A&P Chapter 4 Lecture Notes PDF

Summary

These are lecture notes from an Anatomy & Physiology course, covering topics like tissue types, microscopy techniques, and epithelial tissues. The document includes learning outcomes and diagrams.

Full Transcript

4
Tissue Level of
Organization

Lecture Presentation by
Lori Garrett

© 2018 Pearson Education, Inc.
 Section 1: Epithelial Tissue

Learning Outcomes
4.1 Identify the four types of tissues in the body,
and describe their roles.
4.2 Describe three microscopy techniques.
4.3 Describe epithelial tissues, including cell shape,
layers, and functions.
4.4 Discuss the types and functions of intercellular
connections between epithelial cells.
4.5 Describe the structure and function of squamous
epithelium.

© 2018 Pearson Education, Inc.
 Section 1: Epithelial Tissue

Learning Outcomes (continued)
4.6 Describe the structure, function, and locations of
cuboidal and transitional epithelia.
4.7 Describe the structure, function, and locations of
columnar epithelia.
4.8 Compare the three different methods of exocrine
secretion by glandular epithelia.
4.9 Explain how multicellular exocrine glands are
classified by their structure.

© 2018 Pearson Education, Inc.
 Module 4.1: Four types of tissue make up the
body

Body organization review
 Atoms → Molecules → Cells → Tissues
Chemical level can only be seen using special
imaging techniques
Cellular level details seen best with electron
microscope

© 2018 Pearson Education, Inc.
 Module 4.1: Types of tissue

Body organization review (continued)
 Trillions of cells in the body
 Only about 200 different types of cells
 Cells working together form tissues
 Study of tissues called histology
 Four basic types of tissues
1. Epithelial
2. Connective
3. Muscle
4. Neural

© 2018 Pearson Education, Inc.
 Levels of organization up to the tissue level

© 2018 Pearson Education, Inc.
 Module 4.1: Review

A. Give the term for “the study of tissues.”
B. What is a tissue?
C. List the four basic tissue types, and describe
the functions of each.

Learning Outcomes: Identify the four types of
tissue in the body, and describe their roles.

© 2018 Pearson Education, Inc.
 Module 4.2: Microscopes are used to study
cells and tissues

Anatomy studied at different scales
 Microscopy (the use of microscopes)
Began about 400 years ago
– Early magnification levels 10–20 times actual size
Simple microscope—uses only one lens
Compound microscope—uses >1 lens
Electron microscope
– Can magnify over 1 million times
Amount of fine detail (resolution) of an image varies
with magnification and type of microscope used

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 Magnification and resolution of different types
of microscopes

© 2018 Pearson Education, Inc.
 Module 4.2: Microscopy techniques

Types of microscopes
1. Compound light microscope
Detects visible light through thin section of tissue
Two lenses magnify specimen
1. Objective lens located on
revolving nosepiece
2. Ocular lens located in the
eye piece

© 2018 Pearson Education, Inc.
 Module 4.2: Microscopy techniques

Types of microscopes (continued)
1. Compound light microscope (continued)
Total magnification calculated by multiplying the two
lens powers (objective × ocular)
Resolution
– Ability to distinguish
between two separate points
– Wavelength of light limits
resolution on light
microscope to about
200 nm (0.2 μm)

© 2018 Pearson Education, Inc.
 Module 4.2: Microscopy techniques

Types of microscopes (continued)
2. Transmission electron
microscope
“Transmits” electrons through
specimen
Uses magnets to direct beam of
electrons through the surface of
a very thin object onto a
photographic plate
Wavelength of electron beam
0.00001 of white light
Maximum resolution 0.2 nm (0.0002 μm)

© 2018 Pearson Education, Inc.
 Module 4.2: Microscopy techniques

Types of microscopes (continued)
3. Scanning electron microscope
Uses electrons, but not by
sending them through a
specimen
Specimen coated with
electron dense material
Electron beams are focused
on the specimen
Reflection of electrons bouncing off object produce
three dimensional image of the surface
Can view surface features only
Maximum resolution of about 10 nm (0.01 μm)
© 2018 Pearson Education, Inc.
 Module 4.2: Microscopy techniques

Magnification notation examples
 Type of microscope used (abbreviation) and
magnification
1. LM × 400
– Light micrograph magnified 400 times
2. TEM × 3000
– Transmission electron micrograph magnified 3000
times
3. SEM × 15,846
– Scanning electron micrograph magnified 15,846 times

© 2018 Pearson Education, Inc.
 Module 4.2: Microscopy techniques

A&P lab microscopy tips
 Light microscopes most often
used
 Begin with lowest magnification
objective lens over specimen
 When in focus on that power,
carefully rotate objective lenses with greater
magnification into place
 Compare images from textbook to microscope
image at same magnification

© 2018 Pearson Education, Inc.
 Module 4.2: Review

A. How do early microscopes compare with
modern microscopes?
B. Differentiate among LM, TEM, and SEM.
C. The LM at the top of this page is magnified 400
times (400×). If the ocular lens used to make
this image has a magnification of 10×, what is
the magnification of the objective lens?

Learning Outcome: Describe three microscopy
techniques.

