introductory to the structures of Integumentary.ppt
BerhanuKindu
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39 slides
Jun 17, 2024
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About This Presentation
describes briefly about skin and its appendages
Slide Content
Integumentary System
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The Integument
The skin that covers your body.
Skin is also known as the cutaneous
membrane.
Integumentary system consists of the
skin and its derivatives—nails, hair,
sweat glands, and sebaceous glands.
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The skin that covers your body.
Skin is also known as the cutaneous
membrane.
Integumentary system consists of the
skin and its derivatives—nails, hair,
sweat glands, and sebaceous glands.
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The Integument
Is the body’s largest organ.
Its surface is covered by an epithelium that protects
underlying body layers.
The connective tissues contain blood vessels that
provide nutrientsand provide strength and
resilienceto the skin.
Smooth musclecontrols both blood vessel
diameterand hair position.
Neural tissue supports and monitors sensory
receptorsin the skin
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Is the body’s largest organ.
Its surface is covered by an epithelium that protects
underlying body layers.
The connective tissues contain blood vessels that
provide nutrientsand provide strength and
resilienceto the skin.
Smooth musclecontrols both blood vessel
diameterand hair position.
Neural tissue supports and monitors sensory
receptorsin the skin
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2 Distinct Layers
A layer of stratified squamous
epithelium called the epidermis.
A deeper layer of dense irregular
connective tissue called the dermis.
◦deep to the dermis is a layer of areolar
and adipose connective tissue called the
subcutaneous layer, or hypodermis
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A layer of stratified squamous
epithelium called the epidermis.
A deeper layer of dense irregular
connective tissue called the dermis.
◦deep to the dermis is a layer of areolar
and adipose connective tissue called the
subcutaneous layer, or hypodermis
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Thick Skin
Thick epidermisis found on the palms
of the hands, the soles of the feet, and
corresponding surfaces of the fingers
and toes.
All five epidermal strata occur in thick
skin.
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Thick epidermisis found on the palms
of the hands, the soles of the feet, and
corresponding surfaces of the fingers
and toes.
All five epidermal strata occur in thick
skin.
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Thin Skin
Thin epidermis covers most of the
body.
Lacks the stratum lucidum
◦Has only fourspecific layers.
◦Contains the following accessories: hair
follicles, sebaceous glands, and sweat
glands.
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Thin epidermis covers most of the
body.
Lacks the stratum lucidum
◦Has only fourspecific layers.
◦Contains the following accessories: hair
follicles, sebaceous glands, and sweat
glands.
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Functions of Skin
◦protection
◦prevention of water loss
◦temperature regulation
◦metabolic regulation
◦immune defense
◦sensory reception
◦excretion
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◦protection
◦prevention of water loss
◦temperature regulation
◦metabolic regulation
◦immune defense
◦sensory reception
◦excretion
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Skin Color
Hemoglobin is an oxygen-binding protein
present in red blood cells. Upon binding
with oxygen, hemoglobin exhibits a bright
red color.
Melanin is a pigment produced and stored
in cells called melanocytes.
◦the two types of melanin occur in various yellow,
reddish, tan, brown, and black shades
Carotene comes primarily from diet.
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Hemoglobin is an oxygen-binding protein
present in red blood cells. Upon binding
with oxygen, hemoglobin exhibits a bright
red color.
Melanin is a pigment produced and stored
in cells called melanocytes.
◦the two types of melanin occur in various yellow,
reddish, tan, brown, and black shades
Carotene comes primarily from diet.
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Friction Ridges
Found on the fingers, palms, soles, and
toes.
Formed from large folds and valleys of both
dermal and epidermal tissue.
Help us grasp objects, and they increase
friction so that items do not slip easily from
our hands.
Our feet do not slip on the floor when we
walk.
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Found on the fingers, palms, soles, and
toes.
Formed from large folds and valleys of both
dermal and epidermal tissue.
Help us grasp objects, and they increase
friction so that items do not slip easily from
our hands.
Our feet do not slip on the floor when we
walk.
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Friction Ridges
Friction ridges can leave noticeable
prints on touched surfaces.
Each individual has a unique pattern
of friction ridges.
Fingerprints have become a valuable
tool for law enforcement in identifying
individuals.
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Friction ridges can leave noticeable
prints on touched surfaces.
Each individual has a unique pattern
of friction ridges.
Fingerprints have become a valuable
tool for law enforcement in identifying
individuals.
