Anatomy and Physiology, 1e Chapter 5 PDF

Summary

This document is a chapter from a textbook on anatomy and physiology. It contains a diagnostic test, including questions about tissue types. The chapter seems to be on different types of tissues, including the functions, location, and characteristics of various tissues in the human body.

Full Transcript

Anatomy and
Physiology, 1e
Chapter 5: The Tissue Level
of Organization

Elizabeth Co, Anatomy and Physiology, 1st Edition. © 2023 Cengage. All Rights Reserved. May not be scanned, copied or
duplicated, or posted to a publicly accessible website, in whole or in part. 1
 DIAGNOSTIC TEST

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 1. What type of tissue functions in
protection, absorption, secretion, and
sensation?
Nervous tissue
Muscle tissue
Connective tissue
Epithelial tissue

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2. What type of tissue that connects
different parts of the body, provides
structure and stores energy?
Nervous tissue
Muscle tissue
Connective tissue
Epithelial tissue

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 3. What type of tissue that sends and
receives electrical signals to control bodily
functions and activities?
Nervous tissue
Muscle tissue
Connective tissue
Epithelial tissue

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 4. What type of tissue that facilitates
movement by contracting in response to
stimulation?
Nervous tissue
Muscle tissue
Connective tissue
Epithelial tissue

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5. _____ is the most rigid of the connective
tissues.

Loose Connective Tissue
Dense Connective Tissue
Cartilage
Bone

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6. Cardiac and smooth muscles are
________ controlled.

voluntarily
involuntarily

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7-9. Label the parts of a neuron.
7
8 Dendrite
Cell body
Axon

9
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10. _______ membrane is the skin and
covers the body.

Serous
Cutaneous
Mucous
Synovial

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 Learning objectives

By the end of this chapter, you should be able to:
Describe the appearance of the tissues of the human body.
Discuss where specific tissues can be found.
Discuss the functions of each tissue type.
Describe the process of inflammation.
Discuss changes that occur in tissues with aging.

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 Icebreaker

What makes up the organs that help maintain life?
What binds and keeps our organs together?

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Types and Components of
Tissues
Section 5.1
Learning Objectives 5.1.1–5.1.5

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 Levels of Organization (Figure 5.1)

Tissues are groups of cells
that function together in the body
Histology = microscopic study
of the appearance, function,
and organization of tissues
Pathology = study of changes
that occur with disease

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 Tissue Types (Figure 5.2)

The four types of tissue in the
body are:
Epithelial tissue—form
coverings, linings, and glands
Connective tissue—protection
and support
Muscle tissue—provides
movement
Nervous tissue—allows
communication
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 Romans 12:6-8
“We have different gifts, according to the grace given
to each of us. If your gift is prophesying, then
prophesy in accordance with your faith; if it is serving,
then serve; if it is teaching, then teach; if it is to
encourage, then give encouragement; if it is giving,
then give generously; if it is to lead, do it diligently; if
it is to show mercy, do it cheerfully.”

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 General Features of Tissues

Extracellular matrix (ECM)— Cellular connections—attachments
material found outside of a between cells
tissue
Tight junctions—allow no movement
Major components: of substances between cells
Collagen—tough, Desmosomes—flexible connections
protective protein fibers that allow some movement of
substances between cells
Proteoglycans—negatively
charged Gap junctions—passageways that
protein/carbohydrate allow movement of certain
molecules substances between the cells

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 Cellular Connections (Figure 5.3)
Cells can be connected by:
Tight junctions – fuse membranes
of adjacent cells
Desmosomes – provide strong,
flexible connections between cells
Hemidesmosomes connect cells
to ECM
Gap junctions – allow for
intercellular passageways between
cells

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 Preparing Tissues for Examination

Tissues must be carefully
prepared for examination
Multiple factors influence the
appearance of a tissue
Plane of section
Stain used during preparation

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 Planes Influence Appearance

Same structure may appear
differently depending on the
plane of the section
Sagittal plane
Transverse plane
Oblique plane

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 Cutting Tissues for Examination