© 2018 Pearson Education, Inc.
 Module 4.3: Epithelial tissue covers surfaces,
lines cavities, and forms secretory glands

Divisions of epithelial tissue
1. Epithelia
Avascular layers
Cover exposed surfaces
Line internal cavities and passageways
Often contain secretory or gland cells scattered
among other cell types

© 2018 Pearson Education, Inc.
 Module 4.3: Epithelial tissues

Divisions of epithelial tissue (continued)
2. Glands
Derived from epithelia
Predominantly secretory cells
Two types
1. Exocrine glands
o Secrete onto external surfaces or into ducts
2. Endocrine glands
o Secrete hormones into interstitial fluid
o Hormones then distributed by bloodstream

© 2018 Pearson Education, Inc.
 Epithelial tissues

© 2018 Pearson Education, Inc.
 Module 4.3: Epithelial tissues

Functions of epithelial tissue
 Provide physical protection
Protect surfaces from abrasion, dehydration, or
destruction by chemical or biological agents
 Control permeability
Most epithelia are capable of selective absorption or
secretion
Epithelial barrier can be modified in response to
stimuli (Example: calluses)

© 2018 Pearson Education, Inc.
 Module 4.3: Epithelial tissues

Functions of epithelial tissue (continued)
 Provide sensation
Specialized epithelial cells detect changes in
environment (for example, touch receptors)
Neuroepithelium
– Sensory epithelium found in special sense organs
 Produce specialized secretions
Glandular epithelial cells produce secretions

© 2018 Pearson Education, Inc.
 Module 4.3: Epithelial tissues

Features of epithelial tissue (continued)
 Surfaces
Apical surface
– Faces exterior of body
or internal space
Base
– Attached to underlying
tissues
– Basolateral surface
o Includes base and sides (lateral surfaces) attached
to neighboring cells
 Polarity
Refers to structural differences between exposed and
attached surfaces
© 2018 Pearson Education, Inc.
 Module 4.3: Epithelial tissues

Features of epithelial tissue (continued)
 Apical surface features
If lining a tube, apical surface is exposed to space
inside the tube, called lumen
Microvilli found on this surface in digestive, urinary,
and reproductive tracts
Cilia found on this surface in parts of the respiratory
and reproductive tracts
 Epithelial cells also contain membranous organelles
comparable to other cell types

© 2018 Pearson Education, Inc.
 Module 4.3: Epithelial tissues

Epithelial cells have 3 basic shapes (viewed
perpendicular to exposed surface)
1. Squamous
Thin and flat
2. Cuboidal
Cube-shaped
Like little boxes
3. Columnar
Taller than they are wide
Slender rectangles

© 2018 Pearson Education, Inc.
 Module 4.3: Epithelial tissues

Epithelial cell layers
 Single layer
Simple epithelium
 Several layers of cells
Stratified epithelium
Found in areas that need protection from abrasion or
chemical stress
– Examples: surface of skin, lining of the mouth

© 2018 Pearson Education, Inc.
 Module 4.3: Review

A. List four essential functions of epithelial tissue.
B. Summarize the classification of an epithelium
based on cell shape and number of cell layers.
C. What function is served by motile cilia on
epithelial cell surfaces?

Learning Outcome: Describe epithelial tissues,
including cell shape, layers, and functions.

© 2018 Pearson Education, Inc.
 Module 4.4: Epithelial cells are extensively
interconnected, both structurally and
functionally
Epithelial attachments
 Extensive attachments
between adjacent cells
and adjacent tissues
To function as a barrier,
must have intact,
complete lining
Must be able to replace
damaged or lost cells
Epithelia lack blood vessels (avascular)
– Requires attachment to underlying connective tissue for
nourishment from blood vessels there
© 2018 Pearson Education, Inc.
 Module 4.4: Intercellular connections

Types of intercellular
connections
1. Hemidesmosomes
Attach deepest epithelial
cells to basement
membrane
1. Basal lamina
o Contains
glycoproteins and fine
protein filaments
o Produced by basal
surface of epithelium

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 Module 4.4: Intercellular connections

Types of intercellular connections (continued)
1. Hemidesmosomes (continued)
2. Reticular lamina
o Contains bundles of coarse protein fibers
o Gives strength and restricts diffusion

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 Module 4.4: Intercellular connections

Types of intercellular connections (continued)
2. Tight (occluding) junctions
Interlocking membrane proteins bind adjacent plasma
membranes together
Prevent passage of water and solutes between cells
Isolate basolateral surfaces and deeper tissues from
contents in lumen
Found in intestinal tract

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 Module 4.4: Intercellular connections

Types of intercellular connections (continued)
3. Adhesion belts
Continuous band of
membrane proteins
Strengthens apical region
of cells
– Reinforces tight junctions
Dense proteins attached to microfilaments of the
terminal web (part of cytoskeleton)
Belts encircle cells and bind to adjacent cells

© 2018 Pearson Education, Inc.
 Module 4.4: Intercellular connections

Types of intercellular connections (continued)
4. Gap junctions
Held together by interlocking transmembrane proteins
(connexons)
Assist chemical communication to help coordinate
functions such as secretion or beating cilia
Also found in cardiac
muscle and smooth
muscle tissue to
coordinate contraction

© 2018 Pearson Education, Inc.
 Module 4.4: Intercellular connections

Types of intercellular connections (continued)
5. Desmosomes
Provide firm attachments
by interlocking adjacent
cells’ cytoskeletons
Opposing plasma
membranes locked
together by cell
adhesion molecules (CAMs)
– Thin layer of proteoglycans may also bond
o Contain polysaccharide, notably hyaluronic acid
Very strong; resist stretching and twisting
Found in superficial layers of skin
© 2018 Pearson Education, Inc.
 Module 4.4: Review

A. Identify the various types of epithelial intercellular
connections.
B. What is the functional significance of gap
junctions?
C. How do epithelial tissues obtain needed
nutrients?
D. What two types of tissues contribute to the
formation and maintenance of the basement
membrane?

