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2 Support and Movement Fundamentals of Anatomy & Physiology Unit
Frederic H. Martini PowerPoint® Lecture Slides prepared by Professor Albia Dugger, Miami–Dade College, Miami, FL Professor Robert R. Speed, Ph.D., Wallace Community College, Dothan, AL Copyright © 2005 Pearson Education, Inc. publishing as Benjamin Cummings
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Chapter 5: The Integumentary System
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What are the structures and functions of the integumentary system?
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Size of the Integument The integument is the largest system of the body: 16% of body weight 1.5 to 2 m2 in area
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Parts of the Integument
The integument is made up of 2 parts: cutaneous membrane (skin) accessory structures
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Parts of the Integumentary System
Figure 5–1
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Parts of the Cutaneous Membrane
Outer epidermis: superficial epithelium (epithelial tissues) Inner dermis: connective tissues
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Accessory Structures Originate in the dermis
Extend through the epidermis to skin surface: hair nails multicellular exocrine glands
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Connections Circulatory system: Nervous system:
blood vessels in the dermis Nervous system: sensory receptors for pain, touch, and temperature
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What is the relationship between the integument and subcutaneous layer?
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The Subcutaneous Layer
Subcutaneous layer (superficial fascia or hypodermis): loose connective tissue below the dermis location of hypodermic injections
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Functions of Skin Protects underlying tissues and organs
Excretes salts, water, and organic wastes (glands) Maintains body temperature (insulation and evaporation)
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Functions of Skin Synthesizes vitamin D3 Stores lipids
Detects touch, pressure, pain, and temperature
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What are the main structures and functions of the epidermis?
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Epidermis Avascular stratified squamous epithelium
Nutrients and oxygen diffuse from capillaries in the dermis
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Organization of the Epidermis
Figure 5–2
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Cells of the Epidermis Keratinocytes: contain large amounts of keratin
the most abundant cells in the epidermis
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Thin Skin Covers most of the body Has 4 layers of keratinocytes
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Thick Skin Covers the palms of the hands and soles of the feet
Has 5 layers of keratinocytes
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Structures of the Epidermis
The 5 strata of keratinocytes in thick skin Figure 5–3
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Layers of the Epidermis
From basal lamina to free surface: stratum germinativum stratum spinosum stratum granulosum stratum lucidum stratum corneum
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Stratum Germinativum The “germinative layer”:
has many germinative (stem) cells or basal cells is attached to basal lamina by hemidesmosomes forms a strong bond between epidermis and dermis
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Structures of Stratum Germinativum
Epidermal ridges (e.g., fingerprints) Dermal papillae (tiny mounds): increase the area of basal lamina strengthen attachment between epidermis and dermis
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Ridges and Ducts Figure 5–4
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Cells of Stratum Germinativum
Merkel cells: found in hairless skin respond to touch (trigger nervous system) Melanocytes: contain the pigment melanin scattered throughout stratum germinativum
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Stratum Spinosum The “spiny layer”:
produced by division of stratum germinosum 8–10 layers of keratinocytes bound by desmosomes cells shrink until cytoskeletons stick out (spiny)
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Cells of Stratum Spinosum
Continue to divide, increasing thickness of epithelium Contain Langerhans cells, active in immune response
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Stratum Granulosum The “grainy layer”
Stops dividing, starts producing: keratin: a tough, fibrous protein makes up hair and nails keratohyalin dense granules cross-link keratin fibers
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Cells of Stratum Granulosum
Produce protein fibers Dehydrate and die Create tightly interlocked layer of keratin surrounded by keratohyalin
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Stratum Lucidum The “clear layer”: found only in thick skin
covers stratum granulosum
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Cells of Stratum Lucida
Flat Dense Filled with keratin
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Stratum Corneum The “horn layer”: exposed surface of skin
15 to 30 layers of keratinized cells water resistant shed and replaced every 2 weeks
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Keratinization The formation of a layer of dead, protective cells filled with keratin Occurs on all exposed skin surfaces except eyes
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Skin Life Cycle It takes 15–30 days for a cell to move from stratum germinosum to stratum corneum
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Perspiration Insensible perspiration: Sensible perspiration:
interstitial fluid lost by evaporation through the stratum corneum Sensible perspiration: water excreted by sweat glands
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Water Loss Through Skin
Dehydration results: from damage to stratum corneum, e.g., burns and blisters (insensible perspiration) from immersion in hypertonic solution, e.g., seawater (osmosis)
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Water Gain Through Skin
Hydration: results from immersion in hypotonic solution, e.g., freshwater (osmosis) causes stretching and wrinkling skin
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What causes different skin colors?
