D. The Integumentary System.pptx.pdf

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The Integumentary System
Objective
The Integumentary System
Integument is skin
Skin and its appendages make up the
integumentary system
A fatty layer (hypodermis) lies deep to it
Two distinct regions
◻ Epidermis
◻ Dermis
 STRUCTURE OF THE SKIN
epidermis dermis hypodermis
- Derived from -relatively dense and -subcutaneous layer rich
ectodermal germ layer of vascular connective in fat and areolar tissue
the embryo tissue
- Fully formed by the 17th -2 layers -varies with nutrition
week of gestation a.Thin papillary - Thicker in obese people
b.Reticular layer
-cell type include keratin,
melanin and langerhans
- outer/ thinner - Inner /thicker
5 strata
Functions of skin

Protection
◻ Cushions and insulates and is waterproof
◻ Protects from chemicals, heat, cold, bacteria
◻ Screens UV
Synthesizes vitamin D with UV
Regulates body heat
Prevents unnecessary water loss
Sensory reception (nerve endings)
 Functions of the skin
1. Protection
📫Physical barrier to microorganisms
📫Barrier to chemical hazards
📫Reduce potential for chemical trauma
📫Prevent dehydration
📫Protect from excess UV exposure
📫Surface film- a emulsified protection barrier formed when mixing of
residues and secretions of sweat and sebaceous glands sloughed
epithelial cells from skin surface. This film is anti-bacterial activity,
lubrication, causes movement to occur without injury, it’s a buffer for
caustic irritants and blocked toxic agents.
 2. Sensation
📫Sense organs
📫Have somatic sensory receptors which detect stimuli of pressure,
touch, temperature and pain
3. Excretion
📫Regulate the volume and chemical content of sweat
📫Influence total fluid volume and amount of waste products such as uric
acid, ammonia and urea
📫The function of the sweat glands is to keep the body temperature
constant by the evaporation of water.
(explain how the sweat glands function)
📫Microscopic bacteria act on the water to produce a bad odor
4. Vitamin D production
📫Exposure of skin to UV light covert dehydrocholesterol to calciferol – a
precursor to vit. D. Calciferol is transported to the liver and kidney by
the blood where vitamin D is produced
5. Immunity 6. temperature control
 Skin classification based on epidermal layer
1. Thin skin
📫 Covers most of the body
📫 Less number of cell layers than in thick skin
📫 One or more strata may be entirely absent
📫 Raised parallel ridges not present in the dermis

2. Thick skin
📫 Covers palm of hands and finger tis, sole of feet and other body area subject
to friction
📫 Each of the 5 strata of the epidermis are present and are generally several
cell layers thick
📫 Includes- stratum corneum (horney layer), stratum lucidum (clear layer),
stratum granulosum (granular layer) , stratum spinosum (spiny layer) and
stratum basale (base layer)
Epidermis
Keratinized stratified squamous epithelium
Four types of cells
◻ Keratinocytes – deepest, produce keratin (tough fibrous protein)
- Comprised over 90% of the epidermal cells and form principal
structural element of the outer skin.

◻ Melanocytes - make dark skin pigment melanin
- Contributes to skin color and serve to filter ultraviolet light
- Comprise over 5% of the epidermal cells

◻ Merkel cells(tactile) – associated with sensory nerve endings

◻ Langerhans cells(epidermal dendritic) – macrophage-like dendritic
cells
- Plays a limited rile in immunological reactions that affect the skin
and may serve as a defense mechanism for the body.
- Originates in the bone marrow but migrate to deep cell layers in
the epidermis early in life
- Function to trigger immune reaction in pathological conditions
 Layers (from superficial to Deep)
◻ Stratum corneum – horny layer
📫 Composed of very thin squamous cells that are dead
at the skin surface and are continually replace
📫 Cytoplasm replaced by keratin
📫 Layer strengthen by desmosomes which hold
adjacent keratinocytes together
Function:
As a barrier to water loss and many environmental
threats ranging from microorganisms and harmful
chemical to physical trauma.
Note:
If the layer is damage, the effectiveness of the skin as a
protective layer is greatly reduced.
* Hyperkeratosis
 Stratum Lucidum and Stratun Granulosum
Stratum Lucidum
📫Clear packed, no nuclei
📫Filled with eleidin, a soft jelly substance which eventually
transforms to keratin
📫Function to block water penetration or loss
📫Absent in thin skin
Stratum Granulosum
📫Process of keratinization begins here
📫Cells are arranged in a sheet of 2-4 layers and are filled
with intensely staining granules called KERATOHYALIN
required for keratin formation
📫May be missing in some regions of thin skin
 Stratum Spinosum and Stratum Basale
Stratum Spinosum
📫Form from 8-10 layers of irregularly shaped cells with prominent
intercellular demosomes.
📫Cells are rich in RNA and therefore well equipped to initiate protein
synthesis required for production of keratin

Stratum Basale
📫Single layer of columnar cells
📫Cells undergo mitosis
📫Migrate to other layers until they are shed from the skin
Epithelium: layers (on left) and cell types (on right)
 Epidermal growth and repair
1. Turn over or generation time- refers to the time required for
epidermal cells to form the stratum Basale and migrate to the skin
surface- about 35 days.

