ANAPHY(PRELIMS LESSON 3)_TISSUE & INTEGUMENTARY SYSTEM (2).pdf

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College of Nursing
Academic Year 2023-2024
2024-2025
Anatomy and Physiology Bachelor of Science in Nursing

LESSON 3: THE BODY TISSUES AND INTUGMENTARY SYSTEM
TISSUE CELL SHAPE
A group of cells with similar structure and function that
have similar extracellular substances located between
them. Squamous
o Histology; The microscopic study of tissue structure.
Cells work together in functionally related groups called
tissues.

Cuboidal
o How is this done?
▪ Attachments
▪ communication
Types of tissues:
o Epithelial – lining and covering
o Connective – support

Columnar
o Muscle – movement
o Nervous – control

Transitional

CELLS ORGANIZE INTO THREE LAYERS
Ectoderm – forms the exoskeleton NAMING THE EPHITELIA
Mesoderm – develops into organs ◼ Naming the epithelia includes both the layers (first)
Endoderm – forms the inner lining of organs and the shape of the cells (second)
▪ i.e., stratified cuboidal epithelium.
TYPE OF TISSUES
◼ The name may also include any accessory
EPITHELIAL TISSUE structures.
▪ Goblet cells
o Barrier
▪ Cilia
o Secretion
▪ Keratin
o Absorption
◼ Special epithelial tissues (don’t follow naming
o Protection
convention)
o Passage
▪ Pseudostratified
This type of tissue covers body surfaces, forms ▪ Transitional
glands, and lines body cavities, hollow organs, and
ducts. CLASSIFICATIONS OF EPITHELIA
CELL LAYERS Last name of tissue describes shape of cells.
Simple epithelium Squamous – cells wider than tall
o (1 layer) (plate or “scale” like)
Pseudostratified Epithelium
o (1 layer but appears many)
Stratified Epithelium Cuboidal – cells are as wide as tall,
o (multiple layer) as in cubes.

Columnar – cells are taller than they
are wide, like columns.

