Tissues, Tissue Membrane, and Inflammation PDF

Summary

This document describes various types of tissues found within the human body. It provides an overview of epithelial tissue, including different types of epithelium. It also discusses glands, both exocrine and endocrine, and the functions of these structures.

Full Transcript

N
W E
EPITHELIAL S
TISSUES
ELISHA CHARITY B.
HERMOSO, RMT
TISSUES:
A GROUP OF CELLS WITH SIMILAR STRUCTURE AND FUNCTIONS THAT HAVE SIMILAR
EXTRACELLULAR SUBSTANCES LOCATED BETWEEN THEM

Histology is the microscopic study of tissue structure.
EPITHILIUM OR
EPITHELIAL TISSUE
COVERS EXTERNAL AND INTERNAL
SURFACES THROUGHOUT THE
BODY.
SURFACE INCLUDE LINING OF CAVITIES
SUCH AS DIGESTIVE TRACT, AIRWAYS
AND BLOOD VESSELS
MOST HAVE A FREE SURFACE
BASAL SURFACE ADJACENT TO
BASEMENT MEMBRANE
 TITLE
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BASEMENT MEMBRANE

▪ BLOOD VESSSELS DO NOT EXTEND FROM THE UNDERLYING TISSUES INTO
EPITHELIUM
▪ IT MUST DIFFUSE IN THE BASAL MEMBRANE FROM UNDERLYING TISSUE
▪ WASTE PRODUCTS PRODUCED BY EPITHELIAL CELLS DIFFUSE ACROSS THE
MEMBRANE
 EPITHELIUM
BASEMENT MEMBRANE
IS SECRETED PARTLY BY
EPITHELIAL CELLS AND
PARTLY BY THE CELLS OF THE
UNDERLYING TISSUES.

SUBSTANCES THAT CROSS THE
EPITHELIUM MUST ALSO
CROSS THROUGH IT.
 EX. SKIN, ORAL
1. PROTECTING
CAVITY
UNDERLYING
STRUCTURES. FUNCTIONS
2. ACTING AS A OF EX. SKIN
BARRIER
3. PERMITTING THE
EPITHELIUM EX. LUNGS
PASSAGE OF
SUBSTANCE
EX. SWEAT GLANDS, MUCOUS
4. SECRETING GLANDS, SECRETING PORTIONS
OF PANCREAS
SUBSTANCES
5. ABSORBING CELL MEMBRANE OF CERTAIN
SUBSTANCES EPITHILIAL TISSUES CONTAIN
CARRIER PROTEINS
SIMPLE EPITHELIUM
 SIMPLE EPITHELIUM
SIMPLE SQUAMOUS EPITHELIUM
 SIMPLE EPITHELIUM
SIMPLE CUBOIDAL EPITHELIUM
 SIMPLE EPITHELIUM
SIMPLE COLUMNAR EPITHELIUM
STRATIFIED EPITHELIUM
STRATIFIED EPITHELIUM
STRATIFIED SQUAMOUS EPITHELIUM
STRATIFIED EPITHELIUM
STRATIFIED CUBOIDAL EPITHELIUM
STRATIFIED EPITHELIUM
STRATIFIED COLUMNAR EPITHELIUM
PSEUDOSTRATIFIED COLUMNAR EPITHELIUM
AND TRANSITIONAL EPITHELIUM
PSEUDOSTRATIFIED COLUMNAR
EPITHELIUM
TRANSITIONAL EPITHELIUM
ASSIGNMENT no. 1 for
MIDTERMS (considered
bonus points)
DRAW ALL THE DIFFERENT TYPES
OF EPITHELIAL TISSUE
CITE WHAT ORGANS IN OUR BODY
THAT APPLIES EPITHELIAL TISSUE
AND ITS FUNCTION
FREE SURFACE

It is not in contact with other cells
and faces away from underlying
tissues. EX:
endothelium, with a smooth
surface, which reduces friction as
blood flows through the vessels.
Microvilli are cylindrical extensions
of the cell membrane that increase
the free surface area cells lining the
small intestine
FREE SURFACE

It is not in contact with other cells
and faces away from underlying
tissues. EX:
Cillia -the nasal cavity and trachea
are lined with pseudostratified
columnar ciliated epithelium. The
uterus and uterine tubes are also
lined with ciliated columnar cells.
There the cilia help move mucus
and oocyte
CELL CONNECTIONS

