers of the skin are there?

Answer 7

Three

(1) Epidermis
(2) Dermis
(3) Subcutaneous Tissue

Question 8

What are the main layers of the skin?

Answer 8

(1) Epidermis
(2) Dermis
(3) Subcutaneous Tissue

Question 9

What components of the skin comprise the epidermis?

Answer 9

(1) Stratum corneum
(2) Granular cell layer
(3) Spinous cell layer
(4) Basal cell layer

Question 10

What components of the skin comprise the dermis?

Answer 10

(1) Sebaceous gland
(2) Erector pili muscle
(3) Sweat gland
(4) Nerves
(5) Hair follicle
(6) Collagen fibres
(7) Elastin fibres

Question 11

What components of the skin comprise the subcutaneous tissue?

Answer 11

(1) Artery
(2) Vein
(3) Adipose tissue (fat)

Question 12

Where does the stratum corneum thicken?

Answer 12

Load bearing areas

i.e. soles/ palms

Question 13

What differs in the skin in load bearing areas?

Answer 13

The stratum corneum thickens

Question 14

What happens when the stratum corneum is damaged?

Answer 14

(1) Damaged skin barrier
(2) Eczema

Question 15

What happens when the stratum spinosa (spinous cell layer) goes wrong?

Answer 15

Spinous cell carcinoma

Question 16

What is spinous cell carcinoma?

Answer 16

Malfunction of the stratum spinosa (spinous cell layer)

Question 17

What happens when the stratum basale (basal cell layer) goes wrong?

Answer 17

(1) Hyper-proliferation (psoriasis)

(2) Basal cell carcinoma

Question 18

How often does skin replace itself?

Answer 18

Every 28 days

Question 19

How long does it take for the stratum basale to form the stratum corneum?

Answer 19

Approximately 14 days

Question 20

What types of cell are within the epidermis?

Answer 20

(1) Keratinocytes
(2) Melanocytes
(3) Merkel cells
(4) Langerhan’s cells

Question 21

What is a keratinocyte?

Answer 21

Cell within the epidermis

Produces keratin, a fibrous protein

Gives rise to protective properties

Produced in stratum basale layer

Dead, keratin-filled scale-like structures

Question 22

Where are keratinocytes produced?

Answer 22

In the stratum basale layer

Question 23

Where is keratin production increased in the body?

Answer 23

Areas with regular friction

e.g. palms and feet

Question 24

What is a melanocyte?

Answer 24

Cell within the epidermis

Synthesises melanin - a pigment

Question 25

What happens to the melanin produced by melanocytes?

Answer 25

Taken up by keratinocytes

Forms a pigment shield to protect nucleus from UV radiation

Question 26

(1) Which cell produces melanin?

(2) Which layer is this in?

Answer 26

(1) Melanocyte

(2) Epidermis

Question 27

What is a Merkel cell?

Answer 27

A sensory receptor for touch

Low-abundance cell

Have disc-like sensory nerve endings

Question 28

Where are Merkel cells found?

Answer 28

In the epidermis of the skin

Question 29

What is a Langerhan’s cell?

Answer 29

Dendritic cells which are produced in the bone marrow

Process microbial antigens

Become antigen-presenting cells (APCs)

Question 30

Where are Langerhan’s cells found?

Answer 30

Epidermis of the skin

Question 31

What is the largest component of the skin?

Answer 31

Dermis

Question 32

What is the dermis?

Answer 32

Fibrous connective tissue

Richly supplied with nerve fibres, blood vessels, and lymphatic vessels

Question 33

How many layers comprise the dermis?

Answer 33

Two

(1) Papillary
(2) Reticular

Question 34

What is the papillary layer?

Answer 34

Layer within the skin (dermis)

Thin superficial layer

Produces structures like nipples and ridges, e.g. finger prints

Question 35

Which layer of the skin gives rise to finger prints?

Answer 35

Papillary layer of the dermis

Question 36

What is the reticular layer?