Learning Outcome: Discuss the types and functions
of intercellular connections between epithelial cells.
© 2018 Pearson Education, Inc.
 Module 4.5: The cells in a squamous epithelium
are flat and irregularly shaped

Squamous epithelium
(squama, plate or scale)
 Thin, flat, irregularly shaped
cells (like jigsaw puzzle
pieces)
Viewed from above, cells look
like fried eggs
In sectional view, disc-shaped
nucleus found in thickest part
of cell
 May be single layer (simple)
or multiple layers (stratified)
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 Module 4.5: Squamous epithelium

Simple squamous epithelium
 Most delicate epithelium (one layer thick)
 Functions include absorption, diffusion, reduction of
friction
 Found in protected
regions such as
peritoneum, capillary
walls, inside eye,
lung alveoli

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 Module 4.5: Squamous epithelium

Simple squamous epithelium (continued)
 Certain locations have special names
Mesothelium lining ventral body cavities
Endothelium lining heart and blood vessels

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 Module 4.5: Squamous epithelium

Stratified squamous epithelium
 Located where severe mechanical or chemical
stresses exist
 Many layers of cells
 Superficial layer flattened
 Forms surface of skin and lines mouth, throat,
esophagus, rectum, anus, vagina

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 Module 4.5: Squamous epithelium

Stratified squamous epithelium (continued)
 Two types
1. Keratinized
– Superficial layers packed with keratin
– Tough and water resistant
– Resists both mechanical stress and dehydration
– Found on surface of skin and in hair and nails
2. Nonkeratinized
– Resists abrasion but can dry out
– Found lining oral cavity, pharynx, esophagus, anus,
vagina

© 2018 Pearson Education, Inc.
 Keratinized skin layers

© 2018 Pearson Education, Inc.
 Module 4.5: Review

A. What do a mesothelium and an endothelium have
in common?
B. Why do the pharynx, esophagus, anus, and vagina
have a similar epithelial organization?
C. What properties are common to keratinized
epithelia?
D. Under a light microscope, a tissue appears as a
simple squamous epithelium. Can this be a sample
of the skin surface? Why or why not?

Learning Outcome: Describe the structure and function
of squamous epithelium.

© 2018 Pearson Education, Inc.
 Module 4.6: Cuboidal and transitional epithelia
line several passageways and chambers
connected to the exterior
Cuboidal epithelium
 Cells resemble hexagonal boxes
In sectional view, cells appear square
 Spherical nucleus near center of each cell

© 2018 Pearson Education, Inc.
 Module 4.6: Cuboidal and transitional
epithelium

Two types of epithelium
1. Simple cuboidal epithelium
Functions in secretion and absorption
Lines exocrine glands and ducts
Lines parts of kidney tubules and thyroid gland

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 Module 4.6: Cuboidal and transitional
epithelium

Two types of epithelium (continued)
2. Stratified cuboidal epithelium
Rare tissue
Found in ducts of sweat glands and mammary glands

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 Module 4.6: Cuboidal and transitional
epithelium

Transitional epithelium
 Unusual stratified epithelium that can stretch and
recoil without damage
Transitional name because changes appearance
 Found only in urinary system (urinary bladder,
ureters, urine-collecting chambers of kidneys)
 Changes in appearance
Relaxed (e.g., empty bladder)—superficial cells
cuboidal
Stretched (e.g., full bladder)—superficial cells
flattened

© 2018 Pearson Education, Inc.
 Transitional epithelium

© 2018 Pearson Education, Inc.
 Module 4.6: Review

A. Describe the appearance of simple cuboidal
epithelial cells in sectional view.
B. Identify the epithelium that lines the urinary bladder,
and describe its unusual functional characteristic.
C. Describe the changes in appearance of the
transitional epithelium lining the urinary bladder as
stretching occurs.
D. What functions are associated with a simple
cuboidal epithelium and a transitional epithelium?

Learning Outcome: Describe the structure, function,
and locations of cuboidal and transitional epithelia.

