Integumentary system

Question 1

How does keratin protect the skin?

Answer 1

(tightly interlocked keratinocytes) protects underlying tissues from microbes, abrasion, heat and chemicals.

Question 2

How does lipid secretion protect the skin?

Answer 2

Lipids secreted by lamellar granules inhibit water evaporation from the skin surface (prevents dehydration); and entry (during showers and swims).

Question 3

How does sebum protect the skin?

Answer 3

Sebum from sebaceous glands keep skin and hair from drying out, contains bactericidal chemicals.

Question 4

How does the skin pH protect the skin?

Answer 4

Acidic pH prevents growth of some microbes

Question 5

How do langerhans cells and macrophages protect the skin?

Answer 5

Epidermal Langerhans cells trigger immune system when microbes
invade.
Macrophages in the dermal layer phagocytize bacteria and virus that bypassed epidermal Langerhans cells.

Question 6

Explain other functions of the skin

Answer 6

Regulation of body temperature
• Thermoregulation, homeostatic regulation of body temperature

Reception: general sensations e.g. touch, vibrations, temperature, pain, pressure
• Cutaneous sensations also include thermal sensations (warmth or coolness).

Excretion: sebaceous glands, apocrine glands, eccrine sweat glands • Evaporation of water ~400mL per day.

Absorption: UV sun rays → Vitamin D synthesis

Question 7

Name the two abundant pigments in the epidermis

Answer 7

Carotene
Melanin

Question 8

Describe Carotene

Answer 8

Orange-yellow pigment which accumulates in epidermal cells.
• Mostly found in cells of stratum corneum of light-skinned individuals.

Question 9

Describe Melanin

Answer 9

Consists of 2 types of melanin, red-yellow form (pheomelanin) and
brown-black form (eumelanin).
• Also accumulates in fatty tissues in the deep dermis and subcutaneous layer.

Question 10

Describe the process of melanin production

Answer 10

• Melanocytes produce both melanin types from amino acid tyrosine in the presence of tyrosinase enzyme and package it into intracellular vesicles called melanosomes.
• These melanosomes are transferred into keratinocytes in the basal layer and keratinocytes become pigmented temporarily. These melanosomes are then destroyed by lysosomes inside keratinocytes.

Question 11

Where does melanosome destruction occur in light-skinned people?

Answer 11

Stratum basale and stratum spinosum
And cells in superficial layers loses their pigmentation

Question 12

Where does melanosome destruction occur in dark-skinned people?

Answer 12

Stratum granulosum

Question 13

T or F: difference in skin pigmentation is due to variation in number of melanocytes in each individual.

Answer 13

F

The difference in skin pigmentation amongst people does not reflect different numbers of melanocytes but rather different levels of melanin synthesis.

Question 14

T of F: albinism is caused by abnormal distribution of melanocytes in the skin.

Answer 14

F

People with albinism have normal distribution of melanocytes but the cells are incapable of producing melanin.

Question 15

Describe freckles

Answer 15

Freckles= small, pigmented areas on relatively pale skin.
• These spots typically have irregular border & reflect an area where melanocytes produce larger than average amount of melanin.

Question 16

What are lentogos?

Answer 16

Lentigos= similar to freckles but have regular borders and contain abnormal melanocytes.
• Senile lentigos (liver spots)= variably pigmented area developing on sun-exposed skin surfaces in older individuals with pale skin.

Question 17

What is the function of melanin?

Answer 17

The melanin in keratinocytes protects both epidermis and dermis from harmful effects of
sunlight, ultraviolet (UV) radiation.

Question 18

How does melanin perform its function?
(Protection of the skin from harmful effect of the UV radiation and sunlight )

Answer 18

Melanosomes in keratinocytes perform this function by increasing their concentration in regions around nucleus, melanin pigment acts
as a sunshade, to provide some UV protection for DNA in exposed epidermal cells.