Answer 36

Dense + irregular connective tissue

Comprises 80% of the dermis thickness

Provides strength and resilience

Question 37

Name 5 appendages of the skin.

Answer 37

(1) Hair
(2) Hair follicles
(3) Sweat glands
(4) Oil (sebaceous) glands
(5) Nails

Question 38

How many types of sweat gland are there?

Answer 38

Two

(1) Eccrine
(2) Apocrine

Question 39

Give another name for sudoriferous glands.

Answer 39

Sweat glands

Question 40

Give another name for sweat glands.

Answer 40

Sudoriferous glands

Question 41

What is an eccrine sweat gland?

Answer 41

Simple + coiled gland

Regulated by sympathetic autonomic nervous system

Prevents over-heating of the body

Question 42

Describe the structure of an eccrine sweat gland.

Answer 42

• Simple
• Coiled

Question 43

How are eccrine sweat glands regulated?

Answer 43

Sympathetic autonomic nervous system

Question 44

What is the purpose of an eccrine sweat gland

Answer 44

To produce sweat

To prevent over-heating of the body

Question 45

What is an apocrine sweat gland

Answer 45

Larger than eccrine sweat glands

Empty into hair follicles

Secretions contain sweat + fatty substances + proteins

Question 46

Which type of sweat gland is larger?

Answer 46

Apocrine > Eccrine

Question 47

Where are apocrine sweat glands found?

Answer 47

At hair follicles

Question 48

What does the apocrine sweat gland produce?

Answer 48

(1) Sweat
(2) Proteins
(3) Fatty substances

Question 49

How is odour produced on the skin?

Answer 49

Mixture of sweat, fatty substances, and proteins, with bacteria

Decomposes and produces odour

Question 50

Describe the secretion pattern of an apocrine sweat gland.

Answer 50

Periodic

In bursts

Question 51

Give another name for an oil gland.

Answer 51

Sebaceous gland

Question 52

Give another name for a sebaceous gland.

Answer 52

Oil gland

Question 53

Where are oil/ sebaceous glands found?

Answer 53

All over the body

NOT palms or soles of feet

Question 54

What do oil/ sebaceous glands produce?

Answer 54

Sebum

Question 55

(1) What is the role of sebum?

(2) Where is it produced?

Answer 55

(1) Soften and lubricate skin and hair + bactericidal properties

(2) Oil/ sebaceous glands

Question 56

How are oil/ sebaceous glands regulated?

Answer 56

Hormonal control

via androgens

Question 57

Which gland in the skin is controlled by androgens?

Answer 57

Oil/ sebaceous glands

Question 58

What improves ease of administration through a nail?

Answer 58

Damage to nail - e.g. psoriasis

Question 59

What is onychomyosis?

Answer 59

Fungal infection of the nail bed

Question 60

Define transdermal, as an administration route.

Answer 60

Through the skin

For systemic effect

Question 61

Define local, as an administration route.

Answer 61

Effect close to site of administration

Question 62

Define topical, as an administration route.

Answer 62

Effect on skin

Usually epidermis

Question 63

What defines penetration in transdermal delivery?

Answer 63

Drug enters the skin

Passes through the stratum corneum

Question 64

What defines permeation in transdermal delivery?

Answer 64

Drug passing THROUGH the skin

Systemic/ local

Question 65

How does penetration differ to permeation in transdermal delivery?

Answer 65

Penetration only requires that the drug ENTERS the skin

Whereas, permeation requires that the drug passes THROUGH the skin

Question 66

How can first pass hepatic metabolism be avoided by using the skin as a delivery route?

Answer 66

Transdermal delivery avoids first pass hepatic metabolism

Question 67

(1) Does skin affect bioavailability?

(2) Why/ why not?

Answer 67

(1) Yes, it can do

(2) Skin is metabolically active

Question 68

What mainly affects transdermal delivery?

Answer 68

Stratum corneum

Question 69

What is the shunt route?

Answer 69

Permeation of a drug through hair follicles and sweat ducts

Question 70

What is steady state permeation?

