Tissue_.pdf

Full Transcript

MC_101_: ANATOMY AND PHYSIOLOGY LECTURE
LECTURE #5: TISSUE
PROFESSOR: Prof. Daisy Sucaldito
1ST SEMESTER | A.Y 2022-2023

○ Basal Surface - base of the cell; attached
OBJECTIVES to the basement surface.
I. Identify and describe the major types of tissues Basement membrane - attach the
in the human body as well as their various epithelial cells to the underlying
functions. tissues. It supports and guides
II. List the structural and functional characteristics the cell mitigation during tissue
of the different membranes of the body. repair.
III. Describe the process of inflammation and
explain why inflammation protects the body. Cell and matrix connections
IV. Describe the major events involved in tissue Nonvascular no blood vessels

repair. Capable of regeneration
V. Describe the age-related changes that occur in
tissues.

TISSUE
Group of cells with similar structure and
function, plus the extracellular substance
surrounding them.

HISTOLOGY
Study of Tissues

TYPES OF TISSUES
There are Four (4) tissue types in the human body;
FUNCTIONS
EPITHELIAL covering/lining Protects underlying structures
COVERING OR LINING tissue Acts as a barrier.
Permits passage of substances.
Secretes substances.
CONNECTIVE for organs·
Absorption of substances.
Diverse primary tissue type that makes up part of
every organ in the body
CLASSIFICATION OF EPITHELIA
MUSCLE contraction and shortching
·
Classified primarily according to the number of
cell layers and the shape of the superficial cells.
A tissue that contracts or shortens, making
movement possible
○ Cell Layers
Simple ·
layer
one
NERVOUS -
coordination and control
Stratified than
-
more layer
one

Responsible for coordinating and controlling
Pseudostratified -specialized simple
many body activities
○ Cell Shapes- varies from degree of stretch
EPITHELIAL TISSUE
Squamous
Covers and protects surfaces, both inside and
Cuboidal
outside the body.
Columnar; or
Special Transitional Shape
Also known as Epithelium, or epithelial tissue
SIMPLE SQUAMOUS EPITHELIUM
Included under the classification of epithelial
A single layer of thin flat cells.
tissue are the exocrine and endocrine glands.
Some substances easily pass through this thin
layer of cells, but other substances do not.
CHARACTERISTICS
Example 1: The lungs’ simple
Mostly composed of body cells
squamous epithelium,allows for
Covers body surfaces
gas exchange.
Distinct cell surfaces
Example 2 : The kidneys, simple
○ Free (Apical) Surface - cells are exposed
squamous epithelium, helps filter
and not attached to other cells.
wastes from the blood while
○ Lateral surface - cells are attached to
keeping blood cells inside the
other epithelial cells.
blood vessels.

MENESES, M., PAREDES, J., PAREDES, S., PINO, R., PLURAD, N, QUIÑONES, M., RAMOS, A., REPE, A. | 1NU02 1
 PSEUDOSTRATIFIED COLUMNAR EPITHELIUM
Secretes mucus, which covers its free surface.
○ Cilia in the airways move the mucus and
accumulated debris toward the throat,
where it is swallowed.

SIMPLE CUBOIDAL EPITHELIUM
Single layer of cube-like cells that carry out active
transport, facilitated diffusion, or secretion.
○ They have a greater secretory capacity
than simple squamous epithelial cells.

STRATIFIED SQUAMOUS EPITHELIUM
Forms a thick epithelium because it consists of
several layers of cells.

Two types: keratinized stratified squamous and
nonkeratinized stratified squamous epithelia.

○ Keratinized stratified squamous -
reduces the loss of water from the body

○ Nonkeratinized stratified squamous -
provides protection against abrasion; acts
as a mechanical barrier

SIMPLE COLUMNAR EPITHELIUM
A single layer of tall, thin cells.
The large size of these cells enables them to
perform complex functions, such as secretion.
○ The simple columnar epithelium of the
small intestine produces and secretes
mucus and digestive enzymes.

