Skin

Question 1

Cutaneous

Answer 1

Epidermis

Dermis

Question 2

Subcutaneous

Answer 2

Hypodermis

Question 3

What type of epithelial cell is epidermis?

Answer 3

Stratified squamous epithelium

Question 4

What is epidermis mostly made of?

Answer 4

Keratinocytes

Keratin

Question 5

No circulation

Answer 5

Avascular

Question 6

Layers of the epidermis (outer to inner)

Answer 6

Stratum corneum
Stratum granulosum
Stratum spinosum
Stratum basale

Question 7

Stratum corneum features

Answer 7

Dead, hard cells

Prevent infection and decomposition

Question 8

Stratum granulosum features

Answer 8

Granules
Dehydration (increase resistant)
crosslinking keratin fibres

Waxy material
Intercellular space
Prevent material passing through

Question 9

Stratum spinosum features

Answer 9

Desmosomes
Link cells together

Cells flatten when moved upwards

Question 10

Stratum basale features

Answer 10

Columnar regenerative cells

Basal cells divide, replenish the layer above

Question 11

Dermis layers

Answer 11

Papillary layer (top)
Reticular layer (bottom)

Question 12

Dermis features

Answer 12

Protein fibres for strength
Vascular (nourishes epidermis)
Doesn’t shed

Question 13

Protein fibres

Answer 13

Elastin and collagen

In the reticular layer

Question 14

How are cells removed from the dermis layer?

Answer 14

Dead cells are broken down and removed from the body as waste

Question 15

Benefits of papillary layer

Answer 15

Increase surface area and better transfer of nutrients

Question 16

Hypodermis

Answer 16

Adipose tissue

insulation, energy storage

Question 17

Epithelial cell types

Answer 17

Simple/Stratified

Squamous, Cuboidal, Columnar

Question 18

Thick skin characteristics

Answer 18

Palms and soles
No hair
Extra epidermal layer
Stratum lucidum

Question 19

Layer special to thick skin

Answer 19

Stratum lucidum

Clear layer

Question 20

Signs of skin ageing

Answer 20

Thin, drier epidermis (less sebum)
Thin dermis
Impaired cooling
Slow skin repair
Less pigmentation

Question 21

Skin on humans

Answer 21

16% body weight

Hairless and sweaty - survival advantage

Question 22

Hair components

Answer 22

Hair shaft
Hair follicle
Sebaceous gland
Arrector pili muscle

Question 23

Sebaceous gland function

Answer 23

Produce sebum
Protection against elements - moisture/water repellent
Prominent on upper body

Question 24

Arrector pili muscle

Answer 24

Contracts in cold
Hair strands stand on end
Feedforward, influence behaviour response

Question 25

Cause of acne

Answer 25

Blockage of hair follicle due to sebum

Question 26

Types of sweat glands

Answer 26

Eccrine

Apocrine

Question 27

Eccrine found…

Answer 27

Everywhere

Base in dermis and terminates at skin surface

Question 28

Eccrine function

Answer 28

Thermoregulation (eg. sweating)

Question 29

Apocrine found…

Answer 29

Specialised

Deep dermis/hypodermis and releases into base of hair follicle

Question 30

Apocrine function

Answer 30

Oily

Question 31

Nail function

Answer 31

Increase sensation

Protect fingertip

Question 32

How do nails increase sensation

Answer 32

Sense = how deformed receptors become

Hard backing = more deformation

Question 33

Responsible for pigmentation

Answer 33

Melanocytes

Question 34

Melanocytes features

Answer 34

Produces melanin
Found in stratum basale
Not shed
Density varies in body, not b/w races

Question 35

Melanin

Answer 35

Pigment absorbs UV light, protection from UV damage

Transferred by melansomes to epidermal cells

Question 36

Melanosomes are

Answer 36

Vesicles with melanin within epidermis. Sheds with keratinocytes
Different rates of production = different colours

Question 37

Vit D deficiency caused by

Answer 37

Low UV exposure

High pigmentation

Question 38

Basal cell carcinoma

Answer 38

Common, harmless
Stratum basale
Little metastasis

Question 39

Malignant melonoma

Answer 39

Rare, deadly
Melanocytes
Highly metastasis

Question 40

Mortality rate depends on

Answer 40

Melanona depth

Deeper = decrease % of survival

Question 41

Tattoo features

Answer 41

Artifical pigmentation into dermis
Captured iside immun cell/scar tissue
Able to travel via lymphatic system