Special blade is used to cut
tissues
Cut into thin slices for
examination

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 Tissues Placed on Slides

Thin slices of tissue are placed
on slides

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 Tissues are Stained for Examination

Many tissues are stained prior to
examination

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 Results of Various Stains

Tissues may have different
appearances and colors
depending on the stain used

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 Epithelial Tissue
Section 5.2
Learning Objectives 5.2.1–5.2.6

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 Characteristics of Epithelia
Form coverings, linings, and glands
Basement membrane anchors epithelia to ECM (extracellular matrix)
▪ 2 layers:
1. Lamina lucida- a mixture of glycoproteins and collagen
2. Lamina densa- has a denser more structural weave of
tough collagen fibers.
Two surfaces of epithelia:
Basal surface—attached to basement membrane
Apical surface—exposed to external environment or internal space
Avascular, meaning they have no blood vessels
Highly regenerative
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 Anatomy of Epithelia

Epithelia are:
Highly cellular
Polar (apical and basal
surface)
Avascular
Innervated
Bound to basement membrane

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 The Epithelial Cell (Figure 5.4)

Apical and basal membranes may
have different functions
Apical surface modifications
Cilia – move materials across
surface
Microvilli – increase surface
area

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 Cells of Epithelia (Figure 5.5)
Epithelial tissue is named after its shape
and number of layers of cells on the apical
surface
Based on shape:
Squamous—flat cells
Cuboidal—box-shaped cells
Columnar—column-like cells
Based on number of layers:
Simple—one layer of cells
Stratified—two or more layers of cells
Pseudostratified—one layer of cells that
appears like more

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 Epithelia That Defy Naming Convention
(Figure 5.6)
Pseudostratified columnar epithelium
May appear stratified
All cells touch basement
membrane because there is only a
single layer
Transitional epithelium
Stratified tissue
Cells stretch and change shape

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 Goblet Cells (Figure 5.7)

Common feature of simple
and pseudostratified epithelia
Secrete mucus

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 Stratified Epithelia (Figure 5.8)

Contain more than one layer of
cells
Cells of basal layer are stem cells
that regenerate cells into apical
layers
Basal layer cells may be different
in shape from apical layer cells
Tissue is named based on shape
of cells in apical layer

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 Simple Squamous Epithelium
(Table 5.1, 1 of 4)
Consists of a single layer of flat
cells
Found in the air sacs of lungs,
the lining of the heart, blood
vessels, and lymphatic vessels
Allows materials to pass
through by diffusion and
filtration
Secretes lubricating substances

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 Simple Cuboidal, Simple Columnar,
Pseudostratified Columnar Epithelia
(Table 5.1, 2 of 4)
Simple cuboidal epithelium
Lines kidney tubules
Secretes and absorbs substances (Na+, K+,
glucose, etc.)
Simple columnar epithelium
Lines digestive and reproductive tracts
Secretes and absorbs various materials
Pseudostratified columnar epithelium
Lines trachea and respiratory tract
Secretes and moves mucus

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 Stratified Squamous, Stratified Cuboidal, and
Stratified Columnar Epithelia (Table 5.1, 3 of 4)
Stratified squamous epithelium
Lines esophagus, mouth, vagina
Protects against abrasion
Stratified cuboidal epithelium
Found in sweat glands, salivary glands
Secretes and protects
Stratified columnar epithelium
Found in male urethra
Secretes and protects
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 Transitional Epithelium (Table 5.1, 4 of 4)

Transitional epithelium
Lines bladder, urethra, and
ureters
Allows urinary organs to
expand and stretch

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 Glands of Epithelia

Endocrine glands secrete hormones into the blood
Examples: Thymus, pituitary gland, adrenal glands
Are ductless
Exocrine glands secrete substances locally through a duct
Examples: Sweat glands and glands of digestive system
Secrete mucus, sweat, saliva, and breastmilk

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 Exocrine Gland Structure (Figure 5.9)

Unicellular – single cells
Multicellular – single layer of cells
that fold into surrounding tissue
Tubular glands form tubes
Acinar glands form pockets
Simple glands have one duct
Compound glands combine
formats