STRATIFIED CUBOIDAL EPITHELIUM
Secretes mucus, which covers its free surface.
○ Consist more than one layer of cuboidal
○ Functions in absorption, secretion, and
protection
STRATIFIED COLUMNAR EPITHELIUM
More than one layer; surface cells are columnar,
but deeper cells are irregular
○ Carries out secretion, protection, and
absorption

MENESES, M., PAREDES, J., PAREDES, S., PINO, R., PLURAD, N, QUIÑONES, M., RAMOS, A., REPE, A. | 1NU02 2
 Transitional Epithelium
○ Special type of stratified epithelium that
can be greatly stretched
○ Lines cavities that expand greatly
○ It protects underlying structures, like the
urinary bladder

Glands-made up of epithelial calls and connective tissues

GLANDS
FREE CELL SURFACES Glands are secretory organs that secrete
Most epithelia have a free surface that is not substances onto a surface, into a cavity, or into the
contact with other cells bloodstream.
Can be smooth or lined with microvilli or cilia composed primarily of epithelium, with a supporting
Cilia - move materials over the network of connective tissue.
top of the cell Both the gland and its ducts are lined with
Microvilli - increase surface area epithelium.

ENDOCRINE GLANDS ductless ·

CELL CONNECTION are ductless glands; they secrete their products
Cells have several structures that hold one cell to (termed hormones) into the bloodstream.
one another or to the basement membrane.
EXOCRINE GLANDS -may duct
These structures do three things: mechanically Glands with ducts
bind the cells together, help form a permeability
barrier, and provide a mechanism for intercellular Most exocrine glands are multicellular, composed
communication. of many cells.

DESMOSOMES cell to cell
- Some exocrine glands are composed of a single
mechanical links that bind cells together. cell, like goblet cells, that secrete mucus.

HEMIDESMOSOMES cell to basement membranc
-
Multicellular exocrine glands can be classified
half desmosomes that anchor cells to the basement according to the structure of their ducts and
membrane. secretory regions.
○ can also be classified according to how
TIGHT JUNCTIONS products leave the cell
prevent the passage of materials between epithelial
cells because they completely surround each cell,
Compound exocrine glands have
similar to the way a belt surrounds the waist.
multiple,branched ducts. (e.g mammary glands)
○ found in the lining of the intestines. -
branched

Simple glands have a single, non-branched duct,
Materials that pass through the epithelial layer must
some have branched ducts. (e.g sweat glands)
pass through the cells, so those cells regulate what -
unbranched
materials can cross.
Tubular Glands - glands with secretory regions
shaped as tubules (small tubes)
GAP JUNCTIONS acts ·
of conversation for cells
as a means
○ can be straight or coiled
small channels that allow small molecules and ions
to pass from one epithelial cell to an adjacent one. Acinar or Alveolar- shaped in saclike structures
Most epithelial cells are connected to one another Glands with a combination of the two are called
by gap junctions, and researchers believe that tubuloacinar or tubuloalveolar. (e.g pancreatic
molecules or ions moving through the gap junctions gland)
act as communication signals to coordinate the
activities of the cells.

MENESES, M., PAREDES, J., PAREDES, S., PINO, R., PLURAD, N, QUIÑONES, M., RAMOS, A., REPE, A. | 1NU02 3
 EXOCRINE GLAND STRUCTURE 5.Cushioning and insulating
example:adipose tissue responsible as an insulator

6.Transporting
example:the blood suctioning a liquid connective tissue (the
blood transport nutrients,oxygen,carbohydrates,hormone)

7.Protecting
example:the bones can protect the body,ribs protecting lungs

CONNECTIVE TISSUE CELLS
The specialized cells that various connective
tissues produce the extracellular matrix.