© 2018 Pearson Education, Inc.
 Module 4.7: Columnar epithelia absorb
substances and protect the body from
digestive chemicals
Columnar epithelium
 In sectional view, cells appear rectangular
 Cells taller and more slender than cuboidal
 Elongated nuclei in band close to basement
membrane
 Types
1. Simple columnar epithelium
2. Pseudostratified columnar epithelium
3. Stratified columnar epithelium

© 2018 Pearson Education, Inc.
 Module 4.7: Columnar epithelium

Simple columnar epithelium
 Found where absorption or secretion
takes place
Line stomach, intestine, gallbladder,
uterine tubes, kidney ducts
 May have microvilli (for absorption)
or cilia (for movement) on apical
surface

© 2018 Pearson Education, Inc.
 Module 4.7: Columnar epithelium

Pseudostratified columnar epithelium
 Cells of varying shapes and functions
 Distance between nuclei varies, giving appearance
of layering or being stratified
Each cell contacts basement membrane
 Cells usually have cilia
 Lines nasal cavities, trachea, larger airways in
lungs, portions of male reproductive tract

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 Module 4.7: Columnar epithelium

Stratified columnar epithelium
 Rare tissue type
 Two or more layers of cells
Superficial layer of columnar cells
 Found lining large ducts such as those of salivary
glands or pancreas

© 2018 Pearson Education, Inc.
 Module 4.7: Review

A. Describe the appearance of simple columnar
epithelial cells in a sectional view.
B. Explain why a pseudostratified columnar
epithelium is not truly stratified.
C. Describe the structures found on the surfaces of
simple columnar and pseudostratified columnar
epithelia.

Learning Outcome: Describe the structure,
function, and locations of columnar epithelia.

© 2018 Pearson Education, Inc.
 Module 4.8: Glandular epithelia are specialized
for secretion

Glands
 Collections of epithelial cells (or derived structures)
that produce secretions
 Can be scattered cells or complex organs
 Categorized into two types
1. Endocrine glands
– Release secretions into interstitial fluid
2. Exocrine glands
– Release secretions into ducts onto epithelial surface

© 2018 Pearson Education, Inc.
 Module 4.8: Glandular epithelium

Three types of exocrine gland secretion
1. Merocrine (meros, part) secretion
Product released from secretory vesicles by
exocytosis
Most common mode of secretion
Example: salivary gland secretion
Mucin
– Merocrine secretion
that mixes with
water to form mucus

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 Module 4.8: Glandular epithelium

Three types of exocrine gland secretion
(continued)
2. Apocrine (apo, off) secretion
Apical cytoplasm packed with secretory vesicles
Cell releases cytoplasm as well as secretory product
Example: mammary gland secretion (involves
combination of merocrine and apocrine secretions)

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 Module 4.8: Glandular epithelium

Three types of exocrine gland secretion
(continued)
3. Holocrine (holos, entire) secretion
Destroys gland cell
Entire cell bursts, releasing secretions and killing cell
Destroyed cells replaced by stem cell division
Example: sebaceous glands

© 2018 Pearson Education, Inc.
 Module 4.8: Review

A. Describe the two primary types of glands.
B. By what three methods do various secretory
cells of exocrine glands release their
secretions?

Learning Outcome: Compare the three different
methods of exocrine secretion by glandular
epithelia.

© 2018 Pearson Education, Inc.
 Module 4.9: Exocrine glands can be classified
by structure

Multicellular exocrine gland classification
 Based on duct structure
Simple (single duct that does not divide)
Compound (duct divides one or more times)

© 2018 Pearson Education, Inc.
 Module 4.9: Glandular epithelium classification

Multicellular exocrine gland classification
(continued)
 Based on the shape of the secretory area
Tubular (glandular cells form tubes)
Alveolar or acinar (glandular cells form sacs)
Tubuloalveolar (glandular cells form both tubes
and sacs)

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 Types of compound glands

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 Module 4.9: Glandular epithelium classification

Unicellular exocrine gland classification
 Mucous (goblet) cells
Only unicellular exocrine glands
Independent, scattered secretory cells in epithelium
Secrete mucin

© 2018 Pearson Education, Inc.
 Module 4.9: Review

A. What three characteristics are used to describe
multicellular exocrine glands?
B. Describe the simplest type of multicellular
exocrine gland.

Learning Outcome: Explain how multicellular
exocrine glands are classified by their structure.

© 2018 Pearson Education, Inc.
 Section 2: Connective Tissue

Learning Outcomes
4.10 Describe the general structure of connective
tissue.
4.11 Describe the structure, function, and locations of
areolar tissue, adipose tissue, and reticular
tissue.
4.12 Describe the structure, function, and locations of
dense connective tissues and fluid connective
tissues.
4.13 Describe the structure, function, and locations of
cartilage.
© 2018 Pearson Education, Inc.
 Section 2: Connective Tissue

Learning Outcomes (continued)
4.14 Describe the structure and function of bone.
4.15 Describe the arrangements of epithelial and
connective tissues in the four types of tissue
membranes, and describe the structures and
locations of the three types of fasciae.