Answer 70

Permeation predominantly through the stratum corneum

Question 71

How many cells thick is the stratum corneum?

Answer 71

Approximately 20 cells thick

Question 72

Which gland are hair follicles mostly associated with?

Answer 72

Oil/ sebaceous glands

Question 73

What is an example of a specialised apocrine gland?

Answer 73

Milk gland

Question 74

What is the ‘brick and mortar’ model?

Answer 74

A model used to describe the structure of keratinocytes in the stratum corneum

Question 75

Define transcellular route.

Answer 75

Through the cells

Usually through keratinocytes in the stratum corneum

Question 76

Define intercellular route.

Answer 76

Around the cells

Usually around keratinocytes in the stratum corneum

Question 77

What is the most common rate-limiting structure in transdermal delivery?

Answer 77

Multiple lipid bilayers

Question 78

How many routes for micro-permeation are there in transdermal delivery?

Answer 78

Two

(1) Transcellular
(2) Intercellular

Question 79

What are/ is the micro-permeation route(s)?

Answer 79

(1) Transcellular
(2) Intercellular

Question 80

What is the most common lipid in the human stratum corneum?

Answer 80

Ceramides

Comprise approximately 41% of all lipids in stratum corneum

Question 81

Give an example of an amphiphilic lipid.

Answer 81

Ceramide

Found in stratum corneum

Question 82

How are crystalline areas formed in the stratum corneum?

Answer 82

Lipids (such as ceramides) packing closely together

Question 83

(1) What is the role of a penetration enhancer?

(2) How does it achieve this?

Answer 83

(1) Increase transdermal delivery + drugs given transdermally

(2) Disrupts the crystalline areas formed by lipids in the stratum corneum

Question 84

Where are crystalline areas found in the skin?

Answer 84

Stratum corneum

In the epidermis

Question 85

What is the most common micro-permeation route?

Answer 85

Intercellular > Transcellular

Question 86

When are shunt routes most often used in transdermal delivery?

Answer 86

For faster penetration (immediate effect)

For drugs which are unable to cross the lipid barrier

Question 87

What is a permeant?

Answer 87

The molecule moving through/ into the skin

Question 88

What is flux?

Answer 88

The rate of permeant moving through the skin

Measured in joules (J)

Question 89

What is the permeability coefficient?

Answer 89

Speed of permeant transport

Kp

Question 90

What does the unit Kp refer to?

Answer 90

Permeability coefficient

Question 91

What are the units of Kp?

Answer 91

cm/hour

Question 92

What is the diffusion coefficient?

Answer 92

Fundamental property of the permeant in a particular membrane

D

Question 93

What is the diffusion coefficient symbol?

Answer 93

D

Question 94

What does the symbol D refer to, with regard to skin.

Answer 94

Diffusion coefficient

Question 95

What is the unit for diffusion coefficient (D)?

Answer 95

cm^2/hour

Question 96

What is responsible for the driving force for diffusion?

Answer 96

Concentration gradient

Question 97

How is flux calculated?

Answer 97

flux = Kp x concentration

Flux = aD/γh

Question 98

What is the most accurate calculation for finding ‘flux’?

Answer 98

Flux = aD/γh

a = thermodynamic activity of the permeant in its vehicle
D = diffusion coefficient
γ = activity in the membrane
h = membrane (stratum corneum) thickness

Question 99

What is a Franz cell used for?

Answer 99

Measuring diffusion for a delivery

Question 100

What temperature must a Franz cell be kept at?

Answer 100

32ºC

Question 101

Up to how long can a patch be used for to continually deliver a drug?

Answer 101

7 days

Question 102

What is a lag phase in transdermal delivery?

Answer 102

The initial delay whilst an equilibrium is found across the membrane

Question 103

Describe the order of a patch delivered drug.

Answer 103

Zero order

Until 10% of drug activity is lost
OR
>10% is present in receiver solution

Question 104

Describe the gradient of a patch delivered drug.

