Transcript ch 04 lecture outline

Chapter
4
The Tissue
Level of
Organization
PowerPoint® Lecture Slides
prepared by Jason LaPres
Lone Star College - North Harris
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Four Types of Tissues
 Tissues are collections of cells and cell
products that perform specific, limited
functions
 Types of tissue
 Epithelial tissue
 Covers exposed surfaces
 Lines internal passageways
 Forms glands
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Four Types of Tissues
 Types of Tissue (cont’d)
 Connective tissue
 Fills internal spaces
 Supports other tissues
 Transports materials
 Stores energy
 Muscle tissue
 Specialized for contraction
 Skeletal muscle, heart muscle, and walls of hollow organs
 Neural tissue
 Carries electrical signals from one part of the body to another
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Epithelial Tissues
 Epithelia
 Layers of cells covering internal or external
surfaces
 Glands
 Structures that produce secretions
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Epithelial Tissues
 Characteristics of Epithelia
 Cellularity (cell junctions)
 Polarity (apical and basal surfaces)
 Attachment (basal lamina)
 Avascularity
 Regeneration
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Epithelial Tissues
Figure 4–1 The Polarity of Epithelial Cells.
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Epithelial Tissues
 Functions of Epithelial Tissue
 Provide physical protection
 Control permeability
 Provide sensation
 Produce specialized secretions (glandular
epithelium)
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Epithelial Tissues
 Specializations of Epithelial Cells
 Move fluids over the epithelium (protection)
 Move fluids through the epithelium (permeability)
 Produce secretions (protection and messengers)
 Free Surface and Attached Surface
 Polarity
 Apical surfaces:
– microvilli increase absorption or secretion
– cilia (ciliated epithelium) move fluid
 Basolateral surfaces
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Epithelial Tissues
 Maintaining the Integrity of Epithelia
 Intercellular connections
 Attachment to basal lamina
 Epithelial maintenance and repair
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Epithelial Tissues
 Intercellular Connections
 Support and communication
 CAMs (cell adhesion molecules):
– transmembrane proteins
 Intercellular cement:
– proteoglycans
 Hyaluronan (hyaluronic acid):
– glycosaminoglycans
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Epithelial Tissues
 Intercellular Connections
 Cell junctions
 Form bonds with other cells or extracellular material:
– occluding (tight) junctions
– gap junctions
– macula adherens (desmosomes)
Intercellular Connections
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Epithelial Tissues
 Cell Junctions
 Occluding (Tight) junctions—between two plasma
membranes
 Adhesion belt attaches to terminal web
 Prevents passage of water and solutes
 Isolates wastes in the lumen
 Gap junctions—allow rapid communication
 Held together by channel proteins (junctional proteins,
connexons)
 Allow ions to pass
 Coordinate contractions in heart muscle
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Epithelial Tissues
 Cell Junctions
 Macula adherens (Desmosomes)
 CAMs, dense areas, and intercellular
cement
 Spot desmosomes
– tie cells together
– allow bending and twisting
 Hemidesmosomes
– attach cells to the basal lamina
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Epithelial Tissues
 Attachment to the Basal Lamina
 Clear layer (Lamina lucida)
 Thin layer
 Secreted by epithelia
 Barrier to proteins
 Dense layer (Lamina densa)
 Thick fibers
 Produced by connective tissue
 Strength and filtration
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Epithelial Tissues
Figure 4–2 Intercellular Connections
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Epithelial Tissues
Figure 4–2 Intercellular Connections
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Epithelial Tissues
Figure 4–2 Intercellular Connections
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Epithelial Tissues
Figure 4–2 Intercellular Connections
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Epithelial Tissues
 Epithelial Maintenance and Repair
 Epithelia are replaced by division of
germinative cells (stem cells)
 Near basal lamina
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Classification of Epithelia
 Singular epithelium; plural epithelia
 Classes of Epithelia
 Based on shape
 Squamous epithelia: thin and flat
 Cuboidal epithelia: square shaped
 Columnar epithelia: tall, slender rectangles
 Based on layers
 Simple epithelium: single layer of cells
 Stratified epithelium: several layers of cells
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Classification of Epithelia
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Classification of Epithelia
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Classification of Epithelia
 Squamous Epithelia
 Simple squamous epithelium
 Absorption and diffusion
 Mesothelium
 Lines body cavities
 Endothelium
 Lines heart and blood vessels
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Classification of Epithelia
Figure 4–3 Squamous Epithelia.