2. Shorten repair time will increase thickness of stratum corneum and
result in callus formation.

3. Normally 10-12% of all cells in the stratum basale enter mitosis daily.

4. Each group of 10 basal cells in mitosis with their vertical column of
migrating keratinocytes is called an epidermal proliferating unit or CPU
Remember…
Four basic types of tissue

◻ Epithelium – epidermis just discussed
◻ Connective tissue - dermis
◻ Muscle tissue
◻ Nervous tissue
 Dermis
Strong, flexible connective tissue
Much thicker than the epidermis and may exceed 4mm in the sole
and palms
Thinnest on the eyelids and penis where it is seldom 0.5mm
Cells: fibroblasts, macrophages, mast cells, WBCs
Fiber types: collagen, elastic, reticular
Rich supply of nerves and vessels
Critical role in protection, reservoir storage of water and important
electrolytes and temperature regulation
Consist of specialized network of nerve and nerve endings called
SOMATIC SENSORY RECEPTORS which serve to process sensory
information.
Two layers (see next slides)
◻ Papillary – areolar connective tissue; includes dermal papillae
◻ Reticular – “reticulum” (network) of collagen and reticular fibers
*Dermis layers *Dermal papillae

*

*
 Papillary and Reticular layer
1. Papillary
- Comprise essentially of loose connective tissue elements and a fine
network of thin collagenous and elastic fibers.
📫Composed of dermal papillae that projects into the epidermis
📫Contain the dermal –epidermal junction
📫Forms a unique pattern that gives individual finger prints

2. Reticular
📫Contain dense, under lacing white collagenous fibers and elastic fibers
to make the skin tough yet stretchable.
📫When process from animal skin produces leather
 Dermal Growth and Repair
1. The dermis does not continually shed and regenerate
itself as the epidermis

2. During wound healing, the fibroblast begin forming an
unusually dense mass of raw connective fibers. If not
replaced by normal tissue it forms a scar.

3. Langer’s line (cleavage lines)- patterns formed from the
collagenous fibers of the reticular layers of the skin.
 Skin Color
📫 Determined by the quality of melanin
📫 Melanin is formed in the melanocytes from amino acids tyrosine with
the help of the enzyme tyrosinase.
📫 Lack of melanin results in ALBINISM
📫 The process is regulated by:
1. Tyrosinase
2. Exposure to sunlight
3. Hormones MSH- melanocyte stimulating hormone and ACTH
(adrenocorticotrophic hormone) produced by the pituitary gland
4. Increase age
* Carotene also contributes to skin color
Epidermis and dermis of (a) thick skin and (b) thin skin
(which one makes the difference?)
Fingerprints, palmprints, footprints
Dermal papillae lie atop dermal ridges
Elevate the overlying epidermis into epidermal ridges
Are “sweat films” because of sweat pores
Genetically determined

Flexion creases The dermis is the receptive
Deep dermis, from continual folding site for the pigment of tattoos

Fibers
Collagen: strength and resilience
Elastic fibers: stretch-recoil
◻ Striae: stretch marks
Tension lines (or lines of cleavage)
◻ The direction the bundles
of fibers are directed
Hypodermis
“Hypodermis” (Gk) = below the skin
“Subcutaneous” (Latin) = below the skin
Also called “superficial fascia”
“fascia” (Latin) =band; in anatomy: sheet of connective
tissue
Fatty tissue which stores fat and anchors
skin (areolar tissue and adipose cells)
Different patterns of accumulation
(male/female)
Skin color
Three skin pigments
◻ Melanin: the most important
◻ Carotene: from carrots and yellow vegies
◻ Hemoglobin: the pink of light skin
Melanin in granules passes from
melanocytes (same number in all races)
to keratinocytes in stratum basale
◻ Digested by lysosomes
◻ Variations in color
◻ Protection from UV light vs vitamin D?
Skin appendages
Derived from epidermis but extend into
dermis
Include
◻ Hair and hair follicles
◻ Sebaceous (oil) glands
◻ Sweat (sudoiferous) glands
◻ Nails
 Nails
Consist of epidermal cells converted to hard keratin
Development begins about week 10 and the nails of the toe
develops before the nails of the fingers
Corresponds to hooves and claws
Function of the nails is to grasp, manipulate and protection from
trauma
Grows from nail matrix
 Structure of the Nail
1. Nail body- visible part of each nail
2. Root- part of nail groove hidden by folds
of skin cuticle
3. Lunula- moon-shape white area nearest
root
4. Nail bed- layer of the epithelium under
nail body, contains abundant amount of
blood vessels
* Nails grow by mitosis of cells in the stratum
 HAIR
📫 It is an assessory organ
📫 It is found all over the body except on lips, palm of hands
and soles of feet and a few other small areas.
📫 The development of the hair begins in the 3rd fetal month
with the development of hair follicles. At the 5th month
fine soft hair called LANUGO covers the body but sheds
before birth. At 5-6th month the terminal hair merges but
it is the same follicle that develops at the 3rd fetal month.
📫 At puberty, coarse pubic and axillary hair develops.
Hair and hair follicles: complex
Derived from epidermis and dermis
Everywhere but palms, soles, nipples, parts of genitalia

