Lecture 3: SKIN PHYSIOLOGY

Question 1

What is meant by there is no perfect “one receptor - one function’ relationship?

Answer 1

Receptors can often respond to several different stimuli but will be most sensitive to a particular type

Question 2

What are the types of receptors?

Answer 2

Free nerve endings, tactile (Merkel) discs, tactile (messier) corpuscles, lamellar (pacinian) corpuscles and bulbous corpuscles (Ruffini’s endings)

Question 3

What is the most common receptors in skin?

Answer 3

Free nerve endings

Question 4

What is the structure of free nerve endings?

Answer 4

Mostly unmyelinated small diameter fibres but also some small diameter myelinated fibres

Question 5

Where are free nerve endings found?

Answer 5

Axon terminals branch into epidermis and detect lots of things

Question 6

What do free nerve endings usually have?

Answer 6

Small swellings at distal ends called sensory terminals

Question 7

What do sensory terminals have?

Answer 7

Receptors that function as cation channels»>depolarisation»>action potentials

Question 8

What do free nerve endings respond to?

Answer 8

Mainly temperature (hot/cold), painful stimuli, some movement and pressure, some to itch (in response to histamine)

Question 9

What do antihistamines do?

Answer 9

Block the receptors to the itch

Question 10

What do some free nerve endings do?

Answer 10

Wrap around hair follicles (petririchial endings) acting as light touch receptors which detect bending of hairs

Question 11

What are tactile (Merkel) discs?

Answer 11

Free nerve endings located in the deepest layer of the epidermis

Question 12

What are tactile discs associated with?

Answer 12

Large disc shaped epithelial (Merkel) cells

Question 13

How is communication between the tactile epithelial cell and nerve endings possible?

Answer 13

Via serotonin (5HT)

Question 14

Where are tactile (Merkel) discs abundant?

Answer 14

In fingertips and they have very small receptive fields so good for two point discrimination

Question 15

What are tactile (Merkel) discs sensitive to?

Answer 15

An objects physical features such as texture, shape and edges. Also fine touch and light pressure

Question 16

Where are tactile (messier) corpuscles located?

Answer 16

In the papillary layers of the dermis between the epidermal ridges

Question 17

Where are tactile (messier) corpuscles especially found?

Answer 17

In hairless skin (finger pads, lips, eyelids, soles of feet, external genitalia, nipples)

Question 18

What is the structure of tactile (messier) corpuscles?

Answer 18

Encapsulated
Spiralling/branching unmyelinated sensory terminals surrounded by modified Schwann cells which don’t form myelin and then by a thin oval fibrous connective tissue capsule

Question 19

What does deformation of the tactile (messier) corpuscle capsule trigger?

Answer 19

Entry of sodium ions into the nerve terminal&raquo_space;> action potential

Question 20

What do tactile (messier) corpuscles sense?

Answer 20

Delicate ‘fine’ or discriminative touch, light pressure and low frequency vibration (20-80Hz)

Question 21

What is delicate ‘fine’ or discriminative touch?

Answer 21

Sensitive to shape and textural changes in exploratory touch and movement of objects over the surface of the skin

Question 22

Where are lamellar (pacinian) corpuscles found?

Answer 22

Scattered deep in the dermis and hypodermis

Question 23

What is the structure of lamellar (pacinian) corpuscles?

Answer 23

Single dendrite lying within concentric layers of collagen fibres (secreted by fibroblasts) and specialised fibroblasts

Question 24

What are the layers of collagen fibres in lamellar (pacinian) corpuscles separated by?

Answer 24

Gelatinous interstitial fluid

Question 25

What is the dendrite in lamellar (pacinian) corpuscles isolated from?

Answer 25

Stimuli other than deep pressure

Question 26

What happens when there is deformation of the capsule in lamellar (pacinian) corpuscles?

Answer 26

Pressure sensitive sodium channels are opened in the sensory axon. Inner layers covering the axon terminal relax quickly so action potential is discontinued (rapidly adapting)

Question 27

What are lamellar (pacinian) corpuscles stimulated by?

Answer 27

Deep pressure (when first applied) and also vibrating because rapidly adapting

Question 28

What is optimal stimulation frequency?

Answer 28

Around 250 Hz which is similar to frequency range generated upon fingertips by textures comprising off <1 micrometre

Question 29

Where are bulbous corpuscles (Ruffini’s endings) found?

Answer 29

In dermis and subcutaneous tissue

Question 30

What is the structure of bulbous corpuscles (Ruffini’s endings) ?

Answer 30

Network of nerve endings intertwined with a core of collagen fibres that are continuous with those of the surrounding dermis. Capsule surrounds the entire structure

Question 31

What are bulbous corpuscles (Ruffini’s endings) sensitive to?

Answer 31

Sustained deep pressure and stretching or distortion of the skin

Question 32

What are bulbous corpuscles (Ruffini’s endings) important for?

Answer 32

Signalling continuous states of deformation of tissues such as heavy prolonged touch and pressure signals

Question 33

Where are bulbous corpuscles (Ruffini’s endings) also found?