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Classification of Epithelia
 Squamous Epithelia
 Stratified squamous epithelium
 Protects against attacks
 Keratin protein adds strength and water resistance
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Classification of Epithelia
Figure 4–3 Squamous Epithelia.
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Classification of Epithelia
 Cuboidal Epithelia
 Simple cuboidal epithelium
 Secretion and absorption
 Stratified cuboidal epithelia
 Sweat ducts and mammary ducts
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Classification of Epithelia
Figure 4–4 Cuboidal Epithelia.
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Classification of Epithelia
Figure 4–4 Cuboidal Epithelia.
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Classification of Epithelia
 Transitional Epithelium
 Tolerates repeated cycles of stretching and recoiling
and returns to its previous shape without damage
 Appearance changes as stretching occurs
 Situated in regions of the urinary system (e.g. urinary
bladder)
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Classification of Epithelia
Figure 4–4 Cuboidal Epithelia.
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Classification of Epithelia
 Columnar Epithelia
 Simple columnar epithelium
 Absorption and secretion
 Pseudostratified columnar epithelium
 Cilia movement
 Stratified columnar epithelium
 Protection
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Classification of Epithelia
Figure 4–5 Columnar Epithelia.
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Classification of Epithelia
Figure 4–5 Columnar Epithelia.
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Classification of Epithelia
Figure 4–5 Columnar Epithelia.
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Classification of Epithelia
 Glandular Epithelia
 Endocrine glands
 Release hormones:
– into interstitial fluid
– no ducts
 Exocrine glands
 Produce secretions:
– onto epithelial surfaces
– through ducts
Mechanisms of Glandular Secretion
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Classification of Epithelia
 Modes of Secretion in Glandular Epithelia
 Merocrine secretion
 Is produced in Golgi apparatus
 Is released by vesicles (exocytosis)
 For example, sweat glands
 Apocrine secretion
 Is produced in Golgi apparatus
 Is released by shedding cytoplasm
 For example, mammary gland
 Holocrine secretion
 Is released by cells bursting, killing gland cells
 Gland cells replaced by stem cells
 For example, sebaceous gland
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Classification of Epithelia
Figure 4–6 Modes of Glandular Secretion.
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Classification of Epithelia
Figure 4–6a Modes of Glandular Secretion.
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Classification of Epithelia
Figure 4–6b Modes of Glandular Secretion.
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Classification of Epithelia
Figure 4–6 Modes of Glandular Secretion.
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Classification of Epithelia
 Glandular Epithelia
 Types of secretions
 Serous glands:
– watery secretions
 Mucous glands:
– secrete mucins
 Mixed exocrine glands:
– both serous and mucous
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Classification of Epithelia
 Glandular Epithelia
 Gland structure
 Unicellular glands
– Mucous (goblet) cells are the only unicellular
exocrine glands:
» scattered among epithelia
» for example, in intestinal lining
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Classification of Epithelia
 Glandular Epithelia
 Gland structure
 Multicellular glands:
– structure of the duct:
» simple (undivided)
» compound (divided)
– shape of secretory portion of the gland:
» tubular (tube shaped)
» alveolar or acinar (blind pockets)
– relationship between ducts and glandular areas:
» branched (several secretory areas sharing one duct)
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Classification of Epithelia
Figure 4–7 A Structural Classification of Exocrine Glands.