The name of the cells identifies the cell functions,
↓ lasts -
formation

Osteoblasts from bone,osteocytes maintain it,and
EXOCRINE GLAND AND SECRETION TYPES Cytes-maintenanceosteoclasts break it down.
clasts-breakdown

Fibroblasts are cells that form fibrous connective
tissue and fibrocytes maintain it.

Chondroblasts form cartilage and chondrocytes
maintain it.

CONNECTIVE TISSUE CELLS
Found in connective tissue are cells associated with
the immune system,such as white cells,

Macrophages are large cells that are capable of
moving about and ingesting foreign
substances,including microorganism in the
connective tissue.
Merocrine secretion involves the release of
secretory products by exocytosis. (e.g sweat, Mast cells are nonmotile cells that release
and salivary glands) ↳ palabas chemicals,such as histamine,that promote
inflammation,
Apocrine secretion involves the release of
secretory products as pinched-off fragments of EXTRACELLULAR MATRIX
the gland cells. (e.g mammary gland) The extracellular matrix connective tissue has
three major components:protein,fibers,around
Holocrine secretion involves the shedding of substances and fluid.
entire cells. (e.g sebaceous gland)

MATRIX PROTEIN FIBERS
CONNECTIVE TISSUE Three types of protein fibers
collagen,reticular,and elastic-help form most
Connective tissue Is a diverse primary tissue type connective tissues.
that makes up part of every organ in the body.
Connective tissue Differs From the other three Collagen fibers ,which resemble microscopic
tissue types in that consists of cells separated robes,are very flexible but resist stretching
from each other by abundant extracellular
matrix Reticular fibers are very fine,short collagen fibers
Connective tissue diverse in both structure and that branch to form a supporting network.
function.
Elastic fibers have the ability to return to their
FUNCTION OF CONNECTIVE TISSUE original shape after being stretched or
1.Enclose and separate other tissues. compressed,giving tissue an elastic quality
example: ligaments enclose with the connective tissue.

2.Connecting tissues to one another. MATRIX GROUND SUBSTANCES
example:ligaments connecting one bone to another bone. The ground substance consists of non fibrous
protein,other molecules,and is shapeless
3.Supporting and moving parts of the body.
example:bone in the body supports the entire weight of the The structure of the matrix is responsible for the
body and organs functional characteristics of connective tissues
example:they enable bones and cartilage to bear
4.Storing compounds weight.\]
example:bones stores calcium,minerals,phosphate
TYPES OF CONNECTIVE TISSUES

MENESES, M., PAREDES, J., PAREDES, S., PINO, R., PLURAD, N, QUIÑONES, M., RAMOS, A., REPE, A. | 1NU02 4
 Loose connective tissue consists of a lacy DENSE COLLAGENOUS CONNECTIVE TISSUE
network,with numerous spaces filled with has an extracellular matrix consisting mostly of
ground substance and fluid. collagen fibers.
○ Dense collagenous connective tissue
Three subdivisions of loose connective tissue are having the collagen fibers oriented in
areolar,adipose,and reticular. the same direction is termed dense
regular,
Areolar connective tissue primarily consists of Examples of dense regularity are
collagen fibers and a few elastic fibers. tendons and ligaments.
○ The most common cells in loose
connective tissue are the fibroblasts. Dense collagenous connective tissue having the
collagen fibers oriented in the multiple direction
Adipose tissue consists of adipocytes,or fat cells, is termed dense irregular.
which contain large amounts of lipid for energy ○ Examples of dense irregular are in the
storage, dermis of the skin and in organ
○ Adipose tissues pads and protects parts of capsules.
the body and act as thermal insulators.

Reticular tissue forms the framework of lymphatic
tissue,such as in the spleen and lymph nodes,as
well as in bone marrow and the liver.

AREOLAR CONNECTIVE TISSUE

DENSE ELASTIC CONNECTIVE TISSUE
has abundant elastic fibers among its collagen
fibers.

The elastic fibers allow the tissue to stretch and
recoil
○ Examples include the dense elastic
connective in the vocal cords.