Cells have structures that hold one
cell to one another or to the
basement membrane. These
structures do three things:
(1) mechanically bind the cells
together
(2) help form a permeability
barrier, (3) provide a mechanism
for intercellular communication
Desmosomes

mechanical links that bind cells
together.
Modified desmosomes, called
hemidesmosomes
TIGHT JUNCTIONS

bind adjacent cells together
and form permeability
barriers.
prevent the passage of
materials between epithelial
cells because they completely
surround each cell,
GAP JUNCTION
are small channels that
allow small molecules
and ions to pass from
one epithelial cell to an
adjacent one.
 GLANDS
SECRETORY
ORGANS

composed primarily of
epithelium, with a
supporting network of
connective tissue.
 EXOCRINE ENDOCRINE
(EK′SŌ-KRIN) (EN′DŌ-KRIN)
GLANDS GLANDS
Glands with ducts Some glands become
separated from the
maintains an open
epithelium of their
contact with the
origin and have no
epithelium
ducts.
Most are composed of
have extensive blood
many cells and are
vessels.
called multicellular
glands Hormones cellular
lined with epithelium products excreted
 Simple glands have those shaped in
a single, nonbranched saclike structures are
duct. called acinar
Compound glands (as′i-nar) or
have multiple, alveolar (al-vē′ō-lar).
branched ducts.
Tubular glands can
Glands with secretory
be straight or coiled.
regions shaped as
tubules (small tubes) Glands with a
are called tubular combination of the
have extensive blood two are called
vessels EXOCRINE GLANDS tubuloacinar or
tubuloalveolar.
 Holocrine
Merocrine secretion (hol′ō-krin)
involves the release of
secretion involves
secretory products by
the shedding of entire
exocytosis.
EX. Sweat glands and cells.
pancreas Ex. Sebaceous Oil
Glands

Apocrine (ap′ō-krin)
secretion involves the
release of secretory
products as pinched-off
fragments of the gland EXOCRINE GLANDS:
cells CLASSIFIED HOW
PRODUCTS LEAVE CELLS
EX. Mammary glands
EXOCRINE GLANDS
CONNECTIVE
TISSUES
CONNECTIVE
TISSUES

primary tissue type that makes
up part of every organ in the
body.
it consists of cells separated
from each other by abundant
extracellular matrix.
 Enclosing and separate muscles, arteries, veins, and nerves from one
separating other another.
tissues.
Tendons are strong cables, or bands, of connective tissue
Connecting tissues to that attach muscles to bone, and ligaments
one another.
nose, the ears, and the surfaces of joints.
Supporting and
moving parts of the
body. Adipose tissue (fat) stores high-energy molecules, and
Storing compounds. bones store minerals
Cushioning and
insulating Blood transports gases, nutrients, enzymes, hormones,
Transporting and cells of the immune system throughout the body
Protecting. Cells of the immune system and blood provide protection
against toxins and tissue injury,
 CELLS OF CONNECTIVE TISSUE

Blasts Cytes Clasts
create the matrix maintain it break it down for
EX: OSTEOBLASTS remodeling
EX:
FIBROBLASTS
CHONDROCYTES
CHONDROBLASTS
 CELLS OF CONNECTIVE
TISSUE
Macrophages (mak′rō-fāj-ez;
makros, large + phago, to eat)
Mast cells
are large white blood cells that are nonmotile cells that
are capable of moving about and release chemicals, such
ingesting foreign substances, as histamine, that
including microorganisms in the promote inflammation.
connective tissue.
 Extracellular Matrix

The extracellular matrix of connective tissue
has three major components:
(1) protein fibers,
(2) ground substance
(3) fluid.
 Protein Fibers of the Matrix

types of protein fibers :
Collagen resemble microscopic ropes, are very
flexible but resist stretching
Reticular are very fine, short collagen fibers that
branch to form a supporting network.
Elastic ability to return to their original shape
after being stretched or compressed, giving tissue
an elastic quality.
 The ground substance Proteoglycans
consists of nonfibrous (prō′tē-ō- glī′kanz;
molecules. GROUND SUBSTANCE proteo, protein +
OF THE MATRIX
It is the “shapeless” glycan,
background against polysaccharide) are
which the collagen large molecules that
fibers are seen consist of a protein
through the core attached to many
microscope. long polysaccharides
 CONNECTIVE TISSUE PROPER
LOOSE CONNECTIVE TISSUES

consists of relatively few protein fibers that
form a lacy network, with numerous spaces
filled with ground substance and fluid.
 CONNECTIVE TISSUE PROPER
DENSE CONNECTIVE TISSUE
has a relatively large number of protein
fibers that form thick bundles and fill
nearly all of the extracellular space.
SUPPORTING CONNECTIVE
TISSUE
SUPPORTING CONNECTIVE TISSUE
CARTILAGE
is composed of chondrocytes
(kon′drō-sītz), or cartilage cells, located
in spaces called lacunae (lă-koo′nē; small
spaces) within an extensive matrix
HYALINE
CARTILAGE