Answer 104

Pseudo-steady state flux

Question 105

What is described as the ‘driver’ for drug delivery?

Answer 105

Thermodynamic activity

Question 106

What molecular weight is ideal for transdermal delivery?

Answer 106

300-500Da

Question 107

What log P is ideal for transdermal delivery?

Answer 107

1-~3.5

Question 108

What aqueous solubility is ideal for transdermal delivery?

Answer 108

<100 mg/mL

Question 109

What is the average patch size?

Answer 109

Approximately 10-25cm^2

Question 110

How can estimation of drug flux be beneficial?

Answer 110

When deciding if a drug is appropriate for transdermal delivery

Question 111

For which skin type are lotions preferred?

Answer 111

Normal-dry

Question 112

For which skin type are creams preferred?

Answer 112

Dry

Question 113

For which skin type are gels preferred?

Answer 113

Normal-oily

Question 114

What formulations are preferred for a thick, scaly lesion?

Answer 114

Fatty, i.e. ointments/ pastes

Question 115

What formulations are preferred for a wet, weeping lesion?

Answer 115

Aqueous based, e.g. cream, lotion, gel

Question 116

What is the typical bioavailability for topical products (e.g. gels/ creams)?

Answer 116

1-3% bioavailability

Question 117

What is the typical bioavailability for patches (e.g. fentanyl/ buprenorphine)?

Answer 117

30-70%

Question 118

What is a suspension?

Answer 118

A saturated solution

Question 119

What is occlusion?

Answer 119

Closing up/ blocking off

Question 120

What is an enhancer?

Answer 120

A drug which reversibly interacts with skin to increase drug flux

Question 121

How does an enhancer achieve its function?

Answer 121

Disrupts intercellular lipid structure in stratum corneum

Question 122

What is the Hawthorne effect?

Answer 122

Patients modifying their behaviour in response to knowing they are being observed

e.g. falsifying reported adherence

Question 123

How does the permeability of neonatal skin compare to that of adults?

Answer 123

It is more permeable

Question 124

What does DIA mean?

Answer 124

Drug in adhesive

Question 125

What is at the centre of a liposome?

Answer 125

Hydrophilic core

Question 126

What can the hydrophilic core of a liposome be used for?

Answer 126

Trapping hydrophilic materials

Question 127

What can the membrane of a liposome be used for?

Answer 127

Trapping lipophilic materials

Question 128

What is iontophoresis?

Answer 128

A device used to drive a drug molecule into the skin

Question 129

When is iontophoresis used?

Answer 129

To drive molecules into the skin

Often used for neutral molecules

Question 130

What is iontophoresis currently approved for in the UK?

Answer 130

Hyperhidrosis

Question 131

What are some proposed limitations to the method of iontophoresis?

Answer 131

Damage to drug stability

Changes in charge/ pH to drug

Question 132

What is a microneedle used for?

Answer 132

To penetrate the stratum corneum, but not the pain receptors

Question 133

What materials can be used to produce a microneedle?

Answer 133

(1) Carbon
(2) Silicon
(3) Polymeres

Question 134

Which type of molecule may be able to be delivered using microneedles, as a revolutionary method?

Answer 134

Biologics/ biomacromolecules

i.e. insulin, vaccines, antibodies, hormones

Question 135

How can microneedles be used to detect presence of skin conditions?

Answer 135

Coating microneedle tips in specific antibodies, to recognise presence of specific antigens

Question 136

What is epidermolysis bullosa?

Answer 136

Skin condition causing insufficient anchoring of the epidermis to the dermis

This makes the skin fragile

Question 137

(1) What gene mutation causes epidermolysis bullosa?

(2) Why?

Answer 137

(1) Laminin beta-3 (LAMB3)

(2) LAMB3 codes for an epidermal anchoring protein

Question 138

What does epidermolysis bullosa cause?

Answer 138

Ulceration/ blistering due to epidermal fragmentation or detachment from the dermis

Question 139

What does epidermolysis bullosa lead to over time?

Answer 139

Skin cancers

It is incurable