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Classification of Epithelia
Figure 4–7 A Structural Classification of Exocrine Glands.
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Connective Tissues
 Connect epithelium to the rest of the body
(basal lamina)
 Provide structure (bone)
 Store energy (fat)
 Transport materials (blood)
 Have no contact with environment
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Connective Tissues
 Characteristics of Connective Tissues
 Specialized cells
 Solid extracellular protein fibers
 Fluid extracellular ground substance
 The extracellular components of connective
tissues (fibers and ground substance) make up
the matrix
 Majority of tissue volume
 Determines specialized function
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Connective Tissues
 Classification of Connective Tissues
 Connective tissue proper
 Connect and protect
 Fluid connective tissues
 Transport
 Supportive connective tissues
 Structural strength
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Connective Tissues
 Categories of Connective Tissue Proper
 Loose connective tissue
 More ground substance, less fibers
 For example, fat (adipose tissue)
 Dense connective tissue
 More fibers, less ground substance
 For example, tendons
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Connective Tissues
Nine Cell Types of Connective Tissue Proper
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Fibroblasts
Fibrocytes
Macrophages
Adipocytes
Mesenchymal cells
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Melanocytes
Mast cells
Lymphocytes
Microphages
Connective Tissues
 Connective Tissue Proper Cells
 Fibroblasts
 The most abundant cell type:
– found in all connective tissue proper
– secrete proteins and hyaluronan (cellular cement)
 Fibrocytes
 The second most abundant cell type:
– found in all connective tissue proper
– maintain the fibers of connective tissue proper
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Connective Tissues
 Connective Tissue Proper Cells
 Macrophages
 Large, amoeba-like cells of the immune system:
– eat pathogens and damaged cells
– fixed macrophages stay in tissue
– free macrophages migrate
 Adipocytes
 Fat cells:
– each cell stores a single, large fat droplet
 Mesenchymal Cells
 Stem cells that respond to injury or infection:
– differentiate into fibroblasts, macrophages, etc.
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Connective Tissues
 Connective Tissue Proper Cells
 Melanocytes
 Synthesize and store the brown pigment melanin
 Mast Cells
 Stimulate inflammation after injury or infection:
– release histamine and heparin
 Basophils are leukocytes (white blood cells) that
also contain histamine and heparin
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Connective Tissues
 Connective Tissue Proper Cells
 Lymphocytes
 Specialized immune cells in lymphoid (lymphatic) system:
– For example, lymphocytes may develop into plasma cells
(plasmocytes) that produce antibodies
 Microphages
 Phagocytic blood cells:
– respond to signals from macrophages and mast cells
– For example, neutrophils and eosinophils
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Connective Tissues
 Connective Tissue Fibers
 Collagen fibers
 Most common fibers in connective tissue proper
 Long, straight, and unbranched
 Strong and flexible
 Resist force in one direction
 For example, tendons and ligaments
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Connective Tissues
 Connective Tissue Fibers
 Reticular fibers
 Network of interwoven fibers (stroma)
 Strong and flexible
 Resist force in many directions
 Stabilize functional cells (parenchyma) and
structures
 For example, sheaths around organs
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Connective Tissues
 Connective Tissue Fibers
 Elastic fibers
 Contain elastin
 Branched and wavy
 Return to original length after stretching
 For example, elastic ligaments of vertebrae
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Connective Tissues
 Ground Substance
 Is clear, colorless, and viscous
 Fills spaces between cells and slows
pathogen movement
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Connective Tissues
Figure 4–8 The Cells and Fibers of Connective Tissue Proper.
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Connective Tissues
Figure 4–8 The Cells and Fibers of Connective Tissue Proper.
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Connective Tissues
 Embryonic Connective Tissues
 Are not found in adults
 Mesenchyme (embryonic stem cells)
 The first connective tissue in embryos
 Mucous connective tissue
 Loose embryonic connective tissue
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Connective Tissues
Figure 4–9 Connective Tissues in Embryos.