is the most
abundant type of
cartilage and has
many functions. It
covers the ends of
bones where they
come together to
form joints
FIBROCARTILAGE

has more collagen than
does hyaline cartilage,
and bundles of collagen
fibers can be seen in the
matrix.
In addition to
withstanding
compression, it is able to
resist pulling or tearing
forces
ELASTIC
CARTILAGE
contains elastic fibers
in addition to collagen
and proteoglycans.
appear as coiled fibers
among bundles of
collagen fibers.
is able to recoil to its
original shape when
bent.
SUPPORTING CONNECTIVE TISSUE
BONES
is a hard connective tissue that
consists of living cells and a
mineralized matrix
 BONES
SPONGY BONE COMPACT BONE
has spaces between is more solid, with
trabeculae (tră-bek′ū-lē; almost no space
beams), or plates, of between many thin
bone and therefore layers of mineralized
resembles a sponge matrix
FLUID
CONNECTIVE
TISSUE
BLOOD
is unique because
the matrix is liquid,
enabling blood cells
and platelets,
collectively called
formed elements,
to move through
blood vessels
 MUSCLE TISSUES
Main function :to contract, or shorten, making movement
possible.
length of muscle cells is greater than the diameter.
Muscle cells are sometimes called muscle fibers because they
often resemble tiny threads.
 SKELETAL
MUSCLES
40% of a person’s body
weight
is described as
voluntary(under conscious
control)
nervous system can cause
skeletal muscles to
contract without conscious
involvement (REFLEX)
 SKELETAL
MUSCLES
long and cylindrical, with
several nuclei per cell
Striated or banded,
because of the
arrangement of contractile
proteins within the cells
CARDIAC
MUSCLE
is the muscle of the heart
involuntary (unconscious)
control
are cylindrical but much
shorter than skeletal
muscle cells
are striated and usually
have one nucleus per
cell. They are often
branched and connected
to one another by
intercalated
(in-ter′kă-lā-ted) disks.
CARDIAC
MUSCLE
Intercalated disks
contain specialized gap
junctions, are important
in coordinating the
contractions of the
cardiac muscle cells
SMOOTH
MUSCLES

forms the walls of hollow
organs s (except the heart)
are tapered at each end,
have a single nucleus, and
are not striated
 NERVOUS TISSUES
Found in the brain, spinal cord, and nerves.
It is responsible for coordinating and controlling many body
activities
NERVOUS TISSUES

▪ ability of nervous tissue cells to communicate with one
another and with the cells of other tissues by means of
electrical signals called ACTION POTENTIALS.
▪ consists of neurons/ nerve cells and support cells. They are
responsible for conducting action potential
▪ Dendrites (den′drītz; relating to a tree) and axons (ak′sonz) are
nerve cell processes (extensions).
▪ Glia (g′lē-ă; glia, glue) are the support cells of the nervous
system; they nourish, protect, and insulate the neurons.
TISSUE MEMBRANE
a thin sheet or layer of
tissue that covers a
structure or lines a cavity
 MUCOUS
MEMBRANE

line cavities that open to
the outside of the body,
such as the digestive,
respiratory, and
reproductive tracts
they include protection,
absorption, and
secretion
 SEROUS
MEMBRANE

Line cavities that do not open to the
exterior of the body, such as the
pericardial, pleural, and peritoneal
cavities.
do not contain glands, but they
secrete a small amount of fluid called
serous fluid, which lubricates the
surface of the membranes
 SYNOVIAL
MEMBRANE

line the cavities of freely
movable joints
made up of only connective
tissue and consist of modified
connective tissue cells
makes the joint very slippery,
INFLAMMATION

occurs when
tissues are
damaged.
5 major
symptoms:
redness, heat,
swelling, pain,
and disturbance
of function.
INFLAMMATION

▪Following an injury, substances called chemical mediators
are released or activated in the injured tissues and
adjacent blood vessels. The mediators include histamine
(his′tă-mēn) and prostaglandins (pros-tă-glan′dinz).
INFLAMMATION

▪ Edema (e-dē′mă), or swelling, of the tissues results
when water, proteins, and other substances from the
blood move into the tissues. One of the proteins, fibrin,
forms a fibrous network that “walls off” the site of injury
from the rest of the body.
INFLAMMATION

▪ Neutrophil (noo′trō-fil), a phagocytic white blood cell that fights infections
by ingesting bacteria.
▪ Neutrophils die after ingesting a small number of bacteria;
▪ the mixture of dead neutrophils, other cells, and fluid that can accumulate is
called pus.
 END SLIDE
Assignment 1: Part 2
What happens to the tissue when
we age?
Synthesize the tissue repair
process.

PLEASE READ SEELEY’S for your
long quiz