Answer 33

In joint capsules where they help signal degree of joint rotation (proprioreception)

Question 34

Where are bulbous corpuscles (Ruffini’s endings) in high density?

Answer 34

Around fingernails so may have a role in monitoring slippage of objects across surface skin

Question 35

What do bulbous corpuscles (Ruffini’s endings) allow?

Answer 35

Modulation of grip

Question 36

Where do arteries supply blood to?

Answer 36

Skin in the subcutaneous layer

Question 37

Where do branches of arteries go?

Answer 37

Extend into the superficial layers and give rise to capillary loops which supply blood to the epidermis

Question 38

What happens after blood is supplied to the epidermis?

Answer 38

It drains down into the venous plexus

Question 39

What is also in the walls of arteries/blood vessels?

Answer 39

Smooth muscle that is under the control of the sympathetic nervous system

Question 40

What are precapillary sphincters?

Answer 40

Bands of smooth muscle at the start of the capillary beds. Contracting muscles constricts blood vessels and reduces blood flow to the upper layers of the skin

Question 41

What does noradrenaline act on?

Answer 41

The alpha 1 adrenergic receptors on the vascular smooth muscle of the skin

Question 42

What happens after the alpha 1 adrenergic receptors on the vascular smooth muscle of the skin?

Answer 42

G- protein coupled receptors (GPCR’s) coupled to intracellular 2nd messengers lead to increase intracellular calcium ions and therefore constriction. Reduces skin blood flow

Question 43

What happens when SNS activity is reduced?

Answer 43

Relaxation (dilation) of arteries to the skin causing an increase in skin blood flow

Question 44

What is skin blood flow important in?

Answer 44

Thermoregulation and blood pressure control

Question 45

What is the optimal core body temperature/ set point?

Answer 45

36.5-37.5

Question 46

What happens when core body temperature gets too high?

Answer 46

Proteins denature and problems occur

Question 47

What are the mechanisms for heat transfer?

Answer 47

Radiation, conduction, convection and evaporation

Question 48

What does radiation cause?

Answer 48

Heat loss in the form of infrared rays

Question 49

What objects will radiate infrared rays?

Answer 49

Any objects not at absolute zero temperature

Question 50

What radiates heat?

Answer 50

As well as the body radiating heat, heat rays are also being radiated from objects towards the body

Question 51

What happens when the body temperature is greater than the temperature of the surroundings?

Answer 51

More heat will be radiated from the body than to it

Question 52

What is conduction?

Answer 52

Transfer of heat to objects or media which are in contact

Question 53

What is conduction mainly lost to?

Answer 53

A lot more to air than to objects

Question 54

What happens when the temperature of the air beside the skin becomes equal to the temperature of the skin?

Answer 54

Heat will stop being lost bu conduction unless the heated air moves away to be replace by cooler air (air convection)

Question 55

What is convection?

Answer 55

Transfer of heat to air (or water) by conduction followed by the movement of air (or water) away from the skin which maintains the heat gradient for heat loss from the body

Question 56

Why does a small amount of convection almost always occur?

Answer 56

Because of the tendency of heated air surrounding the body to rise

Question 57

When does convection increase?

Answer 57

In wind/ running

Question 58

What happens when water evaporates from the body?

Answer 58

The heat energy required to cause the water to evaporate is also lost

Question 59

What happens when not sweating?

Answer 59

Water is still evaporated from the skin and respiratory tract

Question 60

When is evaporation important?

Answer 60

When the temperature of the environment is greater than body temperature because it is the only method that heat can be lost by

Question 61

Heat loss to water vs air

Answer 61

The body loses heat to water faster than air

Question 62

What are the eccrine sweat glands innervated by?

Answer 62

The sympathetic nervous system

Question 63

What do sympathetic cholinergenic nerves do?

Answer 63

Release ACH onto mAChR’s (GPCR’s)

Question 64

What can some eccrine sweat glands do?

Answer 64

Be stimulated by adrenaline in the blood acting on beta receptors - ‘nervous sweating’ especially on palms and soles

Question 65

What is involved in temperature regulation?

Answer 65

The preoptic area of the hypothalamus contains heat and cold sensitive neurons (central thermoreceptors)

Question 66

What happens when body temperature increases?

Answer 66

If blood goes above the set point then the heat loss centre is activated

Question 67

What happens when the heat loss centre is activated?

Answer 67

• decreased SNS activation of alpha 1 receptors on skin blood vessels causes vasodilation
• increased SNS cholinergic activation of mAChR’s on sweat glands causes sweating
• Increased respiratory rate (evaporative heat loss increases)
• behavioural changes

Question 68

What happens when body temperature falls?

Answer 68

When blood goes below the set point the heat gain centre is activated

Question 69

What happens when the heat gain centre is activated?

Answer 69

Blood vessels vasoconstrictor to make less blood go to the skin and lose less heat to the environment. Also countercurrent exchange

Question 70

What is countercurrent exchange?