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Connective Tissues
Figure 4–9 Connective Tissues in Embryos.
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Connective Tissues
 Loose Connective Tissues
 The packing materials of the body
 Three types in adults
 Areolar
 Adipose
 Reticular
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Connective Tissues
 Areolar Tissue
 Least specialized
 Open framework
 Viscous ground substance
 Elastic fibers
 Holds blood vessels and capillary beds
 For example, under skin (subcutaneous layer)
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Connective Tissues
 Adipose Tissue
 Contains many adipocytes (fat cells)
 Types of adipose tissue
 White fat:
–
–
–
–
most common
stores fat
absorbs shocks
slows heat loss (insulation)
 Brown fat:
– more vascularized
– adipocytes have many mitochondria
– when stimulated by nervous system, fat break down
accelerates, releasing energy
– absorbs energy from surrounding tissues
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Connective Tissues
 Adipose Tissue
 Adipose cells
 Adipocytes in adults do not divide:
– expand to store fat
– shrink as fats are released
 Mesenchymal cells divide and
differentiate:
– to produce more fat cells
– when more storage is needed
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Connective Tissues
 Reticular Tissue
 Provides support
 Complex, three-dimensional network
 Supportive fibers (stroma)
 Support functional cells (parenchyma)
 Reticular organs
 Spleen, liver, lymph nodes, and bone marrow
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Connective Tissues
Figure 4–10 Adipose and Reticular Tissues.
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Connective Tissues
Figure 4–10 Adipose and Reticular Tissues.
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Connective Tissues
 Dense Connective Tissues
 Connective tissues proper, tightly packed with
high numbers of collagen or elastic fibers
 Dense regular connective tissue
 Dense irregular connective tissue
 Elastic tissue
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Connective Tissues
 Dense Regular Connective Tissue
 Tightly packed, parallel collagen fibers
 Tendons attach muscles to bones
 Ligaments connect bone to bone and stabilize
organs
 Aponeuroses attach in sheets to large, flat
muscles
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Connective Tissues
Figure 4–11 Dense Connective Tissues.
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Connective Tissues
 Dense Irregular Connective Tissue
 Interwoven networks of collagen fibers
 Layered in skin
 Around cartilages (perichondrium)
 Around bones (periosteum)
 Form capsules around some organs (e.g., liver,
kidneys)
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Connective Tissues
Figure 4–11 Dense Connective Tissues.
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Connective Tissues
 Elastic Tissue
 Made of elastic fibers
 For example, elastic ligaments of spinal vertebrae
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Connective Tissues
Figure 4–11 Dense Connective Tissues.
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Connective Tissues
 Fluid Connective Tissues
 Blood and lymph
 Watery matrix of dissolved proteins
 Carry specific cell types (formed elements)
 Formed elements of blood
– red blood cells (erythrocytes)
– white blood cells (leukocytes)
– platelets
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Connective Tissues
 Fluid Elements of Fluid Connective
Tissues
 Extracellular
 Plasma
 Interstitial fluid
 Lymph
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Connective Tissues
Figure 4–12 Formed Elements of the Blood.
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Connective Tissues
 Lymph
 Extracellular fluid
 Collected from interstitial space
 Monitored by immune system
 Transported by lymphoid (lymphatic) system
 Returned to venous system
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Connective Tissues
 Fluid Tissue Transport Systems
 Cardiovascular system (blood)
 Arteries
 Capillaries
 Veins
 Lymphoid (lymphatic) system (lymph)
 Lymphatic vessels
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Supportive Connective Tissues
 Support soft tissues and body weight
 Cartilage
 Gel-type ground substance
 For shock absorption and protection
 Bone
 Calcified (made rigid by calcium salts, minerals)
 For weight support
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Supportive Connective Tissues
 Cartilage Matrix
 Proteoglycans derived from chondroitin sulfates
 Ground substance proteins
 Chondrocytes (cartilage cells) surrounded by
lacunae (chambers)
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Supportive Connective Tissues
 Cartilage Structure
 No blood vessels:
 Chondrocytes produce antiangiogenesis factor
 Perichondrium:
 Outer, fibrous layer (for strength)
 Inner, cellular layer (for growth and maintenance)
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Supportive Connective Tissues
Figure 4–13 The Growth of Cartilage.
