Chpt 5 Tissue Organization I Bb S C(1).pptx

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Chapter 5: Tissue Organization

1
5.0 What are the Tissues of the Body?
Tissues
Groups of cells with similar structure, function and extracellular
material
Study of tissues, histology
Four types of tissues
Epithelial, connective, muscle, nervous
Varied structure and function

Table 5.1
2
5.1a What is Epithelial Tissue (Epithelium)?
Composed of one or more layers of closely packed cells
Contains little to no extracellular matrix
Covers body surfaces
Lines body cavities
Forms majority of glands

Table 5.1
3
 5.1a What are Characteristics of Epithelial Tissue?
Cellularity
Composed almost entirely of tightly packed cells
Polarity
Apical surface
o Exposed to external environment or internal body space
Lateral surface with intercellular junctions
Basal surface
o Epithelium attached to connective tissue

Fig
5.1 4
5.1a What are Characteristics of Epithelial Tissue?
Attachment to basement membrane
Barrier between epithelium and connective tissue
Avascularity
Nutrients obtained across apical surface or from basal surface
High regeneration capacity

Fig
5.1 5
5.1b What are the functions of Epithelial Tissue?
Physical protection
Selective permeability
Secretions
Sensations

Fig
5.1 6
 5.1c How is Epithelial Tissue Classified?
Body has different types of epithelia
Epithelia classification indicated by two-part name
̶Number of epithelial cell layers
̶Shape of cells at apical surface

Fig
5.2
7
 How is Epithelial Tissue classified by number of cells?

Simple epithelium
One cell layer thick
All cells in direct contact with basement membrane
In areas where stress is minimal
Filtration, absorption, or secretion is primary function
E.g., lining of air sacs of lungs, intestines, blood vessels

Fig
5.2
8
 How is Epithelial Tissue classified by number of cells?
Stratified epithelium
Two or more layers of epithelial cells
Only basal layer in contact with basement membrane
In areas subjected to mechanical stress
o Better able to resist wear and tear
o E.g., skin, lining of the esophagus, lining of urinary bladder
Cells in basal layer
o Continuously regenerate as apical layer cells lost

Fig
5.2
9
How is Epithelial Tissue classified by number of cells?
Pseudostratified epithelium
– Appears layered
o Due to cells’ nuclei distribution at different levels
– All cells attached to basement membrane
– Some do not reach the apical surface
– Simple epithelium

APR 10
 How is Epithelial Tissue classified by Cell Shape?

Cell Shape at Apical Surface
Squamous cells
Flat, wide, irregular in shape
Cuboidal cells
About as tall as they are wide
Columnar cells
Slender and taller than they are wide

Fig
5.2 11
 How is Epithelial Tissue classified by Cell Shape?
Transitional cells
Change shape, depending on stretch of epithelium
Located where epithelium stretches and relaxes
o E.g., lining of the bladder
Polyhedral when epithelium relaxed
More flat when epithelium stretched

APR
12
5.1c What are the roles of Simple vs Stratified
Epithelial Tissue?
Review of relationship between type and function
Simple epithelia
– Better designed for diffusion, absorption, and secretion
o Thinner than stratified epithelium
Stratified epithelia
– Better suited for protective functions

Fig 5.2

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 5.1d What are Glands?
Individual cells or multicellular organs
Epithelial tissue
Secrete substances used elsewhere or for elimination
Examples: Mucin, Electrolytes, Hormones, Enzymes, Urea

Goblet Cells
Fig 5.5

APR
14
 5.1d What are two major types of Glands?
Endocrine glands ( Covered in more detail in Bio 145)
Lack ducts
Secrete hormones into blood
Chemical messengers that influence cell activity elsewhere
Exocrine glands
Connected with epithelial surface by duct
E.g., sweat glands, mammary glands, salivary glands

Goblet Cells

APR Fig 5.5 15
 5.1d How are Exocrine Glands Classified?
Exocrine glands are classified by anatomic form or method of secretion
Three Methods of secretion: Merocrine, Apocrine, Holocrine

