Tissue Level of Organisation (I) PDF

Summary

This document describes different types of tissues found in the human body. It covers topics like epithelial tissue, which covers and lines body surfaces, and other tissue types like connective, muscular, and nervous tissue. The text provides an overview of their characteristics and functions.

Full Transcript

TISSUE LEVEL
OF ORGANISATION (I)

Dr. P. De Gabriele MD DipWH(ICGP) MMCFD
 Cells are highly organized units.

BUT they do not function in isolation.

They work together in a group of similar
cells called a tissue.
 TISSUES
A tissue is a group of similar cells and their intercellular
substance functioning together to perform a specialised activity.

There are 4 principal types :
EPITHELIAL TISSUE
covers the body surfaces or tissues, lines body cavities and forms glands

CONNECTIVE TISSUE
protects and supports the body and its organs and binds organs together

MUSCULAR TISSUE
responsible for movement

NERVOUS TISSUE
initiates and transmits nerve impulses that coordinate body activities
 EPITHELIAL TISSUE
Epithelial tissue or epithelium may be divided into two
subtypes:
Covering and lining epithelium
It lines the body cavities.
It lines the interiors of the respiratory and digestive tracts, blood
vessels and ducts.
It forms the outer covering of the external body surfaces and of
some internal organs.
It makes up (along with nervous tissue) the parts of the sense organs that
are sensitive to stimuli that produce smell and hearing sensations.
It is the tissue from which gametes develop.

Glandular epithelium
This constitutes the secreting portion of the glands.
 Characteristics of Epithelial Tissue
The epithelium consists largely or entirely of closely packed cells with little
or no intercellular material (also called matrix) between adjacent cells.
The points of attachment between adjacent plasma membranes of epithelial
cells are called cell junctions.
These provide cell-to-cell attachments.
They provide channels for communication between other cells.
They inhibit the movement of materials into certain cells.
Epithelial cells are arranged in continuous sheets that may be either single or
multilayered. Nerves may extend through these sheets, but blood vessels do
not and so epithelia are avascular.
Both types of epithelium get their nutrients and remove their wastes from
blood vessels located in the underlying connective tissue.
The epithelia adhere firmly to the connective tissue and this holds them in
position and prevents them from being torn. The surface of attachment
between the epithelium and the connective tissue is a thin extracellular layer
called the basement membrane.
COVERING AND LINING EPITHELIUM
Covering and lining epithelium is arranged in several different
ways related to location and function.

Simple epithelium is found
in areas that have minimal wear and tear
where the epithelium is specialised for absorption or filtration.
Stratified epithelium is found in areas with a high degree of
wear and tear.
Pseudostratified epithelium has only one layer of cells but
some cells do not reach the surface, giving the tissue a
multilayered, or stratified, appearance.
The cells that do reach the surface either secrete mucus or contain cilia
that move mucus and foreign particles for eventual elimination from the
body.
 Covering and lining epithelium
categorised by cell shape
Squamous cells are flattened and scale like and are attached to
each other like a mosaic.
Cuboidal cells are usually cube-shaped in cross-section and
sometimes appear as hexagons.
Columnar cells are tall and cylindrical, appearing as rectangles
set on end.
Transitional cells often have a combination of shapes.
They are found where there is a great degree of distension or expansion
in the body.
In the bottom layer of an epithelial tissue, transitional cells may range in
shape from cuboidal to columnar.
In the intermediate layer, they may be cuboidal or polyhedral.
In the superficial layer, they may range from cuboidal to squamous,
depending on how much they are pulled out of shape during certain body
functions.
Covering and Lining Epithelium
SIMPLE
Squamous
Cuboidal
Columnar

STRATIFIED
Squamous
Cuboidal
Columnar
Transitional

PSEUDOSTRATIFIED
 SIMPLE SQUAMOUS EPITHELIUM

This simple epithelium consists of a single layer of flat,
scale like cells.
Its surface resembles a tiled floor.
The nucleus of each cell is centrally located and oval or
spherical.
 SIMPLE SQUAMOUS EPITHELIUM
It is highly adapted to diffusion, osmosis and filtration.
Thus,
It lines the air sacs of lungs, where oxygen is
exchanged with carbon dioxide.
It is present in the part of the kidney that filters blood.
It lines the inner surfaces of the membranous labyrinth
and tympanic membrane of the ear.
It lines the heart, blood vessels and lymph vessels and
forms the walls of the capillaries. Here the epithelium
is known as endothelium.
 SIMPLE CUBOIDAL EPITHELIUM

