Lab. Act 3 Epithelial, Connective, Muscle, Nerve Tissues PDF

Summary

This document presents information about different types of tissues in the human body. It explains the structure, functions, and locations of epithelial, connective, muscle, and nervous tissues. This learning material is suitable for secondary school students studying biology and anatomy.

Full Transcript

 Is a group of cells with similar
structure & function
Histology is the microscopic
study of tissue structure
Surrounded by or embedded
in a complex extracellular
material called the matrix
Knowledge of tissue structure
& function is important in under-
standing the next higher level of
body organizations
Four basic types: epithelial,
connective, muscle & nervous
tissues
 epi = upon, over, on top
Is the lining, covering & glandular
tissue of the body
Functions: protection, secretion,
absorption, acts as barrier,
permits the passage of substances
Classified according to : shape &
number of layers
Shape: squamous, cuboidal,
columnar
Number of layers: simple &
stratified
Pseudostratified & transitional
SIMPLE SQUAMOUS EPITHELIUM
Single layer of thin, flat cells resting
on a basement membrane
Function: diffusion, filtration,
secretion & protection
Location: lining of blood vessels,
alveoli of the lungs, portions of the
kidney tubules, lining of serous
membranes of body cavities
(pleural, pericardial, peritoneal)
SIMPLE CUBOIDAL EPITHELIUM
Single layer of cube-shaped like
cells resting on a basement membrane
(some have microvilli or cilia)
Function: secretion, absorption &
movement
Location: kidney tubules, glands and
ducts; lining of terminal bronchioles
of the lungs; & surface of the ovary
SIMPLE COLUMNAR EPITHELIUM
Single layer of tall, thin cells that fit
closely together (some have microvilli
or cilia)
Function: secretion, absorption &
movement of particles
Location: glands and some ducts,
bronchioles of lungs, uterus, uterine
tubes, stomach, intestines, gallbladder,
bile ducts & ventricles of the brain
PSEUDOSTRATIFIED COLUMNAR EPITHELIUM
pseudo = false
Appears stratified or layered but not
A layered effect occurs because the cell
nuclei are at two or more levels in the
row or aligned cells touching the
basement membrane
Cells are almost always ciliated and are
associated with Goblet cells that secrete
mucus onto the free surface
Function: synthesize & secrete mucus
Location: lines the passages of
respiratory system
STRATIFIED SQUAMOUS EPITHELIUM
A thick epithelium consists of several
layers of cell
The deepest cells are cuboidal or
columnar & are dividing & producing
new cells that are pushed to the
surface that becomes flat & thin
Keratinized squamous epithelium
Location: keratinized - outer layer of
the skin; non-keratinized – mouth,
throat, larynx, esophagus, anus, vagina,
inferior urethra, & corneas
Function: protects against abrasion,
forms a barrier against infection &
reduce loss of water from the body
STRATIFIED CUBOIDAL EPITHELIUM
Consists of two or three layers of
cuboidal cells that form the lining
of the lumen
Function: absorption, secretion &
protection
Location: sweat glands, ovarian follicular
cells, the salivary glands, pancreas &
larger ducts of mammary glands
STRATIFIED COLUMNAR EPITHELIUM
one or more layer of epithelial cells;
but the surface cells are columnar and
the deeper layers are irregular or
cuboidal in shape
Function: absorption, secretion &
excretion
Location: mammary gland ducts,
larynx, and portion of the male urethra
TRANSITIONAL EPITHELIUM
Special type of stratified epithelium
that can be greatly stretched
Specialized to change in response to
tension
Function: accommodate fluctuation of
volume of the liquid in an organ
Location: urinary bladder, ureter,
urethra
 Is the most abundant & widely
distributed tissue
Is found throughout the body
Usually characterized by large
amounts of extracellular material
Tissue that bind structures, provides
support & protection, serve as
frameworks, fill spaces, store fat,
produce blood cells, protect against
infections & help repair tissue
damage; they can divide
Three types: connective tissue
proper (loose & dense), supporting
connective tissue (cartilage & bones)
& fluid connective tissue (blood)
 Cells are either fixed cells (resides
in the tissue for an extended period
of time) like fibroblasts & mast cells;
and wandering cells (move through
& appear in tissues temporarily,
usually in response to an injury or
infection) like macrophages
 Major cell types: fibroblasts (large
star-shaped cells produce fibers by
secreting proteins) are the most
common type of fixed cells;
macrophages or histiocytes
(originate as white blood cells
specialized on phagocytosis) and
mast cells (located near blood
vessels; releases heparin that
prevents blood clotting & histamine
associated with inflammation and
allergies)
LOOSE CONNECTIVE TISSUE
Consists of relatively few protein
fibers that form a lacy network, with
numerous spaces filled with ground
substances & fluid
This is where the basement
membrane of the epithelial tissues
often rest
Three subdivisions: areolar, adipose,
reticular
LOOSE CONNECTIVE TISSUE
Areolar Tissue
Areolar – means “spacious”
Forms delicate, thin membranes
Has extracellular matrix consisting
mostly of collagen fibers & a few
elastic fibers
The most common cells is fibroblasts
(responsible for producing the matrix)
Function: support & nourishment
Location: glands, muscles & nerves in
the skin
LOOSE CONNECTIVE TISSUE
Adipose Tissue
Large cells that are closely packed
& a small amount of extracellular matrix
Consists of adipocytes or fat cells
Contains large amounts of lipid for
energy storage mostly of collagen and
reticular fibers & a few elastic fibers
Acts a s a thermal insulator
Function: thermal insulator, energy
storage & protection
Location: mesenteries, renal pelves,
around kidneys, colon surface, mammary
glands
LOOSE CONNECTIVE TISSUE
Reticular Tissue
It has a branched and mesh-like pattern,
often called reticulum, due to the
arrangement of reticular fibers (reticulin)
Function & location: forms the
framework of lymphatic tissue, such as
in the spleen, lymph nodes, and as well
as in bone marrow & liver
DENSE CONNECTIVE TISSUE
Consists of many closely packed, thick, collagenous fibers & a
fine network of elastic fibers; it has relatively few cells mostly
fibroblasts
Two major categories: collagenous & elastic
DENSE CONNECTIVE TISSUE
Dense Regular Collagenous
Connective Tissue
The collagen fibers are oriented in
the same direction like in tendons
and ligaments