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 Module 4.10: A matrix surrounds connective
tissue cells

Connective tissue overview
 Varies widely in
appearance and
function
Found throughout
the body, but never
exposed to surface
 Ranges from highly
vascular to avascular
 Many contain sensory receptors that detect pain,
pressure, temperature, and other stimuli

© 2018 Pearson Education, Inc.
 Module 4.10: Connective tissue

Three basic components shared by connective
tissues
1. Specialized cells
2. Extracellular protein fibers
3. Fluid called ground substance
Matrix
– Extracellular fibers and ground substance
– Surrounds the cells
– Accounts for majority of connective tissue volume
– Fewer cells and more extracellular material compared
to epithelial tissue

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 Module 4.10: Connective tissue

Three subdivisions of connective tissue
1. Connective tissue proper
Contains many types of cells
Extracellular fibers in
syrupy ground substance
– Loose (fibers create loose,
open framework)
– Dense (fibers densely packed)

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 Module 4.10: Connective tissue

Three subdivisions of connective tissue
(continued)
2. Fluid connective tissue
Distinctive group of cells
Watery matrix
– Blood (within cardiovascular
system)
– Lymph (within lymphatic
system)

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 Module 4.10: Connective tissue

Three subdivisions of connective tissue
(continued)
3. Supporting connective
tissue
Less diverse cell population
More densely packed matrix
– Cartilage (solid, rubbery
matrix)
– Bone (solid, crystalline
matrix)

© 2018 Pearson Education, Inc.
 Module 4.10: Review

A. Identify the three basic components of
connective tissue.
B. Summarize the functions of connective tissue.
C. Distinguish among connective tissue proper,
fluid connective tissues, and supporting
connective tissues.

Learning Outcome: Describe the general structure
of connective tissue.

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 Module 4.11: Loose connective tissues support
other tissue types

Connective tissue proper components
 Extracellular protein fibers
Reticular fibers (strong and form branching network)
Collagen fibers (thick, very strong)
Elastic fibers (slender, very stretchy)
 Ground substance
Clear and colorless
Viscous (syrupy) due to presence of proteoglycans
and glycoproteins

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 Module 4.11: Loose connective tissue

Connective tissue proper components
(continued)
 Two classes of cells
1. Fixed (stationary; involved with maintenance, repair,
energy storage)
– Melanocytes (synthesize melanin pigment)
– Fixed macrophage (engulfs cell debris and
pathogens)
– Mast cells (stimulate inflammation and mobilize
defenses)

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 Module 4.11: Loose connective tissue

Connective tissue proper components
(continued)
 Two classes of cells
1. Fixed
– Fibroblasts (synthesize extracellular fibers)
– Adipocytes (store lipid reserves)
– Fibrocytes (differentiate from fibroblasts and maintain
extracellular fibers)

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 Module 4.11: Loose connective tissue

Connective tissue proper components
(continued)
 Two classes of cells
2. Wandering (move throughout tissue; function in
defense and repair)
– Plasma cells (immune cells producing antibodies)
– Free macrophages (engulf debris and pathogens)
– Mesenchymal cells (stem cells that aid
tissue repair)
– Neutrophils and eosinophils (phagocytic
blood cells)
– Lymphocytes (immune system cells)

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 Connective tissue components

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 Module 4.11: Loose connective tissue

Three types of loose connective tissue
1. Areolar tissue
Most common connective tissue proper
Packing material of the body
Has all connective tissue proper cell types

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 Module 4.11: Loose connective tissue

Three types of loose connective tissue
(continued)
2. Adipose tissue
Found deep to skin in various areas of body
Forms layer of padding around eyes and kidneys
Cells (adipocytes) account for most of tissue volume

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 Module 4.11: Loose connective tissue

Three types of loose connective tissue
(continued)
3. Reticular tissue
Found in liver, kidney, spleen, lymph nodes, and bone
marrow
Provides support and resists distortion
Many reticular fibers
forming network (stroma)

© 2018 Pearson Education, Inc.
 Module 4.11: Review

A. Identify the types of cells found in connective tissue
proper.
B. Describe the role of fibroblasts in connective tissue.
C. Which type of loose connective tissue contains
primarily lipids?
D. What term means the fibrous supporting network
formed of reticular fibers?
E. What types of phagocytic cells are present in
connective tissue proper?

Learning Outcome: Describe the structure, function,
and locations of areolar tissue, adipose tissue, and
reticular tissue.
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 Module 4.12: Dense connective tissues are
dominated by extracellular fibers …

Three types of dense connective tissues
 Most volume occupied by extracellular fibers
1. Dense regular connective tissue
– Found in cords (tendons, ligaments) or sheets
– Collagen arranged in parallel bundles

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 Module 4.12: Dense connective tissue

Three types of dense connective tissue
(continued)
2. Dense irregular connective tissue
Fibers arranged in meshwork (no consistent pattern)
to resist tension in many directions
Found covering visceral organs; in superficial layers
of bones, cartilages, and peripheral nerves; in dermis
of skin

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 Module 4.12: Dense connective tissue

Three types of dense connective tissue
(continued)
3. Elastic tissue
More elastic fibers than collagen
Is springy and resilient
Found between vertebrae, in walls of large blood
vessels, erectile tissues of penis

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 Module 4.12: … whereas fluid connective
tissues have an aqueous matrix

Fluid connective tissue
 Fluid matrix with many suspended proteins
 Usually contains no insoluble fibers
 Two types of liquid connective tissue
1. Blood
2. Lymph

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 Module 4.12: Fluid connective tissue

Fluid connective tissue (continued)
 Blood components
Watery matrix called plasma
Formed elements suspended in plasma
– Red blood cells (transport oxygen)
– White blood cells (bodily defense)
o Monocytes (large phagocytes)
o Lymphocytes (uncommon in blood)
o Eosinophils/neutrophils (small phagocytes)
o Basophils (promote inflammation)
– Platelets (involved in clotting response)

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 Blood as fluid connective tissue