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 Exocrine Secretions (Figure 5.10)
Merocrine secretion: accomplished
by exocytosis

Apocrine secretion: material
accumulates near apical surface of
gland

Holocrine secretion: involves rupture
and destruction of entire gland cell

Serous glands produce watery
secretions

Mucous glands produce watery to
thick secretions
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 Think, Pair, Share Activity 2

A sample of unknown tissue is observed under a
microscope in the laboratory. The tissue has 6 layers.
The cells in the bottom layer appear to be shaped
like boxes. The cells in the top layer are flat in shape.
Sketch a diagram of this tissue and name it based on
the way that epithelial tissues are named.

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 Matching Activity 1

Match the term to 1. Squamous A. A tissue with one
the correct layer of cells
description. 2. Cuboidal
B. Cells that are flat
3. Stratified
C. Epithelia found lining
4. Simple the bladder
5. Transitional D. Cells that are shaped
like a box
E. Two or more layers
of cells
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 Matching Activity 1 Answer

Match the term to the correct description.
1. Squamous—B
2. Cuboidal—D
3. Stratified—E
4. Simple—A
5. Transitional—C

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 Think, Pair, Share Activity 2 Answer
A sample of unknown tissue is observed
under a microscope in the laboratory. The
tissue has twelve layers. The cells in the
bottom layer appear to be shaped like
boxes. The cells in the top layer are flat in
shape. Sketch a diagram of this tissue
and name it based on the way that
epithelial tissues are named.
This tissue would be stratified
squamous epithelium. The multiple
layers make it stratified and because
the cells in the apical layer are flat, it
would be squamous.
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 Connective Tissue
Section 5.3
Learning Objectives 5.3.1–5.3.3

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 Anatomy of Connective Tissue

Connective tissue consists of cells
and the extracellular matrix (ECM)
Cells rarely touch each other
ECM consists of ground substance
and fibers
Ground substance is between
fibers
Vascularized (contain blood
vessels)

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 Classification of Connective Tissues

Twelve types of connective tissues are separated into three
categories:
Connective tissue proper
Areolar, adipose, reticular, dense regular, and dense irregular
connective tissue
Supportive connective tissue
Hyaline cartilage, fibrocartilage, elastic cartilage, compact
bone, spongy bone
Fluid connective tissue
Blood and lymph

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 Cells and Fibers of Connective Tissues

Fibroblasts produce fibers in the ECM
Collagen—strongest fibers
Elastic—provide elasticity
Reticular—branching fibers that support internal organs
Adipocytes—store energy and provide cushioning
Connective tissues have an immune defense role
− Macrophages and mast cells

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 Connective Tissue Types (1 of 2)
(Table 5.2, 1 of 2)
Connective tissue proper
Loose connective tissue
Areolar
Reticular
Adipose tissue

Supportive connective tissue
Hyaline cartilage
Fibrocartilage
Elastic cartilage

Fluid connective tissue
Blood

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 Connective Tissue Types (2 of 2)
(Table 5.2, 2 of 2)
Connective tissue proper
Dense regular connective tissue
Dense irregular connective tissue
Supportive connective tissue
Bone
Fluid connective tissue
Lymph

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 Loose Connective Tissues (1 of 2)
(Figures 5.11 and 5.12)
Areolar connective tissue
Subcutaneous layer
Figure 5.11
Supports nearby tissues
Adipose tissue
Subcutaneous layer
Energy storage,
cushioning Figure 5.12

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 Loose Connective Tissues (2 of 2)
(Figure 5.13)
Reticular connective tissue
Framework of internal
organs
Lymphatic tissues,
spleen, liver

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 Dense Connective Tissues
(Figure 5.14 and 5.15)
Dense regular
connective tissue
Tendons,
ligaments
Dense irregular
connective tissue
Skin Figure 5.15A Figure 5.14A

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 Dense Irregular Connective Tissue
(Figure 5.14)
Contains a high number of
collagen fibers
Fibers oriented in every direction
Allows tissue to withstand
force in any plane
Found in the dermis of the skin