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Skin Markings
Nevus (mole)
Freckles
Hemangioma
◦capillary hemangiomas (“strawberry-
colored birthmarks”)
◦cavernous hemangiomas (“port-wine
stains”)
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Nevus (mole)
Freckles
Hemangioma
◦capillary hemangiomas (“strawberry-
colored birthmarks”)
◦cavernous hemangiomas (“port-wine
stains”)
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Layers of the Dermis
Composed of cells of the connective
tissue proper and primarily of collagen
fibers, although both elastic and
reticular fibers are also present.
Other components of the dermis are
blood vessels, sweat glands,
sebaceous glands, hair follicles, nail
roots, sensory nerve endings, and
muscular tissue.
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Composed of cells of the connective
tissue proper and primarily of collagen
fibers, although both elastic and
reticular fibers are also present.
Other components of the dermis are
blood vessels, sweat glands,
sebaceous glands, hair follicles, nail
roots, sensory nerve endings, and
muscular tissue.
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2 Major Regions of Dermis
Superficial papillary layer
Deeper reticular layer
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Superficial papillary layer
Deeper reticular layer
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Lines of Cleavage
Tension lines in the skin identify the
predominant orientation of collagen fiber
bundles.
Clinically and surgically significant because
cuts can result in slow healing and
increased scarring.
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Tension lines in the skin identify the
predominant orientation of collagen fiber
bundles.
Clinically and surgically significant because
cuts can result in slow healing and
increased scarring.
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Innervation and Blood Supply
The dermis has extensive innervation.
Monitor sensory receptors in the dermis and
epidermis, and control both blood flow and gland
secretion rates.
Tactile corpuscles and tactile (Merkel) cells
perceive touch sensations, and work with a variety
of other sensory nerve endings in the skin.
This rich innervation allows us to be very aware of
our surroundings and to differentiate among the
different kinds of sensory signals from receptors in
the skin.
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The dermis has extensive innervation.
Monitor sensory receptors in the dermis and
epidermis, and control both blood flow and gland
secretion rates.
Tactile corpuscles and tactile (Merkel) cells
perceive touch sensations, and work with a variety
of other sensory nerve endings in the skin.
This rich innervation allows us to be very aware of
our surroundings and to differentiate among the
different kinds of sensory signals from receptors in
the skin.
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Nails
Scalelike modifications of the
epidermis that form on the dorsal
surfaces of the tips of the fingers and
toes.
Protect the exposed distal tips and
prevent damage or distortion during
jumping, kicking, catching, or
grasping.
Hard derivatives formed from the
stratum corneum layer of the
epidermis.
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Scalelike modifications of the
epidermis that form on the dorsal
surfaces of the tips of the fingers and
toes.
Protect the exposed distal tips and
prevent damage or distortion during
jumping, kicking, catching, or
grasping.
Hard derivatives formed from the
stratum corneum layer of the
epidermis.
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Hair
Found almost everywhere on the body
except the palms of the hands, the
sides and soles of the feet, the lips,
the sides of the fingers and toes, and
portions of the external genitalia.
Most of the hairs on the human body
are on the general body surface rather
than the head.
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Found almost everywhere on the body
except the palms of the hands, the
sides and soles of the feet, the lips,
the sides of the fingers and toes, and
portions of the external genitalia.
Most of the hairs on the human body
are on the general body surface rather
than the head.
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3 Kinds of Hair
During our lives, we produce three
kinds of hair:
◦lanugo
◦vellus
◦terminal hair
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During our lives, we produce three
kinds of hair:
◦lanugo
◦vellus
◦terminal hair
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Functions of Hair
Protection
Heat retention
Prevents the loss of conducted heat from
the scalp to the surrounding air
Facial expression
Sensory reception
Visual identification
Chemical signal dispersal
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Protection
Heat retention
Prevents the loss of conducted heat from
the scalp to the surrounding air
Facial expression
Sensory reception
Visual identification
Chemical signal dispersal
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Hair Color
Result of the synthesis of melanin in the
matrix adjacent to the papillae.
Variations in hair color reflect genetically
determined differences in the structure of
the melanin.
Environmental and hormonal factors
Age
◦Gray hair
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Result of the synthesis of melanin in the
matrix adjacent to the papillae.
Variations in hair color reflect genetically
determined differences in the structure of
the melanin.
Environmental and hormonal factors
Age
◦Gray hair
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Hair Growth and
Replacement
Sometimes hair loss may be
temporary as a result of one or more
of the following factors: exposure to
drugs, dietary factors, radiation, high
fever, or stress.
Thinning of the hair, called alopecia
can occur in both sexes, usually as a
result of aging.
