1. Tissues
Although we have trillions of cells there are only about 200 different cell types
Remember – cell types combine to form tissues

2. Overview of Tissue Science
Histology (histos = tissue)
The study of tissues
Four Basic Tissue Types
Epithelial
Connective
Muscular
Neural (neuro = nerve)
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3. Overview of Tissue Science
Key Note
Tissues are collections of cells and extracellular material that perform a specific but limited range of functions.The four tissue types, in varying combinations, form all of the structures of the human body.
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4. Overview of Tissue Science
An Orientation to the Tissues of the Body
Figure 4-1

5. Epithelial Tissue Epithelium (singular form)
An avascular (a = without + vas = vessel) layer of cells that forms a barrier that covers internal or external surfaces
Glands
Secretory structures derived from epithelia
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6. Epithelial Tissue Characteristics of Epithelia Cells closely packed
other tissue types have cells often separated by extracellular materials
Apical (free) cells exposed to external or internal surface
Cells attached to basement membrane
The basement membrane attaches the epithelial tissue to connective tissue
Lack blood vessels (avascular)
Cells continually replaced – remember how many pounds of skin cells you lose?
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7. Epithelial Tissue Functions of Epithelia
Physical protection – protects against abrasion, dehydration, and destruction by physical or biological agents
Permeability control – anything going into or out of the body must cross epithelium
Sensation trigger – receptors can send information to the nervous system
Specialized secretions – secretions produced by gland cells (glandular epithelium)

8. Epithelial Tissue Two Classes of Glandular Secretion
Exocrine (krinein = to secrete) secretion—Secretion onto a body surface
Endocrine —Secretion (of hormones) into neighboring tissues and blood
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9. Epithelial Tissue Intercellular Connections
Cell adhesion molecules (CAMs): Special proteins that bind with a thin layer of intercellular cement. Their binding forms special attachment sites know as cell junctions
Cell junctions
Tight junctions – lipid layers of adjacent cell membranes bound together by interlocking cell proteins
Gap junctions – two cells held together by embedded channel proteins which form a narrow passageway in which cells can communicate
Desmosomes (desmos = ligament + soma = body) – durable interconnections that allow twisting, bending, stretching, or compression

10. Epithelial Tissue
Intercellular
Connections
Figure 4-2

11. Epithelial Tissue
The Epithelial Surface – apical surface often have specialized structures that distinguish them from other cell types
Microvilli
Abundant on transport cells
Dramatically increase surface area (20x more than cells without)
Found in intestinal lining, kidney tubules (where absorption and excretion take place)
Cilia (a cell with cilia has about 250)
Beat in coordinated fashion Move fluid along surface
Found in airways, oviduct

12. The Surfaces of Epithelial Cells
Epithelial Tissue
The Surfaces of Epithelial Cells
Figure 4-3

13. Epithelial Tissue
The Basement Membrane – firmly connect epithelial cells to the rest of the body
Noncellular meshwork anchors basal cells – made of protein fibers
Underlies all epithelia
Hemidesmosomes attach basal cells
Resists passage of large molecules
Strengthens against distortion
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14. Epithelial Tissue Epithelial Renewal and Repair
Exposure shortens cell life
Epithelium needs constant repair and replacement
Epithelial stem cells undergo mitosis – unspecialized cells found in the deepest layer of the epithelium near the basement membrane
Epithelium grows up from base
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15. Epithelial Tissue
Classifying Epithelia – classified by number of layers and cell shape
Number of layers
Simple (one cell thick) – only found inside the body since the thickness is fragile and can not offer much protection (ventral body cavities, heart chambers and blood vessels)
Stratified (multiple cells thick) – more protection since it has several layers above the basement membrane and found in areas subject to mechanical or chemical stress (surface linings of the skin, mouth and anus)
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16. Epithelial Tissue Cell shape Squamous (flat) squama = plate or scale
Nuclei occupies the thickest portion of the cell
Looks like fried eggs laid side by side
Cuboidal (cubic)
Nuclei lie near the center of the cell
Columnar (tall columns)
Nuclei crowded into a narrow band close to the basement
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17. Epithelial Tissue
Table 4-1

