Integumentary System PDF

Summary

This document provides an overview of the integumentary system, outlining its different structures and functions. It also details the histology of the system and explores various specialized features, such as pigmentation, paw pads, and glands. The document appears to be lecture notes rather than a past paper.

Full Transcript

Integumentary
System

Dr. Jacqueline Mobley

AHS 2202
Introduction
Integument = skin and associated structures
Skin
Claws
Hooves
Horns
Hair
Glands
The integuments is one of the largest organs in the
body
Covers and protect underlying structures within the
body
Keratinized
 Integument
Role of the integument
Prevent desiccation
Prevent infection
Maintain body temperature
Excretion of water, salt & organic wastes
Receives sensory information
Synthesis of vitamin D and storage of nutrients
Skin thickness
Thinnest – eyes & scrotum
Thickest – center of the back, between shoulder
blades, paw pads
 Integument
Histology
2 layers
Epidermis
Dermis (aka the corium)
Separated by basement membrane
Some species have a wavy basement
mb forming “dermal papillae”
Dermal papillae make skin stronger
Epidermis
Keratinized stratified squamous
epithelium
Waterproof shield
Avascular
Histology
continued
Dermis
Fibroelastic connective tissue
Makes up the majority of the
integument
Vascularized
Hypodermis/Subcutaneous
Primarily adipose tissue
Shock absorber & insulation
Epidermis
Cells of the
epidermis
Keratinocytes – majority of epidermal cells,
produce keratin
Located along the basement mb
Keratinization:
Keratinocytes grow & divide, daughter
cells push older cells up
Older keratinocytes fill with
keratohyalin granules and lose
organelles
Most superficial cells can exfoliate
with no damage to the animal
New epidermis forms every 7-8
weeks in humans
 Cells of the epidermis
Melanocytes – produce pigment melanin
Long cellular projections (like an octopus)
Melanin is stored in membrane bound granules
called melanosomes
Melanosomes are released into the keratinocyte
Langerhans cells
Macrophage in the epidermis
Merkel cells
Located at the epidermal-dermal junction
Merkel disc: formed when Merkel cells touch a
sensory nerve ending This Photo by Unkno wn Author is licensed under CC BY-SA-NC

Aids in sensation of touch
Layers of the epidermis - deep to superficial
Stratum germinativum (Stratum basale)
Formed by single layer of keratinocytes attached to basement
membrane
Also composed of Merkel cells & melanocytes
Stratum spinosum
Looks spikey histologically, but in live tissue is smooth
Formed of several layers of keratinocyte cells held together by
desmosomes
Langerhans cells reside in this layer as well
Stratum granulosum
Formed of 2-4 layers of flattened, diamond-shaped
keratinocytes
Cells begin to fill with keratohyaline & lamellated granules
(waterproofing)
Layers of the epidermis
continued

Stratum lucidum (clear layer)
Found in only VERY thick skin
Forms a translucent layer of flattened
dead cells
Most skin does not have stratum
lucidum
Stratum corneum (horny layer)
Outermost layer and dominates the
epidermis (3/4 total thickness)
Formed of 20-30 rows of keratinocytes
Essentially these cells form “dandruff”
 Dermis
Majority of the integument
Highly fibrous
Dense, irregular connective tissue
with collagen, elastic & reticular
fibers
Structures that live in the dermis
Hair follicles
Nerve endings
Glands
Smooth muscle
Blood vessels
Lymphatic channels
Layers of the Dermis
Papillary layer – thin, superficial
Loose connective tissue
Dermal papillae: Nipple-like
projections, cement epidermis to
dermis
Looping blood vessels
Meissner’s corpuscles – nerve endings
(pain, touch)
Temperature-sensing nerve endings
Reticular layer – thick, deep layer, 80% of
dermis
Dense, irregular connective tissue
Composed of parallel fibrous bundles
“Tension lines” arise from separations
in bundles
Hypodermis or Subcutaneous Layer