Fig 5.7
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 Chapter 5: Tissue Organization pt I
BlackBoard Lecture pt I

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Organization and Relationship of Epithelia Types

Figure 5.3 18
5.1c What is Simple squamous epithelium?
Single layer of flat cells
Thinnest barrier
Allows rapid movement of molecules across surface
Lines air sacs of lungs (alveoli)
Lines blood and lymph vessel walls (endothelium)
Serous membrane of cavities (mesothelium)

Table 5.2
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 Simple Squamous Epithelium

Simple Squamo
squamous us cell
epithelium

Loose Nucleus
connectiv of
e tissue squamo
us cell
APR
 5.1c What is Simple cuboidal epithelium?
Single layer
Cells about as tall as they are wide
Designed for absorption and secretion
Ideal for structural components of glands
o Surface of ovary
o Walls of kidney tubules
o Secretory regions/ducts of most glands

Table 5.2 21
 Simple Cuboidal Epithelium

Simple cuboidal Cuboidal cell
epithelium

Lumen of Nucleus of cuboidal
tubule cell
APR
5.1c What is Simple columnar epithelium?
Single layer of cells
Cells taller than they are wide
Ideal for secretory and absorptive functions
Two forms: Nonciliated or Ciliated

Table 5.2 23
5.1c What is Simple columnar epithelium?
Nonciliated
Contains microvilli
o Fuzzy structure—brush border
Unicellular glands—goblet cells
o Secrete glycoprotein—mucin
o Forms mucus when mixed with water
Lines most of digestive tract from stomach to anal canal

Table 5.2
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 Simple Columnar Epithelium
(nonciliated)

Simple columnar Goblet cell
epithelium

APR

Simple columnar Lumen of jejenum Microvilli (brush Lamina propria
5.1c What is Simple columnar epithelium?
Ciliated
– Cilia project from apical surface
o Move mucus along
– Goblet cells interspersed
– Lines
o Bronchioles
o Uterine tubes
˗ Helps move oocyte from ovary to uterus

Table 5.2 26
 Simple Columnar Epithelium (Ciliated)

Simple columnar Basement
epithelium membrane
(ciliated)

APR
Simple columnar Lamina propria
cell (ciliated) Lumen of uterine Cilia
5.1cWhat is Pseudostratifed columnar epithelium?
– Appears as multiple cell layers
– Not really stratified
o All cells in direct contact with basement membrane
o Nuclei scattered at different distances
o Not all cells reach apical surface
– Most common form is Ciliated*
– Protective functions
– Goblet cells secrete mucin
– Located in large passageways of respiratory system

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Table 5.2
 Pseudostratified Columnar Epithelium
Lumen of
trachea

Pseudostratified
Nucleus of basal cell
columnar epithelium

Cilia
Columnar epithelial
cell (ciliated)
Lamina propria
APR
 5.1c What is Stratified squamous epithelium?
Multiple cell layers
o Only deepest in direct contact with basement membrane
Apical cells with squamous shape
Protects against abrasion and friction
Stem cells in basal layer continuously divide
o Replace lost cells at surface
Exists in keratinized and nonkeratinized forms

Table 5.3 30
 5.1c What is Stratified squamous epithelium?
Keratinized
Cells in basal region migrate toward apical surface
Fill with keratin and die
Found in epidermis

Table 5.3 31
 Stratified Squamous Epithelium (Keratinized)

Epidermi Dermi
s s
(Stratified
squamous
epithelium)

Stratum Stratum Stratum
Stratum spinosum granulosum corneum
basale

APR
 5.1c What is Stratified squamous epithelium?
Nonkeratinized
All cells alive
Kept moist with secretions (e.g., saliva, mucus)
Protects from abrasion
Lines
o Oral cavity, part of pharynx, esophagus, vagina, anus

Table 5.3 33
 Stratified Squamous Epithelium (Nonkeratinized)

Stratified squamous
epithelium
(nonkeratinized)