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 Module 4.12: Fluid connective tissue

Fluid connective tissue (continued)
 Lymph
Watery matrix called lymph located in lymphatic
vessels
Collected from interstitial fluid
Majority of cells are lymphocytes
Returned to blood at large veins near heart
Functions to maintain solute levels, blood volume,
and alert immune system of infection

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 Module 4.12: Fluid connective tissue

Fluid connective tissue (continued)
 Extracellular fluid circulation
Contractions of the heart move blood through blood
vessels
– Arteries (away from heart)
– Capillaries (smallest vessels; sites of exchange)
– Veins (toward heart)
Water and solutes exchanged between plasma and
interstitial fluid
Lymphatic vessels collect excess interstitial fluid
Lymphatic vessels return lymph to large veins near
heart

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 Lymph as fluid connective tissue

© 2018 Pearson Education, Inc.
 Module 4.12: Review

A. What makes a connective tissue “loose” or
“dense”?
B. Summarize the role of extracellular fluid in
maintaining homeostasis.
C. Lack of vitamin C in the diet interferes with the
ability of fibroblasts to produce collagen. How
might this affect connective tissue function?

Learning Outcome: Describe the structure,
function, and locations of dense connective tissues
and fluid connective tissues.

© 2018 Pearson Education, Inc.
 Module 4.13: Cartilage provides a flexible
support for body structures

Cartilage overview
 Matrix is a firm gel containing chondroitin sulfates
(chondros, cartilage), polysaccharide derivatives
Form complexes with proteins forming proteoglycans
 Only one type of cell (chondrocyte)
Found in small chambers called lacunae (lacus, lake)
 Avascular

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 Module 4.13: Cartilage

Three types of cartilage
1. Hyaline cartilage
Found between ribs and sternum, covering bones in
mobile joints, part of nasal septum, supporting
respiratory passageways
Provides stiff but flexible support
Reduces friction

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 Module 4.13: Cartilage

Three types of cartilage (continued)
2. Elastic cartilage
Distorts without damage and returns to original shape
Found in external ear and smaller internal structures

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 Module 4.13: Cartilage

Three types of cartilage (continued)
3. Fibrocartilage
Found in knee joint, between pubic bones, and in
intervertebral discs
Durable and tough
Resists compression, prevents bone-to-bone contact,
and limits relative movement

© 2018 Pearson Education, Inc.
 Module 4.13: Cartilage

Cartilage properties
 Set apart from surrounding
tissues by perichondrium
(peri-, around)
Two layers of perichondrium
1. Outer layer of dense
irregular connective tissue
o Mechanical support,
protection, attachment
2. Inner cellular layer
o Where cartilage growth and maintenance occur
Blood vessels in perichondrium provide oxygen and
nutrients to chondrocytes

© 2018 Pearson Education, Inc.
 Module 4.13: Cartilage

Two types of cartilage growth
1. Appositional growth (at cartilage surface)
Chondroblasts (immature chondrocytes) divide in
cellular layer of perichondrium
Chondroblasts secrete new matrix
Once surrounded by matrix, chondroblasts mature
into chondrocytes

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 Module 4.13: Cartilage

Two types of cartilage growth (continued)
2. Interstitial growth (within cartilage)
Chondrocytes divide within a lacuna
Daughter cells secrete additional matrix and move apart
Both types of cartilage growth occur during
development
Normally no growth and repair in adults
With slight damage or with hormonal stimulation, some
appositional growth possible

© 2018 Pearson Education, Inc.
 Module 4.13: Review

1. Which connective tissue fiber is characteristic of
the cartilage supporting the ear?
2. Describe the two layers making up the
perichondrium.
3. Contrast appositional and interstitial growth of
cartilage.

Learning Outcome: Describe the structure,
function, and locations of cartilage.

© 2018 Pearson Education, Inc.
 Module 4.14: Bone provides a strong
framework for the body

Osseous (os, bone) tissue (Bone tissue)
 Connective tissue with solid, crystalline matrix
Small volume of ground substance
2/3 of matrix is calcium salts (provide strength)
– Mostly calcium phosphate
– Some calcium carbonate
Many collagen fibers (provide flexibility)
 Strong, somewhat flexible, resistant to shattering

© 2018 Pearson Education, Inc.
 Module 4.14: Bone

Typical long bone structure
 Hollow with two types of bone
1. Compact bone
– Outer layer of bone
2. Spongy bone
– Lines internal cavity
– Finer network

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 Typical long bone structure

© 2018 Pearson Education, Inc.
© 2018 Pearson Education, Inc.
 Module 4.14: Bone

Compact bone structure
 Matrix organized in concentric layers
Organized into functional units (osteons)
– Central canal contains blood vessels in center
Cells (osteocytes) located between layers
Canaliculi (little canals) connect osteocytes
 Superficial layer of solid, calcified bone prevents
interstitial growth

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 Module 4.14: Bone

Compact bone structure (continued)
 Surrounded by periosteum
Two layers
1. Outer fibrous layer
allows attachment
of ligaments
2. Inner cellular layer
allows appositional
growth and repair

© 2018 Pearson Education, Inc.
 Module 4.14: Review

A. Describe bone matrix.
B. What are mature bone cells in lacunae called?
C. What is the functional unit of compact bone?
D. Distinguish between the two types of supporting
connective tissues with respect to their
characteristic fibers.