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SIMPLE SQUAMOUS EPHITELIAUM o Partially responsible for the movement of oocytes
Structure through the uterine tubes by ciliated cells
o Single layer or flat, often hexagonal cells o Secretion by cells of the glands, the stomach, and the
o The nuclei appear as bumps when viewed in a cross intestine
section because the cells are so flat. o Absorption by cells of the intestine
Functions Location
o Diffusion o Glands and some ducts
▪ Lungs; alveoli o Bronchioles of lungs
o Filtration o Auditory tubes
▪ Kidney; glomerulus; leading to formation of urine o Uterus and uterine tubes
while leaving large molecules such as protein o Stomach, intestines, gallbladder, and bile ducts
and blood cells back in the blood vessels. o Ventricles of the brain
o Some Secretion SIMPLE COLUMNAR EPITHELIUM
▪ fluid from the secretions of simple squamous Location
epithelium because it lubricates the surfaces o Non-ciliated form
between the organs thereby preventing damage ▪ Lines digestive tract, gallbladder, ducts of some
from friction when the organs rub against one glands
another or the body wall. o Ciliated form
▪ Some protection against friction ▪ Lines small bronchi, uterine tubes, and uterus
Location
TRANSITIONAL EPITHELIUM
o Lining of the blood vessels and the heart, lymphatic
Description
vessels o Resembles both stratified squamous and stratified
o Alveoli of the lungs cuboidal; basal cells cuboidal or columnar; surface
o Portions of the kidney tubules cells dome shaped or squamous-like, depending on
o Lining of serous membrane of body cavities (ex: degree of organ stretch.
pleural, the lungs; pericardial, the heart; peritoneal, the Function
digestive organs) o Stretches readily and permits distension of urinary
organ by contained urine.
SIMPLE CUBOIDAL EPHITELIUM Location
Structure o lines the ureters bladder and part of urethra\
o Single layered of cube shaped cells Photomicrograph
o Some have microvilli (Kidney tubules) or cilia o Transitional epithelium lining the bladder, relaxed
(Terminal bronchioles of the lungs) state (390x); note the bulbous, or rounded,
appearance of the cells at the surface; these cells
Functions
flatten and become elongated when the bladder is
o Secretion and absorption by cells of the kidney field with urine.
tubules
▪ Through this and their greater volume and
PSEUDOSTRATIFIED COLUMNAR EPITHELIUM
organelles, they can enable active transport and Structure
facilitated diffusion. o Single layer of cells
o Secretion by cells of glands and choroid plexuses o Some cells are tall and thin and reach the free surface,
▪ Cerebrospinal fluid (CSF) is a watery liquid that and others do not.
continually circulates through the brain’s o The nuclei of these cells are at different levels and
ventricles (hollow cavities) and around the appear stratified.
surface of the brain and spinal cord. o The cells are almost always ciliated and are
o Movement of particles embedded in mucus out of the associated with goblet cells that secrete mucus onto
terminal bronchioles by ciliated cells. the free surface.
Location Functions
o Kidney tubules o Synthesize and secrete mucus onto the free surface
o Glands and their ducts choroid plexuses and move mucus (or fluid) that contains foreign
o Lining of terminal bronchioles of the lungs particles over the surface of the free surface and from
o Surfaces of the ovaries passages (found in the upper respiratory tract)
Location
SIMPLE COLUMNAR EPITHELIUM o Lining of nasal sinuses
Structure
o The epididymis and male urethra have
o Single layer of tall narrow cells
Pseudostratified columnar epithelium Auditory tubes,
o Some have cilia (Bronchioles of lung, auditory tubes,
pharynx, trachea, and bronchi of lungs.
uterine tubes), or microvilli (Intestine)
▪ That allows it to conduct complex processes STRATIFIED SQUAMOUS EPITHELIUM
such as mucus secretions. The mucus protects Structure
the lining of the intestine, and the digestive o Several layers of cells that are cuboidal in the basal
enzymes complete the process of digesting layer and progressively flattened toward the surface.
food. o The epithelium can be nonkeratinized (moist) or
Functions keratinized.
o Movement of particles out of the bronchioles of the
lungs by ciliated cells

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▪ In nonkeratinized stratified squamous
epithelium, the surface cells retain a nucleus and
cytoplasm.
▪ In keratinized stratified epithelium, the
cytoplasm of cells at the surface is replaced by a
protein called keratin, and the cells are dead the
cells are almost always ciliated and are
associated with goblet cells that secrete mucus
onto the free surface.
Functions
o Main function is protection as it forms a thick layer of
epithelium made from several layers of cells.
o Protects against abrasion, forms a barrier against
infection, and reduces loss of water from the body.
Location
o Keratinized; outer layer of the skin.
o Nonkeratinized; mouth, throat, larynx, esophagus
anus, vagina, inferior urethra, and corneas
CONNECTIVE TISSUES
This type of tissue protects and supports the body and
its organs, binds organs together, stores energy reserves
as fat, and provides immunity.
o Protection.
o Enclosing and separating other tissues.
o Storing compounds.
o Transportation
o Cushioning and insulating.
o Connecting tissues to one another.

FUNCTIONS OF CONNECTIVE TISSUES (PESTCC)
- It protects the body by destroying
Protection invading microorganisms and
eliminating cellular debris. Protection
from injury can also be sought from
bones.
- Liver and kidneys were encapsulated
Encapsulation to help them be separated from other
and Separation tissues and organs. More so,
connective tissues divide structures
such as muscles, nerves as well as
blood vessels from one another.
- Storing energy through fat tissues and
Storage cells provides reserves for the body.
Bones in addition, stores minerals
such as calcium and phosphate.
- It transports materials throughout the
Transport body. For instance, blood, delivers
TYPES OF CONNECTIVE TISSUES
nutrients, enzymes, and essential
nutrients. I. CONNECTIVE TISSUE PROPER: LOOSE
- Adipose tissue cushions and protects CONNECTIVE TISSUE
Cushion and the tissues it surrounds and provides Few protein fibers, numerous spaces/more ground
Insulation
an insulating layer beneath the skin substance
that helps conserve heat.
- Connective tissues bind, supports, AREOLAR TISSUE
Connection and strengthen other tissues. For EM: collagen fibers and few elastic fibers
instance, tendons attach muscles to Description
bones while ligaments hold bones o Mostly composed of collagen fibers and few elastic
fibers
together.
o Has fibroblast, macrophages, and lymphocytes –
Functions
o Loose packing
o Support
o Nourishment
o