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Supportive Connective Tissues
Figure 4–13 The Growth of Cartilage.
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Supportive Connective Tissues
 Types of Cartilage
 Hyaline cartilage
 Stiff, flexible support
 Reduces friction between bones
 Found in synovial joints, rib tips, sternum, and trachea
 Elastic cartilage
 Supportive but bends easily
 Found in external ear and epiglottis
 Fibrous cartilage (fibrocartilage)
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Limits movement
Prevents bone-to-bone contact
Pads knee joints
Found between pubic bones and intervertebral discs
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Supportive Connective Tissues
Figure 4–14 The Types of Cartilage.
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Supportive Connective Tissues
Figure 4–14 The Types of Cartilage.
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Supportive Connective Tissues
Figure 4–14 The Types of Cartilage.
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Supportive Connective Tissues
 Bone or osseous tissue
 Strong (calcified: calcium salt deposits)
 Resists shattering (flexible collagen fibers)
 Bone cells or osteocytes
 Arranged around central canals within matrix
 Small channels through matrix (canaliculi) access
blood supply
 Periosteum
 Covers bone surfaces
 Fibrous layer
 Cellular layer
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Supportive Connective Tissues
Figure 4–15 Bone.
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Supportive Connective Tissues
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Membranes
 Membranes
 Are physical barriers
 That line or cover portions of the body
 Consist of
 An epithelium
 Supported by connective tissues
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Membranes
 Four Types of Membranes
 Mucous membranes
 Serous membranes
 Cutaneous membrane
 Synovial membranes
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Membranes
 Mucous membranes (mucosae)
 Line passageways that have external connections
 In digestive, respiratory, urinary, and reproductive
tracts
 Epithelial surfaces must be moist
 To reduce friction
 To facilitate absorption and excretion
 Lamina propria
 Is areolar tissue
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Membranes
 Serous Membranes
 Line cavities not open to the outside
 Are thin but strong
 Have fluid transudate to reduce friction
 Have a parietal portion covering the cavity
 Have a visceral portion (serosa) covering the
organs
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Membranes
 Three Serous Membranes
 Pleura:
 Lines pleural cavities
 Covers lungs
 Peritoneum:
 Lines peritoneal cavity
 Covers abdominal organs
 Pericardium:
 Lines pericardial cavity
 Covers heart
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Membranes
Figure 4–16 a,b Membranes.
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Membranes
 Cutaneous membrane
 Is skin, surface of the body
 Thick, waterproof, and dry
 Synovial membranes
 Line moving, articulating joint cavities
 Produce synovial fluid (lubricant)
 Protect the ends of bones
 Lack a true epithelium
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Membranes
Figure 4–16 c,d Membranes.
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Internal Framework of the Body
 Connective tissues
 Provide strength and stability
 Maintain positions of internal organs
 Provide routes for blood vessels, lymphatic vessels,
and nerves
 Fasciae
 Singular form is fascia
 The body’s framework of connective tissue
 Layers and wrappings that support or surround
organs
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Internal Framework of the Body
 Three Types of Fasciae
 Superficial fascia
 Deep fascia
 Subserous fascia
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Internal Framework of the Body
Figure 4–17 The Fasciae.