Answer 70

Cold blood coming back in veins which are in close proximity with arteries is warmed up by heat transfer from the arteries before it reaches the surface

Question 71

What are the heat generating mechanisms?

Answer 71

Shivering, non-shivering thermogenesis and increased thyroxine

Question 72

What is shivering?

Answer 72

Increased tone of skeletal muscles

Question 73

What happens when tone rises above a critical level?

Answer 73

Shivering begins due to oscillatory contractions of agonist and antagonist muscles mediated by muscles spindles (stretch receptors)

Question 74

What happens in non-shivering thermogenesis?

Answer 74

Increased sympathetic nerve activity and increased circulating adrenaline/noradrenaline from the adrenal medulla

Question 75

What happens to the metabolism in non-shivering thermogenesis?

Answer 75

Increased cellular metabolism/metabolic rate

Question 76

What also happens in non-shivering thermogenesis (particularly in infants)?

Answer 76

uncoupling of oxidative phosphorylation - heat produced instead of ATP (occurs in brown fat, particularly in infants)

Question 77

What is increased thyroxine in response to?

Answer 77

TRH and TSH

Question 78

What does increase thyroxine do?

Answer 78

Increases the basal metabolic rate

Question 79

How long will it take for increased thyroxine take to begin in adult humans?

Answer 79

It may take several weeks of cold before the thyroid reaches new levels of thyroxine secretion

Question 80

What are arrector pili muscles?

Answer 80

Smooth muscle innervated by SNS (alpha 1 receptors)

Question 81

What do arrector pili muscles attach to?

Answer 81

The hair follicle and the upper dermis

Question 82

What happens when arrector pili muscles contract?

Answer 82

The hair is pulled upright and the skin is dimpled where it attaches to the dermis (goosebumps). Also compresses sebaceous glands which lubricates the skin

Question 83

What happens if you are a hairy mammal?

Answer 83

Goosebumps can trap a warm layer of air around the skin and make you look bigger, scarier and more formidable but it isn’t that useful for humans but can be a good example of physiological feedforward

Question 84

Where are first degree burns?

Answer 84

Superficial - only involve outer layers of the epidermis

Question 85

What is the appearance of first degree burns?

Answer 85

Red/pink, dry, painful, usually no blisters

Question 86

What is an example of first degree burns?

Answer 86

Mild sunburn

Question 87

What happens to the skin in first degree burns?

Answer 87

Remains a water and bacterial barrier

Question 88

How long does it take for first degree burns to heal?

Answer 88

Usually 3-10 days

Question 89

Where are second degree burns?

Answer 89

The epidermis and varying amounts of the dermis

Question 90

What is the appearance of second degree burns?

Answer 90

Painful, moist, red and blistered

Question 91

How long does it take second degree burns to heal?

Answer 91

Approximately 1-2 weeks

Question 92

What do second degree burns need?

Answer 92

Good dressings (absorptive initially)

Question 93

What do deeper second degree burns look like?

Answer 93

May include whiteish, waxy looking areas

Question 94

What happens to the hair follicles and sweat glands in deeper second degree burns?

Answer 94

The may remain intact

Question 95

What may happen to receptors in deeper second degree burns?

Answer 95

Some tactile receptors may be lost meaning they are less painful

Question 96

How long does it take for deeper second degree burns to heal?

Answer 96

Usually heal in 1 month but may have some loss of sensation and scarring

Question 97

Where are third degree burns?

Answer 97

Full thickness - extend into subcutaneous tissue and may include muscle and bone

Question 98

What is the appearance of third degree burns?

Answer 98

Varied colour from waxy white through to deep red or black. Hard, dry and leathery

Question 99

What is the pain like in third degree burns?

Answer 99

There is no pain because sensory nerve endings are destroyed

Question 100

What happens if third degree burns are more than a few centimetres?

Answer 100

They may require skin grafting

Question 101

How long do third degree burns take to heal?

Answer 101

Weeks to regenerate and scarring

Question 102

What must we know to find fluid replacement for burns?

Answer 102

The percentage of the total body surface area involved in second degree burns or more

Question 103

What percentage is the adult head?

Answer 103

9%

Question 104

What percentage are the upper limbs of adults?

Answer 104

9% each

Question 105

What percentage is the adult trunk?

Answer 105

36% (front and back)

Question 106

What percentage is the adult genitalia?

Answer 106

1%

Question 107

What percentage is the adult lower limb?

Answer 107

18% each

Question 108

What percentage is the child head?

Answer 108

15%

Question 109

What percentage is the child trunk?

Answer 109

32% (front and back)

Question 110

What percentage is the child upper limb?

Answer 110

9% each

Question 111

What percentage is the child genitalia?

Answer 111

1%

Question 112

What percentage is the child lower limb?

Answer 112

17% each

Question 113

What are complications of severe burns which directly relate to the skin function?

Answer 113

Dehydration and hypovolemic shock, infection/sepsis and hypothermia

Question 114

What are complications of severe burns which don’t relate to skin function?

Answer 114

electrolytes imbalances, hyper metabolism, gastrointestinal ulceration, renal failure and respiratory dysfunction