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Main Location Main Location
o All throughout the body skin, glands, muscles, and o Vertebrae
nerves o Posterior neck
ADIPOSE TISSUE o Vocal cords
Consists of adipocytes (fat cells) o Walls of blood vessels
Contain large amounts of lipid (for energy storage) o Lungs
o EM: loose arranged collagen and reticular fibers,
scattered elastic fibers
Structure
o Little extracellular matrix
o Adipocytes filled with triglycerides
Functions
o Packing material
o Insulation
o Energy storage
o Cushion
Main Location
o Subcutaneous
o Mesenteries
o Kidneys
o Mammary gland
o Spaces and crevices, where there is areolar CT
RETICULAR TISSUE
Structure
o Irregularly arranged fine network of reticular fibers
o Reticular cells
Functions
o Superstructure for vessels, lymph nodes and
hematopoietic tissues; stroma; binds to smooth
muscle
Main Location
o Framework of liver
o Lymph nodes
o Spleen
o Bone marrow
o Blood vessels
II. CONNECTIVE TISSUE PROPER: DENSE
SUPPORTING CONNECTIVE TISSUE: CARTILAGE
CONNECTIVE TISSUE
Composed of chondrocytes, in spaces called lacunae -
DENSE, REGULAR COLLAGENOUS (WAVY) Flexibility and strength
Structure Provides support
o Densely packed collagen fibers (parallel-tendon and Semi-solid matrix
ligament; various direction-dermis and organ
HYALINE CARTILAGE
capsules) Most abundant, covers the ends of bones, and can withstand
o Fibroblasts repeated compressions.
Functions Structure
o Stretching o Appears bluish-white and shiny
o Recoiling o Evenly dispersed collagen fibers
o Tensile strength o Chondrocytes in between spaces
Main Location Functions
o Tendons and ligaments o Growth
o Dermis o Rigidity and flexibility
o Organ capsules o For bone/joint articulation
o Outer layer of blood vessels Main Location
DENSE, REGULAR ELASTIC o Long bones
Structure o Trachea
o Elastin and collagen fibers are parallel with the o Larynx
direction of elastic ligaments o Costal cartilage of ribs
Functions o Embryonic skeleton
o Stretching FIBRO CARTILAGE
o Recoiling
More collagen, able to resists pulling or tearing, found in disks
o Resistance
between vertebrae and some joints (knee and jaw)

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o White blood cells
Structure o Platelets
o Tough and very strong tissue Structure
o Chondrocytes o Blood cells and a fluid matrix (plasma) that is 90-92%
Functions water
o Tough support Functions
o Rigidity o Nutrient transport and of other substances
Main Location o Immunity
o Intervertebral disks Main Location
o Pubic symphysis o Blood within the blood vessels
o Articular disks
ELASTIC CARTILAGE
Contains elastic fibers and is able to recoil to its original,
external ear, epiglottis, auditory tube.
Structure
o Densely packed cartilaginous tissue with elastin
fibers
Functions
o Rigidity
o Flexibility
Main Location
o Ears
o Epiglottis
o Auditory

MASCULAR TISSUE
This type of tissue generates the physical force
needed to make body structures move.
Consists of muscle fibers (cells) containing thin,
longitudinal, parallel contractile units called myofibril
(actin and myosin)