Lamina propria

Squamous cell

APR

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 5.1c What is Stratified cuboidal epithelium?
Two or more layers of cells
Superficial cells cuboidal in shape
Forms tubes and coverings
Protection and secretion
Forms walls of ducts in most exocrine glands
o Sweat glands, parts of male urethra, periphery of ovarian
follicles

Table 5.3 35
 Stratified Cuboidal Epithelium
Stratified cuboidal Cuboidal cell

Lumen of parotid Venule
duct

APR
 5.1c What is Stratified columnar epithelium?
– Rare
– Two or more layers of cells
– Columnar cells at apical surface
– Protects and secretes
– Found in
o Large ducts of salivary glands
o Some segments of male urethra

Table 5.3 37
 5.1c What is Transitional epithelium?
Limited to urinary tract
In relaxed state
o Apical cells large and rounded
In stretched state
o Apical cells flattened
Allows for stretching as bladder fills

Table 5.3 38
 Transitional Epithelium
Lumen of bladder

Transitional epithelium

Lamina propria

APR
Luminal cells Blood capillary
 Transitional Epithelium Cross-section

LM: High Magnification of ureter

Mucosa of
ureter

Transitional
epithelium
of ureter
APR

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Chapter 5: Tissue Organization

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 5.2 What is Connective Tissue?
Cells in a Extracellular Matrix (fibers and ground substance)
Most diverse, abundant, and widely distributed of tissues
Supports, protects, and binds organs
Examples: Tendons, Adipose tissue, Cartilage, Bone, Blood

Fig 5.8

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 5.2a What cells are in Connective Tissue?
Resident Cells:
Fibroblasts
Produce fibers and ground substance of extracellular matrix
Adipocytes (fat cells)
Mesenchymal cells
Stem cell that divides to replace damaged cells
Fixed macrophages
Phagocytize (engulf) damaged cells or pathogens
Release chemicals that attract wandering leukocytes
Wandering Leukocytes:
Mast cells, Plasma cells, Free macrophages, Neutrophils, T-lymphocytes

Fig 5.8

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5.2a What Protein Fibers are in Connective Tissue?

Collagen fibers
Strong, flexible, and resistant to stretching
Numerous in tendons and ligaments
Reticular fibers
Form branching, interwoven framework
Abundant in stroma (CT framework)
lymph nodes, spleen, liver
Elastic fibers
Stretch and recoil easily
Help structures return to normal shape Fig 5.8
after stretching
Found in skin, arteries, lungs

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 5.2aWhat is the Ground Substance of Connective Tissue?
Noncellular material produced by CT cells
Ground substance + protein fibers = extracellular matrix
Glycosaminoglycans (GAGs)
o Carbohydrate building blocks
o Negatively charged and hydrophilic
o Charge attracts cations and water
o Types: Chondroitin sulfate, Heparin sulfate, Hyaluronic acid
Proteoglycans
o Formed with GAG linked to a protein
o Perform numerous important functions
Adherent glycoproteins
o Proteins with carbohydrates attached
o Bond CT cells and fibers to ground substance
o Includes: fibronectin, fibrillin, laminin 45
5.2b What are the Functions of Connective Tissue?
Physical protection
Bones of skull and thoracic cage protect delicate organs
Adipose tissue protects kidneys and eyes

Support and structural framework
Bones, body framework
Place for muscle attachment
Cartilage keeps trachea and bronchi open
Supportive capsules around kidney and spleen

Binding of structures
Ligaments bind bone to bone
Tendons bind muscle to bone
Dense irregular tissue anchors skin to muscle and bone Fig 7.2
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 5.2b What are the Functions of Connective Tissue?
Storage
Adipose CT is the major energy reserve
Bone, primary reservoir for calcium and phosphorus
Transport
Blood carries nutrients, gases, wastes between regions of body
Immune protection
Leukocytes protects body against disease

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 Chapter 5: Tissue Organization
BlackBoard Lecture pt II

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5.2d How is Connective Tissue Classified?