*“arrector pili” is smooth muscle
* Hair bulb:
epithelial cells
surrounding
papilla

Hair papilla
is connective
tissue________________
 Functions of hair
◻ Warmth – less in man than other mammals
◻ Sense light touch of the skin
◻ Protection - scalp
Parts
◻ Root imbedded in skin
◻ Shaft projecting above skin surface
Make up of hair – hard keratin
Three concentric layers
◻ Medulla (core)
◻ Cortex (surrounds medulla)
◻ Cuticle (single layers, overlapping)
 Types of hair
◻ Vellus: fine, short hairs
◻ Intermediate hairs
◻ Terminal: longer, courser hair
Hair growth: averages 2 mm/week
◻ Active: growing
◻ Resting phase then shed
Hair loss
◻ Thinning – age related
◻ Male pattern baldness
Hair color
◻ Amount of melanin for black or brown; distinct form of
melanin for red
◻ White: decreased melanin and air bubbles in the
medulla
◻ Genetically determined though influenced by
hormones and environment
 Types of sweat glands
Eccrine or merocrine
◻ Most numerous
◻ True sweat: 99% water, some salts, traces of waste
◻ Open through pores
Apocrine
◻ Axillary, anal and genital areas only
◻ Ducts open into hair follices
◻ The organic molecules in it decompose with time - odor
Modified apocrine glands
◻ Ceruminous – secrete earwax
◻ Mammary – secrete milk
 Sweat glands
Entire skin surface
except nipples and
part of external
genitalia
Prevent overheating
500 cc to 12 l/day!
(is mostly water)
Humans most
efficient (only
mammals have)
Produced in
response to stress
as well as heat
 SWEAT GLANDS(sudoriferous)
1. Sudoriferous glands (sweat glands)
📫2 types: 1. Eccrine(merocrine) glands – numerous, distributed on palm
and sole of feet and function in secretion and temperature control.
2. Apocrine – larger than eccrine, distributed in axillary and
genial areas, contain fat and proteins, secretion is odourless until
organic decomposition occurs, activates during stress and pain,
increase during foreplay and it is secreted during puberty and triggered
by the production of androgens.

2. Sebaceous gland- attached to hair follicles, made of epithelial cells
and function in the production of sebum

3. Cerminous glands- modified apocrine glands that function in the
production of cenimen/wax to protect the ear
Sebaceous (oil) glands
Entire body except palms and soles
Produce sebum by holocrine secretion
Oils and lubricates
Disorders of the integumentary system
Burns
◻ Threat to life
Catastrophic loss of body fluids
Dehydration and fatal circulatory shock
Infection
◻ Types
First degree – superficial, epidermis and hair burns off, minor
pain, healing in a few days and there is no scaring, no blisters but
some redness and surface peeling.

Second degree – deep partial thickness, epidermis and upper
dermis is burnt, severe pain, healing depends on cells that
survive, scaring, blister with swelling and edema

Third degree - full thickness, total destruction of both epidermis
and upper dermal layers, tissue death extend below level of hair
follicles and sweat gland, no immediate pain since nerve endings
are destroyed, scaring occurs and may require grafting
Burns
First-degree
(epidermis only; redness)

Second-degree
(epidermis and dermis,
with blistering)

Third-degree
(full thickness, destroying
epidermis, dermis, often part
of hypodermis)
 Estimate by “rule of 9’s”
Critical burns

Over 10% of the
body has
third-degree
burns
25 % of the body
has
second-degree
burns
Third-degree
burns on face,
hands, or feet
Tumors of the skin
Benign, e.g. warts
Cancer – associated with UV exposure
(also skin aging)
◻ Aktinic keratosis - premalignant
◻ Basal cell - cells of stratum basale
◻ Squamous cell - keratinocytes
◻ Melanoma – melanocytes: most dangerous;
recognition:
A - Asymmetry
B - Border irregularity
C - Colors
D - Diameter larger than 6 mm
 Skin Cancer

Sqaumous cell carcinoma

Basal cell carcinoma Melanoma
 1. List the 5 layers making up the epidermis beginning at the basement
membrane and travelling to the free surface.
2. The primary pigments contained in the epidermis are _____and ______.
3. The major component of the dermis are the ____and _______.
4. The assessor structures of the integument includes ___________.
5. Two major exocrine gland in the skin are ____and _____.
6. In some cultures, some women must be covered completely, except for their
eyes, when they go outside. These women exhibit incidence of problems
with their bones. Why?
7. What are the functions of sebaceous secretions?
8. Deodorants are used to mask the effects of secretions from which skin
gland?
9. Which type of skin gland is most affected by the hormones that occur during
puberty?
10. Why can skin regenerate effectively even after considerable damage may
have occurred?
11. A new mother notices that her 6 month old child has a yellow orange
complexion. Fearful that the child may have jaundice she takes him to the
paediatrician. After examining the child, the paediatrician declares him
perfectly healthy and advises the mother to watch the child’s diet. Why?