SUPPORTING CONNECTIVE TISSUE: BONE
Hard connective tissue
Consists of living cells, mineralized matrix
Osteocytes (bone cells), are located within lacunae
Support and protect other organs
Solid matrix TYPES OF MUSCE TISSUE
SPONGY & COMPACT BONE SKELETAL MUSCLE
Structure Striated (banded)
o Hard, bony matrix (lamellae)
o Osteocytes Voluntary
Functions Multinucleated
o Strength and support Responsible for body movement
o Protection Structure
o Attachment o Skeletal muscle cells or fibers appear striated
o Storage
(banded)
Main Location
o Cells are large, long, and cylindrical, with many
Bones
nuclei
FLUID CONNECTIVE TISSUE Functions
BLOOD o Voluntary movement of the body
Liquid matrix Main Location
Enables blood to flow rapidly; carry nutrients, oxygen, o Attached to the bone or other connective tissue
waste products
o Red blood cells

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CARDIAC MUSCLE
Striated involuntary
Single nucleated
Description
o Cardiac muscle cells are cylindrical and striated and
have a single nucleus
o They are branched and connected to one another by
intercalated disks, which contain gap junctions
Functions
o Pumps the blood (Involuntary unconscious control)
Main Location
o In the heart
SMOOTH MUSCLE
End tapered cells
Single nucleated
Involuntary conscious control
Functions
o Regulates size of organs, forces fluid through tubes,
controls the amount of light entering the eye,
produces ‘goose bumps’
Main Location
o In hollow organs, such as the stomach and intestine
o Skin and eyes
NERVOUS TISSUE
This type of tissue detects changes inside and outside the
body and generates transmits nerve impulses that
coordinate body activities to help maintain homeostasis.
o Found in the brain, spinal cord, and nerves
o Responsible for coordinating and controlling
o Detects changes in the body
o Consists of neurons (signal transmission and
receive) and glial cells (support and nourishment)
NEURONS
Nerve cell
o Responsible for conducting action potentials
o Parts of a Neuron
Cell Body
o Contains the nucleus
o Site of general cell functions
Dendrites
o Receives electric impulses
Axon
o Conduct electric impulses
Functions
o Neurons transmit information in the form of action
potentials, store information, and integrate and
evaluate data
o Neuroglia support, protect, and form specialized
sheaths around axons
Main Locations
o Brain
o Ganglia
o Spinal cord

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Intugmentary System - Although we SKIN

are often concerned with how the integumentary system
looks, it has many important functions that go beyond
appearance. The integumentary system forms the boundary
between the body and the external environment, thereby
separating us from the external environment while allowing us
to interact with it.
It comprises of skin, hair, glands, nails, and sensory
receptors
It is the organ system that we could find as the outermost
layer of the body

EPIDERMIS
Most superficial layer
First line of defense
Stratified squamous epithelium
In deepest layers, mitosis occurs
Layer of the Epidermis
- deepest; cuboidal & columnar cells,
undergo mitosis every 19 days
- Proliferation: Term used to define the
increased number of cells via cell
Stratum Basale division i.e., mitosis
- Highly proliferative
- Keratinization: cells change shape
and chemical composition; cells
become filed with the protein keratin
(hard)
Stratum
Spinosum - Spiny epithelial cells
The skin is made up of two major tissue layers, the
- Flattened cells
epidermis and the dermis. The epidermis (ep-i-der′mis; - Also called Keratohyalin
upon the dermis) is the superficial layer of the skin, Granules: Responsible for
Stratum
consisting of epithelial tissue. The epidermis resists synthesizing protein keratin, can be
Granulose
abrasion on the skin’s surface and reduces water loss found in the
through the skin. The epidermis rests on the dermis cytoplasm
- Can only be found in the palms and
(der′mis; skin), a layer of connective tissue. The dermis is
soles of the foot
responsible for most of the structural strength of the skin. Stratum Lucidum - Makes the skin in our palms and soles
The strength of the dermis is seen in leather, which is thicker than the rest of the body due to
produced from the hide (skin) of an animal by removing the additional 2-3 cell layer
the epidermis and preserving the dermis in a process - Eleidin conversion instead of the
called tanning. Keratin
- Most superficial stratum
The skin rests on the subcutaneous tissue, or hypodermis
- Dead skin cells (Anucleate: The
(hi-pō-der′mis), a layer of loose connective tissue (figure Stratum nucleus is no longer present)
5.1). The subcutaneous tissue is not part of the skin or Corneum - Non-proliferative layer
the integumentary system, but it does connect the skin to - Dead squamous cells filled with
underlying muscle or bone. keratin (structural strength); lipids
(prevent fluid loss); joined by
FUNCTIONS OF THE INTEGUMENTARY SYSTEM desmosomes
1. Protection
Protects deeper tissues from: DERMIS
o Mechanical Damage
o Chemical Damage
o Bacterial Damage
o Thermal Damage
o Ultraviolet Radiation
o Desiccation
2. Sensation
3. Vitamin D Production
4. Aids in Heat Regulation
5. Aids in Excretion of Urea and Uric Acid