Fig 5.9

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 5.2d What is Areolar Connective Tissue?
Loose organization of collagen and elastic fibers
Highly vasularized
Contains all fixed and wandering cells of CT proper
Ground substance is abundant and viscous
Found in the papillary layer of dermis
Major component of subcutaneous layer
Surrounds organs, nerve and muscle cells, and blood vessels

Table
5.5 50
 Areolar Connective
Tissue
Collagen fibers

Ground
substance

Elastic fibers

Capillary Endothelial
cell of
capillary
APR Mast cell with Nucleus of
granules fibroblasts
 5.2d What is Adipose Connective Tissue?
Composed mostly of adipocytes
Stores energy, acts as insulator, cushions
Adipocyte number remains stable
Weight gain/loss due to adipocytes enlarging or shrinking

Table
5.5 52
 Adipose Connective Tissue

Adipocytes
Lipid inclusions of
adipocytes

Nuclei of adipocytes Capillaries

APR
 5.2d What is Reticular Connective Tissue?
Meshwork of reticular fibers, fibroblasts, leukocytes
Structural framework of many lymphatic organs
˗ Spleen, Thymus, Lymph nodes, Bone marrow

Table
5.5 54
 Reticular Connective Tissue

Reticular Ground
fibers substance

Leukocytes Macrophages

APR
 5.2d What is Dense Regular Connective Tissue?
Tightly packed, parallel collagen fibers
In tendons and ligaments
Stress typically applied in a single direction
Few blood vessels
Takes a long time to heal

Table
5.6 56
 Dense Regular Connective Tissue

Collagen fibers Ground substance Nuclei of fibroblasts

APR
 5.2d What is Dense Irregular Connective Tissue?
Clumps of collagen fibers extend in all directions
Provides support and resistance to stress in multiple directions
Extensive blood supply
Found in:
˗ Most of the skin dermis
˗ Periosteum of bone
˗ Perichondrium of cartilage
Forms capsules around some internal organs

Table
5.6 58
 Dense Irregular
Connective Tissue

Collagen fibers Ground substance Nuclei of fibroblasts

APR
 5.2d What is Elastic Connective Tissue?
Branching, densely packed elastic fibers
Able to stretch and recoil
Found in
˗ Walls of large arteries
˗ Trachea
˗ Vocal cords

Table
5.6 60
 Elastic Connective Tissue

Lumen of
Elastic elastic artery
lamellae

Nuclei of Endothelium
fibroblasts of elastic
artery

Nuclei of Tunica intima Tunica media Internal elastic
APR smooth of elastic of elastic lamella
muscle cells artery artery
 5.2d What is Cartilage?
Type of Supporting CT
Firm, semisolid extracellular matrix
Collage and elastic protein fibers
Chondrocytes occupy small spaces called lacunae
Surrounded by a dense irregular CT covering
o Perichondrium
In areas of body that need support and must withstand deformation
(e.g., tip of nose)
Avascular in mature state

Table
5.7 62
 5.2d What is Hyaline cartilage?
Most common type
Clear, glassy appearance under microscope
Located in
o Nose, trachea, and larynx
o Costal cartilage
o Articular ends of long bones
o Most of fetal skeleton

Table
5.7
63
 Hyaline Cartilage
Chondrocytes Lacunae

Extracellular matrix Nuclei of
Perichondrium chondrocytes

APR
 5.2d What is Fibrocartilage cartilage?
Weight-bearing cartilage, resists compression
Protein fibers in irregular bundles between chondrocytes
Located in
o Intervertebral discs
o Pubic symphysis
o Menisci of knee joint

Table
5.7 65
 Fibrocartilage
Chondrocytes Lacunae

Collagen fibers
Nuclei of
Ground substance chondrocytes

APR
 5.2d What is Elastic cartilage?