18. Name the cell shape

19. Name the cell shape

20. Name the cell shape

21. Simple Squamous Epithelium
Epithelial Tissue
Simple Squamous Epithelium
Figure 4-4(a)

22. Simple Cuboidal Epithelium
Epithelial Tissue
Simple Cuboidal Epithelium
Figure 4-4(b)

23. Simple Columnar Epithelium
Epithelial Tissue
Simple Columnar Epithelium
Figure 4-4(c)

24. Pseudostratified Ciliated Columnar
Epithelial Tissue
Pseudostratified Ciliated Columnar
Figure 4-5(a)

25. Transitional Epithelium
Epithelial Tissue
Transitional Epithelium
Figure 4-5(b)

26. Stratified Squamous Epithelium
Epithelial Tissue
Stratified Squamous Epithelium
Figure 4-5(c)

27. Epithelial Tissue Glandular Epithelia Three secretion mechanisms
Merocrine (meros = part)
Exocytosis of vesicles – most common
Mucus – effective lubricant, protective barrier, and sticky trap for foreign particles
Apocrine (apro = off)
Release of apical cytoplasm (outermost part) because they become packed with secretory vesicles
Milk production from mammary glands
Holocrine (holos = entire)
Burst of entire contents
Hair follicle glands produce an oily hair coating
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28. Mechanisms of Glandular Secretion
Epithelial Tissue
Mechanisms of Glandular Secretion
PLAY
Glandular Secretions
Figure 4-6

29. Connective Tissues Connective Tissues Components
Specialized cells
Extracellular matrix
Protein fibers
Fluid phase (the ground substance)
Both the protein fibers and ground substance form the matrix
The extracellular matrix accounts for most of the volume of the connective tissue
Most diverse tissue in the body!
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30. Connective Tissues Functions
Structural framework - establish a bony structural framework
Fluid and solute transport – moves dissolved materials from one part of the body to another
Physical protection - protects delicate organs
Tissue interconnection- surrounds and interconnects other tissue types
Fat storage – fats stored in fat (adipose) cells
Microorganism defense – specialized cell that respond to invasions through cell-to-cell interaction
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31. What are the functions of epithelia?
Science Starter
What are the functions of epithelia?

32. Connective Tissues Classifying Connective Tissues
Connective tissue proper
Many types of cell with a syrupy ground substance
Examples: tissues under the skin, fatty tissues, ligament, and tendons
Fluid connective tissues
Cells in a watery ground substance
Examples: blood and lymph
Supporting connective tissues
Less diverse cells and a matrix of dense ground substance and closely packed fibers
Examples: cartilage and bone
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33. Major Types of Connective Tissue
Connective Tissues
Major Types of Connective Tissue
Figure 4-7

34. Connective Tissues Connective tissue proper
Contains varied cell populations and fiber types surrounded by a syrupy ground substance
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35. Connective Tissues Connective Tissue Proper
Resident and migrating cells
Fibroblasts – the most abundant cells and are responsible for producing and maintaining connective tissues and ground substance
Macrophages – engulf (phagocytize) damaged cells or pathogens
They can also release chemicals that mobilize the immune system
Fat cells (adipose) – permanent residents
Has such a large droplet of lipid that the nucleus is squeezed to one side of the cell
Mast cells – small, mobile connective tissue cells often found near blood vessels
Filled with chemical that are released to start the body’s defense system
Other white cells – please read pg 100

36. Connective Tissues Connective Tissue Fibers (three types)
Protein fibers
Collagen fibers – most common
Long, straight and unbranched
Provides toughness
Reticular fibers – (reticulum = network) least common
Thinner than collagen
Commonly form a branching interwoven framework
Supports cells – various organs
Elastic fibers – contain protein elastin
Provides resilience – stretched and wavy and will return to original length
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37. Cells and Fibers of Connective Tissue Proper
Connective Tissues
Cells and Fibers of Connective Tissue Proper
Figure 4-8

38. Connective Tissues Connective Tissue Proper - Three types
Loose connective tissue – least specialize connective tissue
Forms the layer that separates the skin from the underlying muscle
Example: beneath dermis of skin
Adipose tissue (fat) is a loose connective tissue that has become dominated by fat cells
Provides padding, shock absorption and insulation
Also provides energy storage
Example: “love handles”
3. Dense connective tissue – mostly collagen fibers
Examples: dermis, tendons, ligaments
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39. Loose Connective Tissue
Connective Tissues
Loose Connective Tissue
Figure 4-9(a)