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 Dense Regular Connective Tissue
(Figure 5.15)
Contains a high number of
collagen fibers
Collagen fibers oriented parallel
to each other
Allows tissue to withstand
force in the direction of the
orientation of the fibers
Found in ligaments and
tendons

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 Cartilage (Figure 5.17)
Hyaline cartilage
Located within joints, ribs
Most abundant cartilage
Fibrocartilage
Located in intervertebral discs
Strongest cartilage
Elastic cartilage
Located in external ear
Most flexible type of cartilage
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 Application: The Ribcage (Figure 5.16)

The ribcage merges two
supporting connective tissue
types
Bone makes up most of the
ribcage
Protects lungs and heart
Cartilage allows for expansion
during breathing

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 The Perichondrium (Figure 5.18)

Made of dense irregular
connective tissue
Encapsulates cartilage within the
body

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 Bone (Figure 5.19)

The most rigid of the connective tissues
Provides protection and support for internal
organs
Compact bone
Solid with greater strength than spongy
bone
Spongy bone
Empty spaces contain red bone marrow

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 Fluid Connective Tissues (Figure 5.20)

Blood and lymph
Transport molecules and cells
throughout the body
Blood contains cells:
Erythrocytes, leukocytes, and
platelets

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 Lymph (Figure 5.21)

Lymph is a fluid connective tissue
Primarily acellular
Unlike blood, lymph is mainly
acellular

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 Muscle Tissue
Section 5.4
Learning Objectives 5.4.1–5.4.3

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 Anatomy of Muscle Tissue

Muscle tissue is responsible for
movement
Shortens to generate pulling force
Cells are tightly packed
Differs in location and manner of
control
Skeletal muscle, cardiac muscle,
smooth muscle

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 Characteristics of Muscle Tissue

The major function of muscle tissue is movement
Contracts in response to stimuli
Voluntary muscle—conscious control
Skeletal muscle
Involuntary muscle—unconscious control
Cardiac and smooth muscle

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 Skeletal Muscle

Attached to bone
Found in the openings to body (mouth and anus)
Allows body movement and maintains posture
Contains striations—alternating light and dark bands under light
microscope
Voluntarily controlled
Cells are multinucleated (have to or more nuclei)

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 Cardiac Muscle

Found in the walls of the heart
Contains striations
Involuntarily controlled
Cells attached by intercalated discs

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 Smooth Muscle

Found within internal organs
Associated with digestive, respiratory, urinary, and reproductive
systems
Lacks striations
Involuntarily controlled

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 Discussion Activity

1. As infants age, they no longer have to wear
diapers. Can you think of a role muscle tissue
plays in the ability of an infant to stop wearing
diapers?
2. What are some functions of muscle tissue
other than movement? Explain them.

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 Discussion Activity 1 Answer

As infants age, they no longer have to wear diapers.
Can you think of a role muscle tissue plays in the
ability of an infant to stop wearing diapers?
During infancy, the nervous pathways to control
skeletal muscles are not fully developed. As we
age, these pathways mature including the pathway
to control the skeletal muscles that regulate
urination and defecation.
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 Discussion Activity 2 Answer

What are some functions of muscle tissue other than body
movement? Explain them.
Thermoregulation occurs via shivering. Shivering
produces heat that increases body temperature.
Muscles also aid in protection of internal organs by
adding an additional layer on top of bones. Blood
circulation occurs as the heart contracts and muscles
compress veins.

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 Nervous Tissue
Section 5.5
Learning Objectives 5.5.1–5.5.2

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 Anatomy of Nervous Tissue

Nervous tissue makes up the
brain, spinal cord, and peripheral
nerves
Neurons conduct action
potentials to communicate with
other cells
Glial cells support neuronal
functioning

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 Neurons and Nervous Tissue (Figure 5.22)
Neurons generate action
potentials
Anatomical structure of neurons:
Dendrites—short branches
that receive signals
Cell body—houses nucleus
and organelles
Axon—long projection used to
send action potentials
Synapse—gap between neuron
and its target cell
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 Glial Cells