Question 42

Free nerve ending receptors

Answer 42

Common
Small unmyelinated (dull pain)
Some myelinated (sharp pain)

Question 43

Free nerve ending responds to

Answer 43

Temp
Painful stimuli
Movement and pressure
Light touch (peritrichial endings around hair follicle)

Question 44

Free nerve ending senses through

Answer 44

Sensory terminals (small swelling at distal ends in epidermis)
Acts as cation channels > depolarise > A.P

Question 45

Tactile (Merkel) discs

Answer 45

Large epidermal cells

Communication b/w tactile & nerve ending via serotonin

Question 46

Tactile (Merkel) discs senses

Answer 46

Texture
Shape
Fine touch
Light pressure

Question 47

Tactile (Merkel) discs abundant in

Answer 47

Fingertips

Small receptive fields

Question 48

Tactile (Meissuer) Corpuscles found in

Answer 48

Papillary layer of hairless skin

Question 49

Tactile (Meissuer) Corpuscles features

Answer 49

Branching unmyelinated sensory terminals
In Schwann cell
Surrounded by thin FCT

Question 50

Tactile (Meissuer) Corpuscles senses

Answer 50

Delicate touch
Light pressure
Low freq vibration

Question 51

Tactle (Meissuer) Corpuscles how does it sense

Answer 51

Deformation = entry of Na+ > A.P

Question 52

Lamellar (Pacinian) Corpuscles found

Answer 52

Deep in dermis & hypodermis

Question 53

Lamellar (Pacinian) Corpuscles senses

Answer 53

Deep pressure

Vibration

Question 54

Lamellar (Pacinian) Corpuscles senses how

Answer 54

Deformation opens Na+ channels in sensory axon > A.P
Rapid adaption
Inner layers axon terminal ‘relax’, A.P discontinue

Question 55

Lamellar (Pacinian) Corpuscles appearance

Answer 55

Dendrite

Surrounded by collagen fibers (from fibroblasts) & gelatinous interstitial fluid

Question 56

Bulbous Corpuscles found

Answer 56

Dermis & subcutaneous tissue

Question 57

Bulbous Corpuscles appearance

Answer 57

Nerve ending surrounded by collagen fibres within a capsule

Question 58

Bulbous Corpuscles sense

Answer 58

Sustained deep pressure
Distortion of skin
Degree of joint rotation (proprioception)
Slipage of object on skin

Question 59

Blood flow controlled by

Answer 59

Smooth muscle in arteries and precapillary spinctors controlled by sympathetic nervous system

Question 60

Blood flow changing levels how

Answer 60

Noradrenaline acts on ⍺1 adrenergic receptors on muscle

Question 61

Increase blood flow

Answer 61

Decrease SNS, dilation of blood vessels

Question 62

Decrease blood flow

Answer 62

GPCRs + 2nd messenger = increase Ca2+ > contraction of blood vessel

Question 63

Types of heat transfer

Answer 63

Radiation
Evaporation
Convection
Conduction

Question 64

Eccrine sweat glands

Answer 64

SNS > sympathetic cholinergic = ACh > mAChRs (GRCRs)

Question 65

Decrease heat

Answer 65

Vasodilation
Sweating (increase SNS cholinergic)
Increase repiratory rate

Question 66

Increase heat

Answer 66

Shivering (oscillatory contractions mediated muscle spindles)
Increase thyroxine, BMR
Heat transfer b/w arteries and veins
Increase cellular metabolism

Question 67

First degree burn

Answer 67

Superficial - epidermis
Dry, pink, barrier intact
3 - 10 days healing

Question 68

Seconds degree burn

Answer 68

Epidermis, some dermis
Red, moist
1 - 2 weeks

Question 69

Deeper second degree burn

Answer 69

Dermis
Whiteish, waxy, loss of sensation
1 month, scarring

Question 70

Third degree burn

Answer 70

Subcutaneous tissue (hypodermis, adipose tissue gone)
Leathery, white/red/black
Sensory nerves destroyed
Many months

Question 71

Control heat homeostasis

Answer 71

Preoptic area > hypothalamus

Central thermoreceptors

Question 72

Complications from burns

Answer 72

Dehydration
Infection (septic shock - bacteria in blood)
Hypothermia
Increase K+ - RMP

Question 73

Skin function

Answer 73

Protection (abrasion, UV, fluid loss)
Homeostasis (temp)
Excrete waste