Learning Outcome: Describe the structure and
function of bone.

© 2018 Pearson Education, Inc.
 Module 4.15: Tissues membranes are physical
barriers, and fasciae support and surround
organs
Overview of membranes
 Line or cover body surfaces
 Typically consist of epithelium supported by
connective tissue
 Four types in the body
1. Mucous membranes
2. Serous membranes
3. Cutaneous membrane
4. Synovial membranes

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 Module 4.15: Membranes and fasciae

Four types of membranes
1. Mucous membranes
Line passageways
open to the exterior of
the body
– Digestive, respiratory,
reproductive, urinary
tracts
Must be kept moist to facilitate movement, absorption,
or secretion
Lubricated by mucus or bodily fluids
Supported by areolar connective tissue (lamina
propria)

© 2018 Pearson Education, Inc.
 Module 4.15: Membranes and fasciae

Four types of membranes (continued)
2. Serous membranes (serosae)
Composed of mesothelium supported by areolar
connective tissue
Delicate and never connected to exterior
Watery serous fluid coats surface
Three line subdivisions of ventral body cavity
– Pleura (pleural cavity and lungs)
– Pericardium (pericardial cavity and heart)
– Peritoneum
(peritoneal cavity
and visceral organs)

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 Module 4.15: Membranes and fasciae

Four types of membranes (continued)
3. Cutaneous membrane
Covers surface of body (skin)
Composed of:
– Stratified squamous epithelium
– Layer of areolar tissue
– Underlying dense irregular connective tissue
Relatively thick, waterproof, and usually dry

© 2018 Pearson Education, Inc.
 Module 4.15: Membranes and fasciae

Four types of membranes (continued)
4. Synovial membrane
Lines freely movable joint cavities
Lubricates joint cavity
with synovial fluid
Provides oxygen and
nutrients to cartilage cells
Not true epithelium
– Develops within connective tissue
– Lacks basement membrane
– Contains gaps between cells (up to 1 mm)
– Synovial fluid and capillaries continuously exchange
fluid and solutes
© 2018 Pearson Education, Inc.
 Module 4.15: Membranes and fasciae

Fasciae: Support and surround organs
 Three types of layers
1. Superficial fascia
– Under skin
– Consists of areolar and adipose tissue
2. Deep fascia
– Continuous with capsules, ligaments, and other
connective tissue structures
– Consists of dense irregular connective tissue
– Forms strong, fibrous internal framework
3. Subserous fascia
– Between serous membranes and deep fascia
– Consists entirely of areolar tissue
© 2018 Pearson Education, Inc.
 Connective tissue framework of the body

© 2018 Pearson Education, Inc.
 Module 4.15: Review

A. Which cavities in the body are lined by serous
membranes?
B. Name the four types of membranes found in the
body.
C. Name the three layers of fascia and their types of
connective tissue.
D. Which of the four tissue membranes is relatively
waterproof and usually dry?

Learning Outcome: Describe the arrangements of
epithelial and connective tissues in the four types of
tissue membranes, and describe the structures and
locations of the three types of fasciae.
© 2018 Pearson Education, Inc.
 Section 3: Muscle Tissue and Nervous Tissue

Learning Outcomes
4.16 Describe the relative proportions of muscle tissue
and nervous tissue in the body.
4.17 Specify the functions of muscle tissue and
nervous tissue.
4.18 Clinical Module: Describe the roles of
inflammation and regeneration in response to
tissue injury.

© 2018 Pearson Education, Inc.
 Module 4.16: Muscle tissue outweighs nervous
tissue by 25:1

Tissue types by weight
 Muscle tissue is 50 percent total body weight
The most of any major tissue type
 Nervous tissue is 2 percent total body weight
The least of any major tissue type
 Connective tissue (45 percent) and epithelial tissue
(3 percent) provide interwoven framework for body

© 2018 Pearson Education, Inc.
 Percentages (by weight) of the four tissue
types in the body

© 2018 Pearson Education, Inc.
 Module 4.16: Muscle tissue and nervous tissue

Types of muscle tissue
 Skeletal muscle tissue
Moves the body
 Cardiac muscle tissue
Moves blood within the heart and through blood
vessels
 Smooth muscle tissue
Moves fluids and solids along digestive tract
Regulates diameter of small arteries, among other
functions

© 2018 Pearson Education, Inc.
 Module 4.16: Review

A. What is the relative percentage of body weight
from each of the four tissue types?
B. List the three classifications of muscle tissue,
and describe a function for each type.

Learning Outcome: Describe the relative
proportions of muscle tissue and nervous tissue in
the body.