These cells possess a central nucleus.
This tissue performs the functions of secretion and absorption.
Secretion is the production and release by cells of a fluid that may
contain a variety of substances such as mucus, perspiration or enzymes.
Absorption is the intake of fluids or other substances by cells of the skin
or mucous membranes.
 SIMPLE CUBOIDAL EPITHELIUM

Simple cuboidal epithelium
covers the surface of the ovaries
lines the anterior surface of the capsule of the lens
of the eye
forms the pigmented epithelium of the retina of
the eye
forms the kidney tubules (Here it contains
microvilli and functions in water reabsorption.)
lines the smaller ducts of some glands and the
secreting units of the glands such as the thyroid.
SIMPLE COLUMNAR EPITHELIUM

This tissue contains cells whose nuclei are located near
the bases of the cells.
Simple columnar epithelium may be
ciliated or nonciliated.
The nonciliated type lines
the digestive tract from the cardia of the stomach to the anus
the excretory ducts of many glands
the gallbladder

The ciliated type lines
a few portions of the upper respiratory tract
the uterine (Fallopian) tubes
the uterus
some paranasal sinuses
the central canal of the spinal cord
 Modified Columnar Cells
The luminal surfaces of simple columnar epithelial cells are
modified in several ways, depending on the location and
function.
In the digestive tract, the cells of the columnar epithelium protect the
underlying tissues.
Many of them are also modified to aid in food-related activities.
In the small intestine, the plasma membranes of the cells are folded into
microvilli. This arrangement increases the surface area of the plasma
membrane and thereby allows larger amounts of digested nutrients and
fluids to be absorbed into the body.

Interspersed among the typical columnar cells of the intestine
are other modified columnar cells called goblet cells.
These cells secrete mucus. The mucus accumulates in the upper half of
the cell, causing the area to bulge out.
The secreted mucus serves as a lubricant between the food and the walls
of the digestive tract.
 STRATIFIED EPITHELIUM

Unlike simple epithelium, stratified epithelium
consists of at least two layers of cells.
Thus, it is durable and can protect underlying
tissues from the external environment and from
wear and tear.
 STRATIFIED SQUAMOUS
EPITHELIUM

In the more superficial layers of this type of epithelium, the cells are flat,
whereas in the deep layers, cells vary in shape from cuboidal to columnar.
The basal cells continuously multiply by cell division. As new cells grow, they
compress the cells on the surface and push them outward.
They also become dehydrated, shrink and become harder.
Nonkeratinized Stratified Squamous Epithelium

This tissue is found on wet surfaces that area
subjected to considerable wear and tear and does
not perform the function of absorption:
the lining of the mouth
the tongue

the oesophagus

the vagina
Keratinized Stratified Squamous Epithelium

The surface cells are modified into a tough layer
of material containing keratin which is a
protein that is resistant to water and friction and
helps to resist bacterial invasion.
The outer layer of the skin consists of
keratinized tissue.
 STRATIFIED CUBOIDAL EPITHELIUM

This is a relatively rare type of epithelium and is found in
the ducts of the sweat glands of adults
the fornix of the conjunctiva of the eye
the cavernous urethra of the male urogenital system
the pharynx
the epiglottis
Its function is mainly protective.
STRATIFIED COLUMNAR EPITHELIUM

Usually the basal layer or layers consist of shortened,
irregularly polyhedral cells.
Only the superficial cells are columnar in form.
It functions in protection and secretion.
STRATIFIED COLUMNAR EPITHELIUM

This type of tissue is also uncommon.
This kind of epithelium lines
part of the male urethra
some larger excretory ducts such as lactiferous ducts
in the mammary glands
small areas in the anal mucous membrane
 TRANSITIONAL EPITHELIUM
This epithelium is very much like nonkeratinized
stratified squamous epithelium.
The distinction is that cells of the outer layer in
transitional epithelium tend to be large and rounded
rather than flat.
This feature allows the tissue to be stretched without
the outer cells breaking apart from one another. When
stretched they are drawn out into squamouslike cells.