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Muscle Tissue
 Specialized for contraction
 Produces all body movement
 Three types of muscle tissue
 Skeletal muscle
 Large body muscles responsible for movement
 Cardiac muscle
 Found only in the heart
 Smooth muscle
 Found in walls of hollow, contracting organs (blood vessels;
urinary bladder; respiratory, digestive, and reproductive
tracts)
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Muscle Tissue
 Classification of Muscle Cells
 Striated (muscle cells with a banded appearance)
 Nonstriated (not banded; smooth)
 Muscle cells can have a single nucleus
 Muscle cells can be multinucleate
 Muscle cells can be controlled voluntarily
(consciously)
 Muscle cells can be controlled involuntarily
(automatically)
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Muscle Tissue
 Skeletal Muscle Cells
 Are long and thin
 Are usually called muscle fibers
 Do not divide
 New fibers are produced by stem cells
(myosatellite cells)
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Muscle Tissue
Figure 4–18 Muscle Tissue.
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Muscle Tissue
 Cardiac muscle cells
 Are called cardiocytes
 Form branching networks connected at
intercalated discs
 Are regulated by pacemaker cells
 Smooth muscle cells
 Are small and tapered
 Can divide and regenerate
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Muscle Tissue
Figure 4–18 Muscle Tissue.
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Muscle Tissue
Figure 4–18 Muscle Tissue.
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Neural Tissue
 Also called nervous or nerve tissue
 Specialized for conducting electrical impulses
 Rapidly senses internal or external
environment
 Processes information and controls
responses
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Neural Tissue
 Neural tissue is concentrated in the
central nervous system
 Brain
 Spinal cord
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Neural Tissue
 Two Kinds of Neural Cells
 Neurons
 Nerve cells
 Perform electrical communication
 Neuroglia
 Supporting cells
 Repair and supply nutrients to neurons
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Neural Tissue
 Cell Parts of a Neuron
 Cell body
 Contains the nucleus and nucleolus
 Dendrites
 Short branches extending from the cell body
 Receive incoming signals
 Axon (nerve fiber)
 Long, thin extension of the cell body
 Carries outgoing electrical signals to their destination
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Neural Tissue
Figure 4–19 Neural Tissue.
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Tissue Injuries and Repair
 Tissues respond to injuries to maintain
homeostasis
 Cells restore homeostasis with two processes
 Inflammation
 Regeneration
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Tissue Injuries and Repair
 Inflammation = inflammatory response
 The tissue’s first response to injury
 Signs and symptoms of the inflammatory
response include
 Swelling
 Redness
 Heat
 Pain
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Tissue Injuries and Repair
 Inflammatory Response
 Can be triggered by
 Trauma (physical injury)
 Infection (the presence of harmful pathogens)
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Tissue Injuries and Repair
 The Process of Inflammation
 Damaged cells release chemical signals into the
surrounding interstitial fluid
 Prostaglandins
 Proteins
 Potassium ions
 As cells break down
 Lysosomes release enzymes
 That destroy the injured cell
 And attack surrounding tissues
 Tissue destruction is called necrosis
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Tissue Injuries and Repair
 The Process of Inflammation
 Necrotic tissues and cellular debris (pus) accumulate
in the wound
 Abscess:
– pus trapped in an enclosed area
 Injury stimulates mast cells to release
 Histamine
 Heparin
 Prostaglandins
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Tissue Injuries and Repair
 The Process of Inflammation
 Dilation of blood vessels
 Increases blood circulation in the area
 Causes warmth and redness
 Brings more nutrients and oxygen to the area
 Removes wastes
 Plasma diffuses into the area
 Causing swelling and pain
 Phagocytic white blood cells
 Clean up the area
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Tissue Injuries and Repair
Figure 4–20 An Introduction to Inflammation.
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Tissue Injuries and Repair
 Regeneration
 When the injury or infection is cleaned up
 Healing (regeneration) begins
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Tissue Injuries and Repair
 The Process of Regeneration
 Fibrocytes move into necrotic area
 Lay down collagen fibers
 To bind the area together (scar tissue)
 New cells migrate into area
 Or are produced by mesenchymal stem cells
 Not all tissues can regenerate
 Epithelia and connective tissues regenerate well
 Cardiac cells and neurons do not regenerate (or regenerate
poorly)
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