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The second layer of the skin after the epidermis SKIN APPENDAGES
Dense collagenous connective tissue, contains - A smooth muscle responsible for
fibroblasts, adipocytes, macrophages (mast cells also goosebumps
Arrector Pili - It is being controlled by a division of
known as immune cells)
Muscle the nervous system that is related with
Consists of nerves, hair follicles, smooth muscles, glands, the involuntary control of the body
lymphatic vessels structure
Dense Collagenous Connective Tissue - Located in the papillary layer
o Fibroblasts - Reason why the hair grows in length
o Adipocytes Hair Follicle - There is a presence of cell bulb where
o Macrophages mitosis occur
o Dermal papillae Nail - Heavily keratinized nail plate
o Papillary region
- They are commonly found in the face
Dermal Layers and scalp
- Wavy (Convoluted) Oil Glands - Attached to a hair follicle
structure to create - Secretion of oil is for lubrication and
Papillary Layer Dermal an intact immunity
Papillae attachment - Sebum: Medical term for oil
between the Dermis - Sweat secretion; thermoregulation;
and the Epidermis widely distributed
- Sudor: Medical term for sweat
- Contains blood - Located in the reticular layer
vessels that supply Sweat Glands Types of Sweat Glands
the epidermis with Eccrine Apocrine
nutrients, remove - Secretion is - Secretion is
waste products, and directly on still
regulate body pores connected to
temperature - Commonly the hair
Pain - Also known as found all follicle
Receptors Nocireceptors over the - Can only be
- Blood vessels body found in the
Capillar
- Responsible for the auxiliary and
y
redness of the skin groin areas
Loops of the body
- Much thicker layer than the papillary
layer
PHYSIOLOGY OF THE INTEGUMENTARY SYSTEM
- A vast majority of our blood vessels
can be found here SENSATION
Reticular Layer - Endocrine sweat gland and
sebaceous (Oil) gland can be also Meissner corpuscles- sensitivity to light touch
found here Pacinian corpuscles- sensitivity to vibration and
- Contains collagen (resist stretching) pressure.
and elastic fibers: structural strength Thermoreceptors - changes in temperature
- The thickness of the dermal layer is Nociceptors - Pain receptors
different for every part of the body
TEMPERATURE
SKIN COLOR Sweating-waste
- A pigment produced by
Large reservoir of blood
melanocytes particularly in the
melanosome Protective barrier for the internal organs
Melanin - Melanocytes: Produce melanin; PROTECTION
irregularly shaped cells; found in the
Protects the body against invasion of pathogenic
stratum basale
- Melanosomes: Vesicles derived microorganisms as well as extensive water loss
from GA where melanin is Decreases chances of having abrasions
produced
- Yellow (Caucasian or White) VITAMIN D PRODUCTION
Melanin
- Brown (Asian) Vitamin D plays an important role in calcium homeostasis
Pigments - Black (African) in the body.
- Responsible for the yellowish hue of
Carotene our skin
- Accumulation of Vitamin A in the
adipocytes and subcutaneous tissue
- Bluish discoloration of the skin or
Paleness
mucous membrane
and - Decreased blood O2
Cyanosis
- recessive genetic trait that causes
Albinism deficiency or absence of melanin

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