ZOOLOGY LECTURE BIO TISSUE.pdf

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ZOOLOGY
ANIMAL TISSUES
table of 01 02

contents:
Classification of Animal Function of Animal Tissue
Tissues

03 04
Parts of Animal Tissue Anatomical Terms

05
Animal Classification
 levels of
organization
 tissue
4 Basic types of tissue
A group of cells that have similar
structure and function together as one
unit
HISTOLOGY - The study of the
microscopic anatomy of cells and
tissues.
Connective tissue Epithelial tissue

Muscle tissue Nervous tissue
 epithelial tissues

Cover body surfaces, form glands and
line hollow organs, body cavities and
ducts.

Classified based on 2 ways: Layers
and Shape
1 layer - simple; more than one -
stratified
Special classification - pseudo
means false (false layer)
·Flat – squamous; cuboidal- same
width and height; if it is longer than
the wide – columnar.
 epithelial tissues

Epithelia are named according to the
shape of their cells, and the thickness
or arrangement of their layers (of cells)

simple squamous pseudostratified squamous stratified squamous

simple cuboidal pseudostratified cuboidal stratified cuboidal

simple columnar pseudostratified columnar stratified columnar

transitional
simple squamous epithelium simple cuboidal epithelium

Composed of a single layer of flat cells Composed of a single layer of cube
found: shaped cells.
In the air sacs of lungs ·It is often found lining the tubules of
In the lining of blood vessels, the the kidneys and many other glands
heart, and lymphatic vessels Function: For absorption, secretion
In all capillaries, including those of
the kidney
Function: Diffusion of gases in the
lungs and easy transport of
molecules.
simple columnar epithelium pseudostratified squamous epithelium

Appears to have layers, due to nuclei which are
Forms a single layer of column-like cells at various depths. In reality, all cells are
cilia, microvilli, mucus (goblet cells). attached to the basement membrane in a
single layer, but some do not extend to the
Goblet cells (wine like shape) are
apical surface.
simple columnar cells that have Ciliated tissue has goblet cells that secrete
differentiated to acquire the ability to mucous
secrete mucus. (Found in small and Has Globular cells, Cilia
large intestines) Locations: Upper respiratory tract (nose,
pharynx, larynx); trachea
Function: Absorption, transport and
Function: Protection from any foreign
secretion material like dust particles so you form
mucous or you cough.
stratified squamous epithelium stratified cuboidal epithelium

Has more than one layer of flat cells Has an apical surface made up of two or more
has an apical surface that is made up of layers of cube-shaped cells.
squamous (flat) cells. ·Locations: include the sweat glands and part of
The other layers have different shapes, but the the male urethra
name is based on the apical layer.
The many layers are ideal for protection against
strong friction forces.
Location: Skin
Function: Protection especially from friction and
forces.
Layers of the skin – stratum corneum, S. Lucidum,
S. granulosum, S. Spinosum, S.
Basale/Germinativum
stratified columnar epithelium transitional epithelium

A rare type of epithelial tissue composed of The cells of this epithelium change shape depending on the
state of stretch in the tissue.
column-shaped cells arranged in multiple In a full bladder, the cells are flattened.
layers 700- 800 mL capacity of the urinary bladder
It became squamous when it is full then become
cuboidal when empty.
Locations: Conjunctiva, pharynx, anus, and
male urethra. It also occurs in embryo.
 epithelial tissues
Although epithelia are found throughout the
body, certain ones are associated with specific
body locations.
Stratified squamous epithelium is a
prominent feature of the outer layers of the
skin.
Simple squamous makes up epithelial
membranes and lines the blood vessels,
alveolar sacs, serous membrane like
peritoneum, pleura, or pericardium.
Columnar is common in the digestive tract.
Pseudostratified ciliated columnar is
characteristic of the upper respiratory tract
(from pharynx, larynx trachea).
Transitional is found in the urinary bladder.
Cuboidal lines ducts and sweat glands and
male urethra.
 connective tissues Collagen is the main protein of C.T. and
the most abundant protein in the body,
making up about 25% of total protein
Connective Tissues are the most
content.
abundant and widely distributed
Helps stretching of the skin that’s
tissues in the body – they are also the
why the wrinkles fade.
most heterogeneous of the tissue
groups.
They perform numerous functions:
Bind tissues together
Support and strengthen tissue
Protect and insulate (work of fats or
adipose tissue) internal organs
Compartmentalize certain structure
and transport (blood)
Energy reserves (fats store
triglycerides) and immune
responses (antibodies)
 Common cells of
connective tissues

Blast – immature (monoblast)
Cyte – mature (monocyte)
1.Fibroblasts
are the most numerous cell of
connective tissues. These cells
secrete protein fibers (collagen,
elastin, & reticular fibers) and a
“ground substance” which varies
from one C.T. to another.
2. Chondrocytes make the various
cartilaginous C.T.
Chondro - cartilage
3. Adipocytes store triglycerides
4. Osteocytes - make bones
5. Blood Cells
 connective tissues