A genetic condition called Marfan syndrome
results from,in part the inability to properly
maintain and from elastic fibers

TYPES OF CONNECTIVE TISSUE

DENSE CONNECTIVE TISSUE
has a relatively large number of protein fibers
that form thick bundles and fill nearly all the CARTILAGE
extracellular space. Composed of chondrocytes, located in spaces
called LACUNAE within an extensive matrix.
There are two major subcategories of dense
connective tissue: collagenous and elastic. Collagen in the matrix gives
cartilage flexibility and strength.

MENESES, M., PAREDES, J., PAREDES, S., PINO, R., PLURAD, N, QUIÑONES, M., RAMOS, A., REPE, A. | 1NU02 5
 Provides support, but if bent or slightly
compressed, it resumes its original shape.
BONE
A hard connective tissue that consists of living
THREE TYPES OF CARTILAGE cells and mineralized matrix. OSTEOCYTES are
located within lacunae.
1. HYALINE CARTILAGE - is the most abundant
type of cartilage and has many functions, such as The strength and rigidity of the mineralized matrix
covering the ends of bones, where they form enables bones to support and protect other tissues
joints. and organs.

TWO TYPES OF BONE

SPONGY - has spaces between trabeculae or
plates of bone therefore resembles a sponge.

COMPACT - more solid, with almost no space
between many thin layers of mineralized matrix.

2. FIBROCARTILAGE - has more collagen than
does hyaline cartilage and is able to withstand
compression and resist tearing or pulling.

- found in the disks between the vertebrae
(bones of the back) and in some joints, such as the
knee and TEMPOROMANDIBULAR (JAW)
JOINTS.
BLOOD
3. ELASTIC CARTILAGE - contains elastic fibers in Is a liquid connective tissue.
addition to collagen and proteoglycans
(important to retain water that can be present in our Contains a liquid matrix, termed the plasma,
cartilage). along with formed elements.

- Elastic fibers appear as coiled fibers among Forming elements such as ERYTHROCYTES (red
bundles of collagen fibers. blood cells), LEUKOCYTES (white blood cells)
and PLATELETS (capable of blood clotting).
- Elastic cartilage is able to recoil to its original
shape when bent. Functions in transport of food, oxygen, waste,
hormones, and other substances.
- EXTERNAL EAR, EPIGLOTTIS, and AUDITORY
TUBE contain elastic cartilage.

MENESES, M., PAREDES, J., PAREDES, S., PINO, R., PLURAD, N, QUIÑONES, M., RAMOS, A., REPE, A. | 1NU02 6
 MUSCLE SMOOTH MUSCLE
Forms the walls of hollow organs:found in the
FUNCTION skin and eyes.
Contract to, or shorten, making movement
possible. Function such as, moving food through the
digestive tract and emptying the urinary
Muscle contraction results from contractile proteins bladder.
located within the muscle cell. Tapered at each end and have a
Three types of muscle tissue single nucleus, and not striated.
Skeletal, cardiac and smooth.

SKELETAL MUSCLES
mechanical links that bind cells together.

Attaches to the skeleton and enables the body
to move.

Striated, or banded because of the arrangement of
contractile proteins within the cells.

NERVOUS SYSTEM

Forms the brain spinal cord and nerves.

Responsible for coordinating and controlling.
Neurons and support cells termed glial cells.
○ Neuron is responsible for conducting
action potentials.
○ Composed of three parts: Cell body,
dendrites, axon.
CARDIAC MUSCLE.Muscles of the heart and responsible for
pumping blood.

Cylindrical but much shorter than skeletal muscle
cells.

Striated and usually have one nucleus per cell.

Branched and connected to one another by
intercalated discs.

MENESES, M., PAREDES, J., PAREDES, S., PINO, R., PLURAD, N, QUIÑONES, M., RAMOS, A., REPE, A. | 1NU02 7