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Skin Color Skin color depends on: the pigments carotene and melanin
blood circulation (red cells)
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Carotene Orange-yellow pigment Found in orange vegetables
Accumulates in epidermal cells and fatty tissues of the dermis Can be converted to vitamin A
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Melanin Yellow-brown or black pigment
Produced by melanocytes in stratum germinativum Stored in transport vesicles (melanosomes) Transferred to keratinocytes
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Function of Melanocytes
Melanin protects skin from sun damage Ultraviolet (UV) radiation: causes DNA mutations and burns which lead to cancer and wrinkles
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Melanocytes Figure 5–5
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Melanocytes Skin color depends on melanin production, not number of melanocytes
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Capillaries and Skin Color
Oxygenated red blood contributes to skin color: blood vessels dilate from heat, skin reddens blood flow decreases, skin pales
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Cyanosis Bluish skin tint
Caused by severe reduction in blood flow or oxygenation
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Illness and Skin Color Jaundice: Addison’s disease:
buildup of bile produced by liver yellow color Addison’s disease: and other diseases of pituitary gland skin darkening
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Illness and Skin Color Vitiglio: loss of melanocytes loss of color
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Vitamin D Epidermal cells produce cholecalciferol (vitamin D3):
in the presence of UV radiation Liver and kidneys convert vitamin D into calcitriol: to aid absorption of calcium and phosphorus
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Vitamin D Insufficient vitamin D: can cause rickets
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Epidermal Growth Factor (EGF)
Is a powerful peptide growth factor Is produced by glands (salivary and duodenum) Is used in laboratories to grow skin grafts
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Functions of EGF Promotes division of germinative cells
Accelerates keratin production Stimulates epidermal repair Stimulates glandular secretion
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KEY CONCEPT The epidermis:
is a multilayered, flexible, self-repairing barrier prevents fluid loss protects from UV radiation produces vitamin D3 resists abrasion, chemicals, and pathogens
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What are the structures and functions of the dermis?
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The Dermis Is located between epidermis and subcutaneous layer
Anchors epidermal accessory structures (hair follicles, sweat glands) Has 2 components: outer papillary layer deep reticular layer
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The Papillary Layer Consists of areolar tissue
Contains smaller capillaries, lymphatics, and sensory neurons Has dermal papillae projecting between epidermal ridges
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The Reticular Layer Consists of dense irregular connective tissue
Contains larger blood vessels, lymph vessels, and nerve fibers Contains collagen and elastic fibers Contains connective tissue proper
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Dermatitis An inflammation of the papillary layer
Caused by infection, radiation, mechanical irritation, or chemicals (e.g., poison ivy) Characterized by itch or pain
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Characteristics of Dermis
Strong, due to collagen fibers Elastic, due to elastic fibers Flexible (skin turgor)
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Skin Damage Sagging and wrinkles (reduced skin elasticity) are caused by: dehydration age hormonal changes UV exposure
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Skin Cancer Figure 5–6
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Stretch Marks Thickened tissue resulting from:
excessive stretching of skin due to: pregnancy weight gain
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Lines of Cleavage Collagen and elastic fibers in the dermis:
are arranged in parallel bundles resist force in a specific direction
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Clinical Importance Lines of cleavage establish important patterns:
a parallel cut remains shut, heals well a cut across (right angle) pulls open and scars
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Lines of Cleavage Figure 5–7
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Dermal Circulation Figure 5–8
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Arteries Cutaneous plexus: Papillary plexus:
a network of arteries along the reticular layer Papillary plexus: capillary network from small arteries in papillary layer
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Veins Venous plexus: Contusion:
capillary return deep to the papillary plexus Contusion: damage to blood vessels resulting in “black and blue” bruising
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Nerves Nerve fibers in skin control:
blood flow gland secretions sensory receptors Tactile disks monitor Merkel cells
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KEY CONCEPT The dermis:
provides mechanical strength, flexibility and protection is highly vascularized contains many types of sensory receptors
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What are the structures and functions of the subcutaneous layer?
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The Hypodermis The subcutaneous layer or hypodermis:
lies below the integument stabilizes the skin allows separate movement
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Structure of the Hypodermis
The subcutaneous layer is: made of elastic areolar and adipose tissues connected to the reticular layer of integument by connective tissue fibers
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Clinical Importance Subcutaneous layer:
has few capillaries and no vital organs is the site of subcutaneous injections using hypodermic needles
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Adipose Tissue Deposits of subcutaneous fat:
have distribution pattern determined by hormones are reduced by cosmetic liposuction
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Integumentary Accessory Structures
Hair, hair follicles, sebaceous glands, sweat glands, and nails: are derived from embryonic epidermis are located in dermis project through the skin surface
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What determines hair growth, texture, and color?
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Location of Hair The human body is covered with hair, except: palms
soles lips portions of external genitalia
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Functions of Hair Protects and insulates
Guards openings against particles and insects Is sensitive to very light touch
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The Hair Follicle Is located deep in dermis Produces nonliving hairs
Is wrapped in a dense connective-tissue sheath Base is surrounded by sensory nerves (root hair plexus)
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Structures of Hair and Follicles
Figure 5–9a
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Accessory Structures of Hair
Arrector pili: involuntary smooth muscle causes hairs to stand up produces “goose bumps” Sebaceous glands: lubricate the hair control bacteria
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Regions of the Hair Hair root: Hair shaft: lower part of the hair
attached to the integument Hair shaft: upper part of the hair not attached to the integument
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Inside the Follicle Figure 5–9b
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Keratin As hair is produced, it is keratinized:
medulla contains flexible soft keratin cortex and cuticle contain stiff hard keratin
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Hair Growth Cycle Growing hair: Club hair:
is firmly attached to matrix Club hair: is not growing is attached to an inactive follicle
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Hair Growth Cycle New hair growth cycle: follicle becomes active
produces new hair club hair is shed
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Types of Hairs Vellus hairs: Terminal hairs: soft, fine
cover body surface Terminal hairs: heavy, pigmented head and eyebrows other parts of body after puberty
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Hair Color Produced by melanocytes at the hair papilla
Determined by genes
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What are the skin glands and secretions?