Glia is Greek for “glue”
There are various types of glial cells associated with nervous tissue
Many perform support functions for neurons
Some form myelin that insulates axons
Allows for faster movement of action potentials

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 Knowledge Check Activity 2

What component of a neuron receives incoming signals?
A. Axon
B. Cell body
C. Dendrites
D. Glial cells

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 Knowledge Check Activity 2 Answer

What component of a neuron receives incoming signals?
C. Dendrites

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 Membranes
Section 5.6
Learning Objectives 5.6.1–5.6.2

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 Tissue Membranes (Figure 5.23)

Mucous membranes line body
cavities that are open to the outside
Serous membranes line body cavities
and surround some organs
Cutaneous membrane is the skin and
covers the body
Synovial membranes line joints

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 Mucous Membranes

Line body cavities that are exposed to the external environment
Usually contain goblet cells that secrete mucus
Associated with:
1. Digestive tract
2. Respiratory tract
3. Urinary tract
4. Reproductive tract

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duplicated, or posted to a publicly accessible website, in whole or in part. 78
 Serous Membranes

Cover and line internal organs
Reduce friction created as organs move
Examples include:
Pericardium of the heart
Pleura of the lungs
Peritoneum of the abdominal cavity

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duplicated, or posted to a publicly accessible website, in whole or in part. 79
 Knowledge Check Activity 3

What is the function of a serous membrane?
A. To reduce the friction as bones move
B. To form a barrier between the internal and external environment
C. To reduce the friction as internal organs move
D. To protect internal body cavities from pathogens

Elizabeth Co, Anatomy and Physiology, 1st Edition. © 2023 Cengage. All Rights Reserved. May not be scanned, copied or
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 Knowledge Check Activity 3 Answer

What is the function of a serous membrane?
C. To reduce the friction as internal organs move

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 Cutaneous Membrane

Essentially the skin
Protects body from desiccation and pathogens
Made of stratified squamous epithelium and connective tissue
Keratin provides a thick barrier for protection against pathogens

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 Synovial Membrane

Found inside freely moveable joints like the elbow, hip, and knee
Cells secrete synovial fluid
Helps lubricate and nourish the cartilage at the joint
Reduces friction as bones move

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Tissue Growth and Healing
Section 5.7
Learning Objectives 5.7.1–5.7.4

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 Inflammation (Figure 5.24)

The body’s initial response to injury
Limits extent of injury and begins
the repair process
Acute inflammation is short-term
Chronic inflammation persists for
long periods of time
The suffix “-itis” denotes
inflammation of a specific organ or
type
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 Tissue Healing (Figure 5.25)

Begins with removal of debris and
toxins
Clotting stops the bleeding
Granulation tissue forms to allow
epithelial cells to regenerate lost
tissue
Scar tissue may form due to
rapid repair and replacement of
collagen fibers

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 Tissue and Aging

“The surest poison is time.” –Ralph Waldo Emerson
Tissue changes as the body ages
Rate of mitosis slows down
Leads to slower tissue healing
Number of elastic fibers decreases
Structures are less elastic
Contributes to wrinkles, joint stiffness, and high blood pressure

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 However, it is important to keep in mind that the progressive impact of
aging on the body varies considerably among individuals.
Studies indicate that exercise and healthy lifestyle choices can slow
down the deterioration of the tissues that comes with old age.

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 Tissues and Cancer

Mutations may alter the regulatory signals cell receives
Altered signals lead to uncontrolled replication of cells
Mass of cells is a tumor
Malignant tumors are cancerous, cause disease, and can spread
to other areas of the body
Benign tumors do not cause disease in the body or metastasize
(spread to other areas of the body)

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 Tissues and Cancer

Carcinomas- cancers derived from epithelial cells
Myelomas- cancers in myeloid tissue or blood cells
Leukemias - are cancers of white blood cells
Sarcomas derive from connective tissue

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 Tumor Growth

Tumor growth is typically limited
by physiological constraints
Tumors that grow “trick” tissues
into supporting their growth

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 Breast Density and Breast Cancer

Increased collagen density is
correlated with increased breast
cancer risk

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