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Replacement
Sometimes hair loss may be
temporary as a result of one or more
of the following factors: exposure to
drugs, dietary factors, radiation, high
fever, or stress.
Thinning of the hair, called alopecia
can occur in both sexes, usually as a
result of aging.
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Exocrine Glands of the Skin
◦Sweat (sudoriferous) glands produce a
watery solution that performs several
specific functions.
merocrine (eccrine) sweat glands
apocrine sweat glands
◦Sebaceous glands produce an oily
material that coats hair shafts and the
epidermal surface.
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◦Sweat (sudoriferous) glands produce a
watery solution that performs several
specific functions.
merocrine (eccrine) sweat glands
apocrine sweat glands
◦Sebaceous glands produce an oily
material that coats hair shafts and the
epidermal surface.
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Other Integumentary Glands
Ceruminous glands
Mammary glands
◦modified apocrine sweat glands
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Ceruminous glands
Mammary glands
◦modified apocrine sweat glands
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Burns
Major cause of accidental death, primarily
as a result of their effects on the skin.
Usually caused by heat, radiation, harmful
chemicals, sunlight, or electrical shock.
The immediate threat to life results primarily
from fluid loss, infection, and the effects of
burned, dead tissue.
Burns are classified according to the depth
of tissue involvement.
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Major cause of accidental death, primarily
as a result of their effects on the skin.
Usually caused by heat, radiation, harmful
chemicals, sunlight, or electrical shock.
The immediate threat to life results primarily
from fluid loss, infection, and the effects of
burned, dead tissue.
Burns are classified according to the depth
of tissue involvement.
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Classification of Burns
First-and second-degree burns are
called partial-thickness burns.
Third-degree burns are called full-
thickness burns.
◦first-degree burns involve only the
epidermis and are characterized by
redness, pain, and slight edema
an example is sunburn
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First-and second-degree burns are
called partial-thickness burns.
Third-degree burns are called full-
thickness burns.
◦first-degree burns involve only the
epidermis and are characterized by
redness, pain, and slight edema
an example is sunburn
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Classification of Burns
Second-degree burns involve the
epidermis and part of the dermis.
The skin appears red, tan, or white,
and is blistered and painful.
◦An example is a scald.
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Second-degree burns involve the
epidermis and part of the dermis.
The skin appears red, tan, or white,
and is blistered and painful.
◦An example is a scald.
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Classification of Burns
Third-degree burns involve the epidermis, dermis,
and subcutaneous layer, which are often
destroyed.
Regeneration may occur from the edge only, due to
the absence of dermis.
Skin grafting is required to prevent abnormal
connective tissue fibrosis and disfigurement.
Dehydration is a major concern because the entire
portion of skin has been lost, and water cannot be
retained.
Must be aggressively treated for dehydration.
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Third-degree burns involve the epidermis, dermis,
and subcutaneous layer, which are often
destroyed.
Regeneration may occur from the edge only, due to
the absence of dermis.
Skin grafting is required to prevent abnormal
connective tissue fibrosis and disfigurement.
Dehydration is a major concern because the entire
portion of skin has been lost, and water cannot be
retained.
Must be aggressively treated for dehydration.
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Aging of the Integument
Skin repair processes take longer due to
reduced number and activity of stem cells.
Skin forms wrinkles and becomes less
resilient.
Skin’s immune responsiveness is
diminished.
Skin becomes drier due to decreased
sebaceous gland activity.
Altered skin and hair pigmentation.
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Skin repair processes take longer due to
reduced number and activity of stem cells.
Skin forms wrinkles and becomes less
resilient.
Skin’s immune responsiveness is
diminished.
Skin becomes drier due to decreased
sebaceous gland activity.
Altered skin and hair pigmentation.
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Aging of the Integument
Sweat production diminishes.
Blood supply to the dermis is reduced
leading to impaired thermoregulation.
Hair thinning and loss.
Integumentary production of vitamin
D
3diminishes.
Development of skin cancers.
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Sweat production diminishes.
Blood supply to the dermis is reduced
leading to impaired thermoregulation.
Hair thinning and loss.
Integumentary production of vitamin
D
3diminishes.
Development of skin cancers.
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Skin Cancer
The most common type of cancer.
The greatest risk factor is exposure to
UV rays of the sun.
The highest incidence is in people
who have had severe sunburns,
especially as children.
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The most common type of cancer.
The greatest risk factor is exposure to
UV rays of the sun.
The highest incidence is in people
who have had severe sunburns,
especially as children.
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