Thus, transitional epithelium lines the urinary bladder.
Its function is to prevent a rupture of the organ.
PSEUDOSTRATIFIED EPITHELIUM

All the cells are attached to the basement membrane in a
single layer.
Some cells do not reach the surface.
The nuclei of the cells are at varying depths.
This gives the impression of a multilayered tissue.
PSEUDOSTRATIFIED EPITHELIUM

It lines
the larger excretory ducts of many glands
parts of the male urethra

the auditory (Eustachian) tubes

It may contain goblet cells.
It may be ciliated.
Most of the upper respiratory tract
Certain ducts of the male reproductive system
 GLANDULAR EPITHELIUM
The function of glandular epithelium is secretion.
This is carried out by glandular cells that lie in clusters
deep to the covering and lining epithelium.

A gland may consist of
one cell
a group of highly specialised epithelial cells that secrete
substances
into ducts
onto a surface
into the blood.
The production of such substances always requires active
work by the glandular cells and results in an
expenditure of energy.
 GLANDS
EXOCRINE GLANDS
Secrete substances into ducts
Secrete substances directly onto a free surface

ENDOCRINE GLANDS
Secrete substances into the blood
 EXOCRINE GLANDS
These secrete their products into ducts that empty at the surface
of covering and lining epithelium or directly onto a free surface.
The secretions of exocrine glands include
Mucus
Perspiration
Oil
Wax
Digestive enzymes.

Examples are
Sweat glands that eliminate perspiration to cool the skin
Salivary glands which secrete a digestive enzyme
Goblet cells which produce mucus
 ENDOCRINE GLANDS
They are ductless.
They secrete their products into the blood.

The secretions of endocrine glands are always
Hormones
Chemicals that regulate various physiological activities

Examples include
the pituitary gland
the thyroid gland
adrenal glands
STRUCTURAL CLASSIFICATION
OF EXOCRINE GLANDS
UNICELLULAR
Single-celled gland that secretes mucus such as the goblet
cell of the digestive and respiratory systems

MULTICELLULAR
Many-celled glands
A. Simple.
Single, nonbranched duct
B. Compound.
Branched duct
MULTICELLULAR EXOCRINE GLANDS

A. Simple.
1. Tubular
2. Branched tubular
3. Coiled tubular
4. Acinar
5. Branched acinar

B. Compound.
1. Tubular
2. Acinar
3. Tubuloacinar
Simple Tubular Gland

The secretory portion is
straight and tubular.

An example are the
intestinal glands.
Simple Branched Tubular Glands

The secretory portion is
branched and tubular.

Examples include the
gastric and uterine
glands.
Coiled Tubular Glands

The secretory portion is
coiled.

An example is the sweat
glands.
Simple Acinar Glands

The secretory portion is
flask-like.

An example is the
seminal vesicle glands.
 Simple Branched Acinar Glands

The secretory portion is
branched and flask-
like.

An example is the
sebaceous glands.
Compound Tubular Glands

The secretory portion is
tubular.

Examples include:
bulbourethral glands
testes
liver
 Compound Acinar Glands

The secretory portion is
flask-like.

Examples include:
salivary glands
sublingual
submandibular
Compound Tubuloacinar Glands

The secretory portion is
both tubular and
flask-like.

Examples include:
the parotid salivary
glands
the pancreas
FUNCTIONAL CLASSIFICATION
OF EXOCRINE GLANDS

Holocrine glands

Merocrine glands

Apocrine glands
Holocrine Glands

They accumulate a secretory product in their cytoplasm.
The cell then dies and is discharged with its contents as the
glandular secretion.
The discharged cell is replaced by a new cell.

An example is a sebaceous gland of the skin.
Merocrine Glands

They simply form the secretory product.
They discharge it from the cell.
Examples include
the salivary glands
the pancreas
 Apocrine Glands
They accumulate their secretory product at the apical margin
of the secreting cell.
That portion of the cell pinches off from the rest of the cell to
form the secretion.
The remaining part of the cell repairs itself and repeats the
process.
An example is the mammary gland.