Thick layer, resides below the dermis
Loose areolar tissue
Adipose cells
Blood & lymphatics
Nerves
Pacinian corpuscle: touch
receptor sensitive to heavy
pressure
This Photo by Unkno wn Author is licensed under CC BY-SA-NC
Special Features
of the Integument
Pigmentation
Pigmentation arises from melanin granules
produced by melanocytes
More granules = more pigmentation/darker skin
Melanocyte-stimulating hormone (MSH) controls
dispersion of granules
MSH is produced by the hypophysis in the brain
Melanin protects the keratinocytes from exposure to
UV rays
Melanin is the sun hat for keratinocytes
Paw Pads

Thick padding
Fat – insulating, shock absorbing, protective
Outer layer of the pad is the toughest and thickest
skin of the body
Pigmented (usually)
Contains all 5 epidermal layers
Stratum corneum is thicker than all other 4 layers
combined
Microscopic conical papillae cover the pad
Exocrine sweat glands & lamellar corpuscles present
Planum Nasale
Ergots & Chestnuts
Dark, horny structures on the legs of
equines
Chestnuts
Dark brown, inside of the leg at the
carpus (knee) & tarsus (hock)
Vestigial carpal & tarsal pads of 1st
digit
Ergots
Small and less obvious than
chestnuts, on the fetlocks
Vestigial 2nd and 4th digits
Cutaneous Pouches
(Sheep)
Cutaneous pouches = infoldings of the skin
Fine hairs
Sebaceous and oils glands
Secrete fatty yellow substance that covers the skin
Locations:
Infraorbital pouches: In front of the eyes
Interdigital pouches: Between the digits above the
hooves
Inguinal pouches: In the groin
Related
Structures of the
Integument
Hair
Insulation
Camouflage
Most animals have fur (short, fine, falls out) as opposed to hair
(long, keeps growing, needs to be cut)
“Hair”
Whales
Pigs
Humans
Hair Strands and their follicles
Shaft: the part above the skin
Root: the part in the skin
Hair follicle: anchors the hair in the dermis
Hair bulb: deepest part of the follicle
Papilla: mound of dermal cells at the base
of the bulb
Matrix: rapidly dividing epithelial cells
covering the papilla
Dividing cells are pushed upward, become
keratinized, form hair
Blood vessels supply the papilla
Hair follicles continued
Root hair plexus
Sensory endings surround the
root
Provides important touch
sensation when the hair is bent
3 layers to the hair follicle
Internal epithelial root sheath
Outer epithelial root sheath
Dermal or connective tissue
root sheath
Hair follicles continued
Compound follicles
Multiple hair strands emerge from a single epidermal orifice (pore)
Each strand of hair still has its own follicle and bulb
Up to 15 strands of hair per pore
Guard hair = long primary hair
Satellite hairs = small secondary hairs surrounding guard hair
Dogs typically have 3 compound follicles from one pore
Hair Formation
The hair structure:
Formed of 3 concentric
layers
Core: medulla
Cortex surrounds the
medulla, hard keratin
Cuticle: forms the hair
surface
Growth Cycles of Hair

Shedding and growth occur
constantly
Environmental, hormonal and
seasonal factors affect shedding
Phases of hair cycle
Anagen – hair growth
Telogen - hair has reached
maximal growth and is resting
Catagen phase- period of
transition between anagen and
telogen
Hair Color
Horses have only one type of melanin
Coat colors are based on the quantity of
melanin
Dogs have 2 types of melanin
Pheomelanin – yellowish reddish colors
Tyrosine melanin – brown black colors
Agouti coloration – pigmentation accumulates
at the tips
 Types of Hair
3 types of hair
Primary/guard hairs
Straight, arched thick
Secondary/wool-type
hairs
Softer, and shorter
than primary hairs
Tactile/sinus hairs
Probers or feelers
AKA whiskers
This Photo by Unkno wn Author is licensed under CC BY-SA
Arrector Pili
Muscles
Keep the hair erect
Hair will stand up when
frightened or cold
Innervated by the sympathetic
nervous system (fight or flight)
Results in goosebumps in humans
Forces sebum from the sebaceous
gland to keep the skin moist &
supple
Glands of the
Skin
Sebaceous Glands
Sebaceous glands
1) Single duct that empties into follicle
2) Ducts that empty straight onto the skin
surface
Sheep cutaneous pouches→ lanolin
Holocrine gland (cell ruptures)
Sebum – mixture of glycerides & FFAs
Keeps skin lubricated, traps moisture
Antibacterial & antifungal
Arrector pili contracts and compresses gland
to secrete sebum
Sweat Glands