Flexible, springy cartilage
Numerous densely packed elastic fibers
o Ensure tissue is resilient and flexible
Located in external ear and epiglottis

Table
5.7 67
 Elastic Cartilage
Chondrocytes

Elastic fibers

Ground
substance
Lacunae

Nuclei of
chondrocytes

APR Perichondrium
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 5.2d What is Bone?
– Organic components (collagen and glycoproteins)
– Inorganic components (calcium salts)
– Bone cells—osteocytes
o Housed within spaces called lacunae
– Compact bone
o Cylindrical structures—osteons
– Spongy bone (Cover in Chpt. 7)

Table
5.8 69
 Osteon Interstitial
Compact lamellae

Bone
Cement line

Central Canal Osteocytes in
lacuna

APR

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 5.2d What is Blood?
Fluid connective tissue with formed elements
o Erythrocytes transport respiratory gases
o Leukocytes protect against infectious agents
o Cellular fragments, called platelets, help clot blood
Liquid ground substance is called plasma
o Dissolved proteins
o Transports nutrients, wastes, hormones

Table
5.9 71
 Fluid Connective Tissue
Blood
Erythrocytes

Platelets

Neutrophils

APR

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5.2d What is Lymph?
Derived from blood plasma
No cellular components or fragments
Ultimately returned to bloodstream

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Chapter 5: Tissue Organization

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5.3 What is Muscle Tissue?

Cells contract when
stimulated
Contraction causes
movement
o Voluntary motion of
body parts
o Contraction of heart
o Propulsion of material
through digestive and
urinary tracts

75
 5.3 What is Skeletal Muscle Tissue?
Moves skeleton
Long cylindrical cells: Skeletal muscle fibers
Arranged in parallel bundles that run length of entire muscle
Multinucleated
Alternating light and dark bands, striations
Does not contract unless stimulated
o Voluntary

Table
5.10 76
 5.3 What is Cardiac Muscle Tissue?
Responsible for heart contraction to pump blood
Striated
Cells short and often bifurcating
Cells connected by intercalated discs
Strengthen connection between cells
Promote rapid conduction of electrical activity
Involuntary
Cannot be controlled by voluntary nervous system
Pacemaker cells initiate contraction

Table
5.10 77
 5.3 What is Smooth Muscle Tissue?
Visceral or involuntary muscle tissue
Lacks striations; appears smooth
Cells shaped like elongated footballs
Found in walls of hollow organs
Helps propel movement through these organs
No voluntary control over the muscle

Table
5.10 78
 5.4 What is Nervous Tissue?
Located in the brain, spinal cord, and nerves
Cells called neurons
o Receive, transmit, and process nerve impulses
Larger number of glial cells
o Do not transmit nerve impulses
o Instead, are responsible for protection, nourishment, and support of
neurons

Table
5.11 79
5.4 What are the parts of a Neuron?
Cell body
o Houses nucleus and other organelles
Nerve cell processes extend from cell body
Shorter and more numerous processes are
called dendrites
o Receive incoming signals and transmit
information
Axon is the single long process extending
from the cell body
o Carries outgoing signals to other cells
Neurons are longest cells in the body

Table
80
5.11
 Nervous Tissue
Neuron Nucleus of
neuron

Nucleolus of
neuron

Dendrites

Nissl substance

APR

Axon Nuclei of glial
 5.5a What is an Organ?
Two or more tissue types
Work together to perform specific complex functions
Different structures must work in concert
E.g., stomach, contains all four tissue types

Fig 5.11
82
5.5b What are the Body Membranes?

Mucous membrane
Lines compartments that open to
external environment
Serous membrane
Lines body cavities that do not
open to external environment
Cutaneous membrane
Skin
Covers external surface of body
Synovial membrane
Lines some joints in body
Fig 5.12

83
5.6a How do Mature Tissues Develop?
In an embryo
Three primary germ
layers
Ectoderm
Forms outer layer of
skin
Mesoderm
Forms all muscle tissue
Endoderm
Becomes innermost
germ layer
Forms Epithelial linings
of digestive, respiratory,
reproductive, and Fig 5.13
urinary tract
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