© 2018 Pearson Education, Inc.
 Module 4.17: Muscle tissue is specialized for
contraction …

Muscle tissue
 Specialized for contraction to cause movement
Movement of the body
Movement of blood around the cardiovascular system
Movement of materials along the digestive tract
 Three types of muscles
1. Skeletal muscle tissue
2. Cardiac muscle tissue
3. Smooth muscle tissue

© 2018 Pearson Education, Inc.
 Module 4.17: Functions of muscle tissue

Three types of muscle tissue
1. Skeletal muscle tissue
Found in skeletal muscle
Elongated, cylindrical, banded (striated) cells with
multiple nuclei (multinucleate)
Functions
– Move and stabilizes skeleton
– Guard entrances and exits to digestive, respiratory,
urinary tracts
– Generate heat
– Protect internal organs

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 Skeletal muscle tissue

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 Module 4.17: Functions of muscle tissue

Three types of muscle tissue (continued)
2. Cardiac muscle tissue
Found only in heart
Cells (“cardiocytes”) are short, branched, and usually
have a single nucleus
– Interconnected with special junctions (intercalated
discs) that help synchronize cardiocyte contractions
Functions to move blood and maintain blood pressure

© 2018 Pearson Education, Inc.
 Module 4.17: Functions of muscle tissue

Three types of muscle tissue (continued)
3. Smooth muscle tissue
Found throughout body (skin, blood vessel walls,
many organs of various systems)
Cells are short, spindle-shaped, nonstriated, have a
single nucleus
Functions
– Move food, urine, and reproductive secretions
– Control diameter of respiratory passageways and blood
vessels

© 2018 Pearson Education, Inc.
 Module 4.17: … and nervous tissue is
specialized for communication

Nervous tissue
 Specialized for conduction of electrical impulses
 98 percent found in brain and spinal cord
 Two basic types of cells
1. Neurons (neuros, nerve)
2. Neuroglia or glial cells (glia, glue)
– Various supporting cells

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 Module 4.17: Functions of nervous tissue

Neurons
 Transfer information around body and perform
information processing
 Vary in size and shape
Longest cells in body are neurons (up to 1 meter)

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 Module 4.17: Functions of nervous tissue

Neuron structure
 Dendrites (dendron, tree)
Receive information
 Axon
Conducts information to other cells
Also called nerve fibers
 Cell body
Contains large nucleus and other organelles
Cell control center and site of information processing
Most lack centrioles and cannot divide

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 Neuron structure

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 Module 4.17: Functions of nervous tissue

Neuroglia
 Several different structural types with associated
functions

© 2018 Pearson Education, Inc.
 Module 4.17: Review

A. Which type of muscle tissue regulates blood
vessel diameter?
B. Distinguish between neurons and neuroglia.
C. Organs are made up of different tissues. What
tissues are found in skeletal muscles?

Learning Outcome: Specify the functions of muscle
tissue and nervous tissue.

© 2018 Pearson Education, Inc.
 Module 4.18: CLINICAL MODULE: The response
to tissue injury involves inflammation and
regeneration
Tissues respond in a coordinated way to restore
homeostasis
Two restoration processes
 Inflammation
 Regeneration

© 2018 Pearson Education, Inc.
 Module 4.18: CLINICAL MODULE: Responses to
tissue injury

Injury occurs
 Body is exposed to pathogens and toxins and
chemicals from injured cells
 Body activates defense mechanisms including:
Mast cell activation
– Mast cells release histamine and other chemicals
– Stimulates inflammation

© 2018 Pearson Education, Inc.
 Module 4.18: CLINICAL MODULE: Responses to
tissue injury

Inflammation
 Produces indications of injury
1. Swelling
2. Redness
3. Warmth
4. Pain
 May result from injury or from infection (presence
of pathogens within the tissue)
 Occurs in connective tissue, so may occur
anywhere in the body (as all organs contain
connective tissue)

© 2018 Pearson Education, Inc.
 Module 4.18: CLINICAL MODULE: Responses to
tissue injury

Inflammation (continued)
 Dilates (enlarges) blood vessels
 Increases blood vessel permeability
 Increased blood flow to the area causes:
Swelling in the area
Increased local temperature
Increased delivery of oxygen and nutrients
Increased removal of toxins and wastes
 Stimulates increased phagocytosis in tissues
 Sensation of pain from abnormal conditions and
chemicals released by mast cells
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 Inflammation

© 2018 Pearson Education, Inc.
 Module 4.18: CLINICAL MODULE: Responses to
tissue injury

Cleanup process (removing toxins and wastes)
usually eliminates inflammatory stimuli in hours to
days
Regeneration
 Occurs after damaged tissue has stabilized
 Fibroblasts produce collagen fibers to stabilize injury
site
 Produces dense, collagenous framework called
scar tissue
 Scar tissue usually remodeled and normal tissue
conditions restored
© 2018 Pearson Education, Inc.
 Module 4.18: CLINICAL MODULE: Responses to
tissue injury

Each tissue has a different ability to regenerate
 Epithelial, connective (except cartilage), and smooth
muscle regenerate well
 Other muscle types and neural tissue regenerate
poorly, if at all
 In tissues that regenerate poorly, scar tissue
replaces tissues that do not regenerate
Fibrosis is the permanent replacement of normal
tissue by scar tissue

© 2018 Pearson Education, Inc.
 Module 4.18: CLINICAL MODULE: Responses to
tissue injury

© 2018 Pearson Education, Inc.
 Module 4.18: Review

A. Identify the two processes in the response to
tissue injury.
B. What are the four indications of inflammation
that occur following an injury?
C. Why can inflammation occur in any organ in the
body?

Learning Outcome: Describe the roles of
inflammation and regeneration in response to
tissue injury.

© 2018 Pearson Education, Inc.