“Sudoriferous glands”
Present in most domestic species
Only the horse makes profuse sweat

This Photo by Unkno wn Author is licensed under CC BY
Eccrine Sweat
Glands
Excretory portion: Simple coiled
tube located in the dermis or
hypodermis
Empties onto the skin surface via a
long duct
Dogs: deep layer of fat and in foot
pad connective tissue
Apocrine Sweat
Glands
Excretory portion: coiled tube in
dermis or hypodermis
Empties into hair follicles
Dogs: located in the external ear
canal
Tail Glands
The tail gland
Found in most cats and dogs
Oval region at the dorsal base
of the tail
Can be seen visually as region of
coarse, oily hairs
Apocrine & sebaceous glands
located here
Believed to assist animals in
recognizing each other
Anal Sacs
Located at 5 and 7 o’clock
relative to the anus in cats &
dogs
Produces foul smelling
glandular fluid
Anal sacs are expressed when
animal is afraid or defecates
Assists in marking territory
Claws and Dewclaws
Claws: the hard pigmented
covering of the distal digits
Function: Traction and
protection
Cats are the only animals that
retract their claws
Except cheetahs
Dewclaws: vestigial digits
Sometimes contain bones
The Hoof
Hoof = “ungula”
Hoof covers the coffin bone
The wall, sole and frog make up the
hoof
Equivalent to the epidermis
Hoof grows from the coronary band
The Corium = sensitive tissue attached
to the periosteum of the coffin bone
Equivalent to the dermis
Laminae: Interdigitations between the
corium layer and the hoof, provides
stability to keep hoof attached to bone
The wall of
the hoof
The wall: the
convex external
portion of the hoof
The toe (front)
The quarters
(lateral aspects)
The heel (the
back)
https://www.epauk.org/about-equine-podiatry/articles/hoof-anatomy-a-beginners-
guide/
The sole of
the hoof
The sole = the plantar
surface of the hoof
The corium connects the
sole to the underside of
the coffin bone
The “white line” is the
formed at the junction of
the sole and the hoof
wall
https://www.epauk.org/about-equine-podiatry/articles/hoof-anatomy-a-beginners-guide/
The frog of the hoof
The frog: triangular horny structure located between
the heels on the underside of the hoof This Photo by Unknown Author is licensed under
CC BY-NC-ND

The leather-like frog provides shock absorption and supports
the structures of the foot
Apex of the frog faces the toe
Central sulcus or cleft is the depression
The 5 types of the
corium
Laminar corium: primary and secondary
lamina, located between the hoof wall
and the 3rd phalynx
Laminitis in horses involves this
section
Perioplic corium: located in the perioplic
sulcus
Coronary corium: located in the coronary
sulcus
Sole corium: located superior to the sole
Frog corium: located superior to the frog
Horns
Horns emerge from horn processes of the
frontal bones
Mass of horny keratin
Usually hollow
Corium is at the root and is bound to the horn
process periosteum
The wall at the base is thinner than the wall at
the apex of the horn
Most animals do not shed their horns
Polled breeds are breeds bred to be horn free
Antlers
Usually on males
Dermal in origin
Arise as bone protuberances from the skull
Shed annually
Lack a central core and internal blood supply
Nourished externally by soft, velvetlike tissue
After completing growth, a dense ring of connective
tissue forms at the base of the antler, strangling the velvet
skin blood supply, resulting in hardening of the antlers
Eventually the bony connection between the antler and
skull breaks down, and the antler falls off
The End

This Photo by Unkno wn Author is licensed under CC BY-SA