Dense Irregular Collagenous
Connective Tissue
The fibers are oriented in many
different directions as in the
dermis and organ capsules
DENSE CONNECTIVE TISSUE
Dense Regular Elastic Connective
Tissue
Matrix of collagen fibers & elastic
fibers are oriented in the same
direction like in the vocal cords
SUPPORTING CONNECTIVE TISSUE
Cartilage
Composed of chondrocytes
(cartilage cells) located in spaces
called lacunae (small spaces)
Resilient & relatively rigid
Provides support
Three types: hyaline cartilage,
fibrocartilage & elastic cartilage
SUPPORTING CONNECTIVE TISSUE
Cartilage
Hyaline Cartilage
Clear or glassy; the most abundant
type of cartilage
Covers the ends of bones where
they come together to form joints

Fibrocartilage
Has more collagen than hyaline
cartilage
Found in the disks between
vertebrae and some joints (knee
and jaw)
SUPPORTING CONNECTIVE TISSUE
Cartilage
Elastic Cartilage
Contains elastic fibers in addition
to collagen & proteoglycans
Able to return to its original shape
after being stretched
Provides rigidity with even more
flexibility; found in the external
ears, epiglottis & auditory tubes
SUPPORTING CONNECTIVE TISSUE
Bone
Hard connective tissue that consists
of living cells & mineralized matrix
Osteocytes, bone cells within the lacunae
Supports & protects tissues & other organs
Two types: compact bone &
spongy bone Spongy or
Cancellous bone
SUPPORTING CONNECTIVE TISSUE
Blood
A specialized form of
connective tissue made up of
blood cells & is surrounded by
a non-living fluid called plasma
Conveyed by the arteries &
veins & pumped by the heart;
it is usually generated in the
bone marrow
It functions to deliver nutrients
& oxygen to the cells &
transports waste away from the
same cells
 Is a specialized tissue which
functions for contraction
Controls the movements of an
organism as well as many other
contractile functions
Composed of long, cylindrical cells
called muscle fibers or muscle
cells or myocytes
Muscle cells are living cells
Three types: skeletal muscle
tissue, cardiac muscle tissue and
smooth muscle tissue
SKELETAL MUSCLE TISSUE
Striated (alternating series of
bands or stripe), voluntary muscle
Muscle fibers are long cylindrical &
multinucleated
Are usually attached to the skeletal
system via tendons to maintain
posture & control movement
CARDIAC MUSCLE TISSUE
Striated, involuntary muscle
Muscle fibers are short branching
fibers; have a single centrally
located nucleus
ONLY found in the heart where
cardiac contractions pump blood
throughout the body & maintain
blood pressure
are fused end-to-end by
intercalated disks
SMOOTH MUSCLE TISSUE
Non-striated, involuntary muscle
Muscle fibers are spindle-shaped
(fusiform); have a single centrally
located nucleus; and are generally
parallel with one another
Involved in many “housekeeping”
functions of the body. For example
aiding the movement of food
through the digestive system via
peristalsis
Found in the walls of the hollow
organs like intestines, stomach &
uterus
 Is the main tissue component of
the nervous system
controls the body's movements,
sends and carries signals to and
from the different parts of the
body, and has a role in controlling
bodily functions such as digestion
Types of cell: neuron (impulse-
conducting cell) which transmits
impulses & the structural unit of
the nervous system; and,
neuroglia (or glia or glial cells &
smaller than neurons) support
cells & provide protection to the
neurons