Question 19

________________ is the partial or complete loss of melanocytes. It may be due to Immune system malfunctioning in which antibodies attack the melanocytes.

Answer 19

Vitiligo

Question 20

Explain the process of keratinisation

Answer 20

Newly formed cells in the stratum basale are slowly pushed to the surface.
As cells move from one epidermal layer to the next, they accumulate more and more keratin = keratinization.
• Keratinized cells undergo apoptosis and eventually slough off (takes about 4 weeks from being formed in stratum basale until sloughing off in the surface) and are replaced by underlying cells; and the cycle continues again.

Question 21

How does the epidermis get its nutrients?

Answer 21

Nutrients diffuse from the vascularized dermal layer into the avascular epidermis. Cells in the stratum basale receive these nutrients due to their close proximity to the dermal layer, and are mitotically and metabolically active to produce new keratinocytes.

Question 22

What causes an increase in cell division of the stratum basale?

Answer 22

Cell division in the stratum basale increases when outer epidermal layers are stripped off (abrasion, burns). The mechanism regulating this process is not fully understood. However, epidermal growth factor (EGF), a hormone-like protein play a role.

Question 23

Where are the Langerhans cells produced? And where are they located?

Answer 23

Arise from the red bone marrow and migrate to the epidermis. They are antigen- presenting cells located in the stratum spinosum of epidermis, can also be found in the dermis.

Question 24

What is the function of langerhans cells?

Answer 24

Participates in immune response by defending against microorganism invasion and against superficial skin cancers.

Question 25

Langerhans cells have membrane-bound_________ __________ which contain an integral protein called___________ (a lectin receptor), which assist in engulfing antigens.

Answer 25

Birbeck granules
Langerin

Question 26

What is the function of Birbeck granules in the skin immune response?

Answer 26

The Birbeck granules degrade and process antigens into epitopes→ Langerhans cells migrate to lymph nodes and present epitopes of processed foreign antigens to T- lymphocytes, hence Langerhans cells are called antigen-presenting cells.

Question 27

Describe Merkel cells

Answer 27

Are found in the deep layer of the epidermis, stratum basale. It is in very close proximity with flattened processes of a sensory neuron called tactile disc.
This association makes them sensitive to touch sensation, hence, may act as mechanoreceptors.

Question 28

Function of Meissner’s corpuscles

Answer 28

Detection of Fine touch and vibration

Question 29

Function of pacinian corpuscles

Answer 29

Deep pressure detection

Question 30

Function of Ruffini endings

Answer 30

slow adapting receptors responding to stretching of the skin.

Question 31

How does the body respond to increased body temp?

Answer 31

Higher body temperatures in response to high environmental temperatures or heat produced by exercise; eccrine glands increases their sweat production→ increase sweat evaporation from the skin surfaces→ cools the body.

Question 32

How does the body respond to low body temp?

Answer 32

In response to low environmental temperatures→ sweat production from eccrine glands decreases→helps conserve heat.
e) Blood vessels in the dermal layer constrict→ decrease blood flow through the skin surfaces→ reduce heat loss from the body.
f) Skeletal muscle contractions (shivering) generate body heat.

Question 33

What causes burns?

Answer 33

Heat, electricity, radiation, corrosive chemicals

Question 34

Describe 1st degree burn, give an example

Answer 34

Only affects the epidermis; characterized by mild pain and erythema (redness) but no blisters. Skin still functions properly.
E.g mild sunburn

Question 35

How long does a 1st degree burn take to heal?

Answer 35

• Healing usually takes 3 to 6 days, may be accompanied by flaking or peeling.

Question 36

Describe a 2nd degree burn

Answer 36

It destroys the epidermis and part of the dermis.
Some skin functions are lost. Redness, blisters, oedema, and pain will result.
Blisters: epidermal layer separates from the dermis due to accumulation of tissue fluid between them.
Hair follicles, sebaceous glands, sweat glands, are usually not injured

Question 37

How long does a 2nd degree burn take to heal?