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Exocrine Glands Sebaceous glands (oil glands): Sweat glands:
holocrine glands secrete sebum Sweat glands: merocrine glands watery secretions
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Types of Sebaceous Glands
Simple branched alveolar glands: associated with hair follicles Sebaceous follicles: discharge directly onto skin surface
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Sebaceous Glands Figure 5–10
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Sebum Contains lipids and other ingredients
Lubricates and protects the epidermis Inhibits bacteria
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What are the functions of sweat glands?
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Types of Sweat Glands Apocrine: Merocrine:
found in armpits, around nipples, and groin Merocrine: widely distributed on body surface especially on palms and soles
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Apocrine Sweat Gland Figure 5–11a
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Apocrine Sweat Glands Merocrine secretions, not apocrine
Associated with hair follicles Produce sticky, cloudy secretions Break down and cause odors
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Merocrine Sweat Glands
Also called eccrine glands: coiled, tubular glands discharge directly onto skin surface sensible perspiration water, salts, and organic compounds
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Merocrine Sweat Gland Figure 5–11b
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Functions of Merocrine Sweat
Cools skin Excretes water and electrolytes Flushes microorganisms and harmful chemicals from skin
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Other Integumentary Glands
Mammary glands: produce milk Ceruminous glands: protect the eardrum produce cerumen (earwax)
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Homeostasis Thermoregulation:
is the main function of sensible perspiration works with cardiovascular system regulates body temperature
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KEY CONCEPT Skin plays a major role in controlling body temperature:
acts as a radiator removes heat from dermal circulation works by evaporation of sensible perspiration
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What is the structure of nails, and how do they grow?
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Nail Functions Nails protect fingers and toes:
made of dead cells packed with keratin metabolic disorders can change nail structure
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Structure of a Nail Figure 5–12
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How does injured skin respond and repair itself?
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Repair of Localized Injuries to the Skin: Step 1
Bleeding occurs Mast cells trigger inflammatory response Figure 5–13 (Step 1)
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Repair of Localized Injuries to the Skin: Step 2
A scab stabilizes and protects the area Figure 5–13 (Step 2)
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The Inflammatory Response
Germinative cells migrate around the wound Macrophages clean the area Fibroblasts and endothelial cells move in, producing granulation tissue
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Repair of Localized Injuries to the Skin: Step 3
Fibroblasts produce scar tissue Inflammation decreases, clot disintegrates Figure 5–13 (Step 3)
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Repair of Localized Injuries to the Skin: Step 4
Fibroblasts strengthen scar tissue A raised keloid forms PLAY Integumentary Repair Figure 5–13 (Step 4)
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Rule of Nines To estimate burn damage, surface area is divided into multiples of 9 Figure 5–14
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What are the effects of aging on the skin?
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Effects of Aging Epidermal thinning
Decreased numbers of Langerhans cells Decreased vitamin D3 production Decreased melanocyte activity Decreased glandular activity (sweat and oil glands)
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Effects of Aging Reduced blood supply
Decreased function of hair follicles Reduction of elastic fibers Decreased hormone levels Slower repair rate
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How does the integumentary system work with other systems?
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Importance of the Integumentary System
Protects and interacts with all organ systems Changes in skin appearance are used to diagnose disorders in other systems
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Interactions with the Integumentary System
Figure 5–15
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SUMMARY (1 of 12) Division of: integument into epidermis and dermis
epidermis into thin skin and thick skin
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SUMMARY (2 of 12) Layers of the epidermis: stratum germinosum
stratum spinosum stratum lucidum stratum corneum
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SUMMARY (3 of 12) Roles of epidermal ridges and dermal papillae
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SUMMARY (4 of 12) Functions of specialized cells: Langerhans cells
Merkel cells
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SUMMARY (5 of 12) Skin pigments: carotene melanin
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SUMMARY (6 of 12) Metabolic functions of epidermis: vitamin D3
epidermal growth factor
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SUMMARY (7 of 12) Divisions of the dermis: papillary layer
reticular layer
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SUMMARY (8 of 12) Mobility of the dermis: stretch marks
lines of cleavage
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SUMMARY (9 of 12) Blood supply of the dermis: cutaneous plexus
papillary plexus
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SUMMARY (10 of 12) Role of the subcutaneous layer
Structure of hair and hair follicles
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SUMMARY (11 of 12) Glands of the skin: sebaceous sweat ceruminous
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SUMMARY (12 of 12) Structure of nails
Processes of inflammation and regeneration Effects of aging on the integument
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