Embryonic Connective Tissue
Mesenchyme
Mucous Connective Tissue
Germ Cell layer that us the source
of connective Tissue
Mature connective tissue
Loose connective tissue (Areolar,
Adipose, Reticular)
Dense connective tissue (Irregular,
Regular, Elastic)
Cartilage (Hyline, Fibrocartilage,
Elastic)
Bone
 loose connective tissues
areolar connective tissue adipose tissue

Is the most widely distributed in the body. It is located in the subcutaneous layer deep to
contains several types of cells and all three the skin and around organs and joints.
fiber types. It reduces heat loss and serves as padding
and as an energy source.
It is used to attach skin and underlying
It serves as energy source
tissues, and as a packing between glands, Glycogenesis: formation of glycogen from
muscles, and nerves. glucose.
The cells are separated, there are spaces Glycogenolysis: breakdown of glycogen to form
in between and have different fibers. glucose.
 loose connective tissues
RETICULAR connective tissue

Last connective tissue; is a network of
interlacing reticular fibers and cells.
It forms a scaffolding used by cells of
lymphoid tissues such as the spleen and
lymph nodes. It fights the invading germs
in the blood by the process of filtration.
 dense connective tissues
DENSE IRREGULAR CONNECTIVE DENSE REGULAR CONNECTIVE
TISSUE tissue
consists predominantly of fibroblasts and
collagen fibers randomly arranged in
different directions. comprise tendons, ligaments, and other
strong attachments where the need for
Provides strength when forces are pulling
strength along one axis is mandatory (a ·a
from many different directions. Like the muscle pulling on a bone).
skin, there is a part that has dense Arranged regularly.
irregular connective tissue because the
skin is being pulled in different directions
 dense connective tissues
elastic CONNECTIVE TISSUE

consists predominantly of
fibroblasts and freely branching
elastic fibers.
It allows stretching of certain tissues
like the elastic arteries (the aorta).
 cartilage tissues
hyaline cartilage fibrocartilage
is the most abundant type of cartilage; it with its thick bundles of collagen fibers, is a
covers the ends of long bones and parts of very strong, tough cartilage.
Fibrocartilage discs in the intervertebral
the ribs, nose, trachea, bronchi, and larynx.
spaces and the knee joints support the huge
It provides a smooth surface for joint
loads up and down the long axis of the body.
movement Found in the areas of the body that uses so
In elderly patients, the hyaline cartilage much load like intervertebral spaces
starts to fade because the bones starts to (backbones- atlas, axis, c2 c3 c4 c5 are joined
touch each other like the tibia and the together by the cartilage)
fibula.
 cartilage tissues
elastic cartilage
Consists of chondrocytes located in a
threadlike network of elastic fibers.
It makes up the malleable part of the
external ear and the epiglottis (it prevents
food and drink from entering the windpipe).
There are 2 tubes: the tube going to lungs
(front) and the tube where the food passes
through (back). When you swallow, the
epiglottis covers the tube in front so that
food will slide down at the back.
 bones blood and lymp

Is a connective tissue with a calcified
intracellular matrix. In the right circumstances, As we have seen, blood has many cells. It also
the chondrocytes of cartilage are capable of has fibers (such as fibrin that makes blood clot).
turning into the osteocytes that make up bone Leukocyte – WBC
tissue. Erythrocyte – RBC
Initially, it is chondrocytes and as the patient Platelets
ages, it becomes osteocytes to make up the Plasma
bone tissue.
Haversian canal- middle
The whole thing there (all canaliculi,
lacunae/ space or osteocytes) makes up the
Haversian System
summary of mature ct
Muscle and nerve tissues
·Muscles and nerve tissues are the
last of the 4 basic tissue types.
Neurons and muscle fibers are
considered excitable cells
because they exhibit electrical
excitability, the ability to respond
to certain stimuli by producing
electrical signals such as action
potentials.
Action potentials can propagate
(travel) along the plasma
membrane of a neuron or
muscle fiber due to the presence
of specific voltage-gated ion
channels.
 Muscular tissues

Skeletal – striated, they have
more than one nucleus,
multinucleated. Nucleus are
located eccentrically meaning it
is in the periphery, not in the
middle.
Cardiac – striated but nucleus is
located centrally. In one muscle
fiber, it is only single. It has
intercalated discs, and it is
branching
Visceral – no striation and has
only one centrally located
nucleus and tapers at both ends.
 nervous tissues

Neurons gather information at
dendrites and process it in the
dendritic tree and cell body.
Then they transmit the information
down their axon to the axon
terminals.
2 TYPES OF CELL IN THE NERVOUS
SYSTEM:
1. NEURONS- main nerve cells
2. NEUROGLIA- supporting nerve cells
Dendrites- receives impulses towards
the cell body
Axon- receives impulses away from
the cell body
stratified columnar epithelium transitional epithelium

A rare type of epithelial tissue composed of The cells of this epithelium change shape depending on the
state of stretch in the tissue.
column-shaped cells arranged in multiple In a full bladder, the cells are flattened.
layers 700- 800 mL capacity of the urinary bladder
It became squamous when it is full then become
cuboidal when empty.
Locations: Conjunctiva, pharynx, anus, and
male urethra. It also occurs in embryo.