Answer 37

If not infected, 2nd degree burns heal (without grafting) within 3 to 4 weeks, but scarring may result

Question 38

Both the 1st and 2nd degree burns are collectively referred to as_________________.

Answer 38

partial-thickness burns

Question 39

Describe 3rd degree burn

Answer 39

Destroys epidermis, dermis and subcutaneous layer.
• Most skin functions are lost.
• These burns vary in appearance from marble-white to mahogany coloured to charred, dry wounds.
- There are marked oedema, burned region is numb because sensory nerve endings have been destroyed.
- Regeneration occurs slowly, most granulation tissue forms before being covered by epithelium

Question 40

Which degree of burn usually needs skin grafting?

Answer 40

3rd degree burn

Question 41

Describe local effect of a burn

Answer 41

Local effect of a burn: an injury to the skin directly in contact with the damaging agent

Question 42

Describe systemic effect of a burn

Answer 42

Systemic effect: major burns are a greater threat to life. The effect include: a) Large loss of water, plasma, plasma proteins, which cause shock.
b) Bacterial infection
c) Reduced blood circulation
d) Reduced urine production
e) Diminished immune response

Question 43

List common types of epidermal wounds

Answer 43

Common types of epidermal wounds include: abrasions, minor burns (sun-burns)

Question 44

Describe epidermal wound healing

Answer 44

In response to epidermal injury, basal cells of the epidermis surrounding the wound break contact with the basement membrane.
• Basal cells then enlarge→migrate across the wound.
• The cells appear to migrate as a sheet until advancing cells from opposite side meet.
• When epidermal cells encounter one another, they stop migrating due to cellular response (contact inhibition).

Migration of epidermal cells stops completely when each cell is finally in contact with other epidermal cells on all sides.
• As basal epidermal cells migrate, a hormone called epidermal growth factor (EGF) stimulates basal stem cells to divide and replace ones that have moved into the wound.
• The relocated basal epidermal cells divide to build new strata, thus thickening the new epidermis.

Question 45

List the 4 phases of deep wound healing

Answer 45

1. Homeostasis and inflammation phase
2. Migratory phase
3. Proliferative phase
4. Maturation phase

Question 46

Describe the homeostasis and inflammatory phase of healing

Answer 46

Blood clot forms in the wound→loosely unites wound edges.
• Vasodilation and increased blood vessel permeability allows for delivery of neutrophils, monocyte (macrophages), mesenchymal cells (develop into fibroblasts) into the injured area.

Question 47

Describe the migratory phase of healing

Answer 47

Clot becomes scab→bridge the wound.
• Fibroblastsmigratealongfibrinthreads→synthesizescartissue (collagen fibers and glycoproteins)→ damaged blood vessels begin to regrow.
• The tissue filling the wound is called granulation tissue.

Question 48

Describe the proliferative phase of healing

Answer 48

Extensive growth of epithelial cells beneath the scab as a result of fibroblasts; continued growth of blood vessels.

Question 49

Describe the maturation phase of healing

Answer 49

Scab sloughs off once epidermis has been restored to normal thickness.
• Collagen fibres become more organized,fibroblasts decrease in number, blood vessels are restored to normal.

Question 50

The process of scar tissue formation is called______________.

Answer 50

Fibrosis

Question 51

Differentiate between the two types of scar tissue

Answer 51

Hypertrophic scar: scar that remains within the boundaries of the original wound.

• Keloid (cheloid) scar: scar that extends beyond the boundaries into normal surrounding tissues.

Question 52

Why are scars different from normal skin tissue?

Answer 52

More densely arranged collagen fibres, Decreased elasticity, Fewer blood vessels,

Different or same number of hairs, skin glands, or sensory structures as undamaged skin.

Scars are lighter in colour than normal skin due to the arrangement of collagen fibres, scarcity of blood vessels.