40. Connective Tissues
Adipose Tissue
Figure 4-9(b)

41. Dense Connective Tissues
Figure 4-9(c)

42. Connective Tissues Fluid Connective Tissues
Cells + a liquid ground substance
Blood
RBCs, WBCs, platelets + plasma
Lymph
Lymphocytes + lymph fluid
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43. Connective Tissues Supporting Connective Tissue Support the body
Bone (osseous tissue)
Osteocytes + collagen + calcium salts
Cartilage
Chondrocytes + firm gel
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44. Connective Tissues Bone (Osseous Tissue)
Matrix provides unique properties
Collagen fibers resist bending
Calcium salts resist compression
Diffusion through canaliculi nourishes osteocytes
Covered by periosteum
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45. Connective Tissues
Bone
Figure 4-11

46. Connective Tissues Supporting Connective Tissue Cartilage Avascular
Covered by a fibrous perichondrium
Three types of cartilage
Hyaline cartilage
Elastic cartilage
Fibrocartilage
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47. Connective Tissues
Hyaline Cartilage
Figure 4-10(a)

48. Connective Tissues
Elastic Cartilage
Figure 4-10(b)

49. Connective Tissues
Fibrocartilage
Figure 4-10(c)

50. Membranes Properties of Membranes Barrier or interface
Cover and protect
An epithelium plus connective tissue
Four types of membranes
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51. Membranes Types of Membranes Mucous Serous
Lines cavities that connect to exterior
Mucus moistens surface
Examples: oral cavity, airways
Serous
Line internal cavities
Watery fluid moistens surface
Example: peritoneal membrane
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52. Membranes Types of Membranes (continued) Cutaneous Synovial
Covers body surface
Dry surface waterproofs the body
Example: the skin
Synovial
Lines joints
Secretes slippery synovial fluid
Lubricates joints
Examples: knee, elbow
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53. Membranes
Membranes
Figure 4-12

54. Muscle Tissue

55. Muscle Tissue Properties of Muscle Tissue Capable of contraction
Actin filaments
Myosin filaments
Three types of muscle tissue
Skeletal muscle
Cardiac muscle
Smooth muscle
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56. Muscle Tissue Skeletal Muscle Tissue Contains elongated cells (fibers)
Fibers tied together by loose connective tissue
Possesses microscopic striations
Contains many nuclei
Controlled by voluntary nervous system
Moves and stabilizes the skeleton
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57. Skeletal Muscle Tissue
Figure 4-13(a)

58. Muscle Tissue Cardiac Muscle Tissue Only in heart
Short, branched fibers
Single nucleus
Striated
Involuntary contraction
Blood circulation
Blood pressure
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59. Muscle Tissue
Cardiac Muscle Tissue
Figure 4-13(b)

60. Muscle Tissue Smooth Muscle Tissue Short, tapering cells No striations
Involuntary contraction
Blood vessels
Urinary bladder
Digestive organs
Uterus
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61. Muscle Tissue
Smooth Muscle Tissue
Figure 4-13(c)

62. Neural Tissue

63. Neural Tissue Properties of Neural Tissue Conduct electrical impulses
Transfer, process, and store information
Comprises neurons and neuroglia
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64. Neural Tissue Neurons Dendrites Cell body Axon (nerve fibers)
Information entry
Cell body
Information integration
Axon (nerve fibers)
Information transmission
Synaptic terminals
Information transfer
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65. Neural Tissue Neuroglia Several types of neuroglia
Provide physical support
Maintain extracellular chemistry
Supply nutrients
Defend against infection
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66. Neural Tissue
Neural Tissue
Figure 4-14

67. Tissue Injuries and Repair
An injury harms multiple tissues simultaneously
Tissues make coordinated response
Responses restore homeostasis
Two response types
Inflammation
Regeneration
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68. Tissue Injuries and Repair
Inflammation
Isolation of injured area
Cleanup of damaged tissue
Four signs of inflammation
Warmth
Redness
Swelling
Pain
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69. Tissue Injuries and Repair
Regeneration
Repair/replacement of damaged tissue
Restoration of tissue function
Scar tissue from fibroblast activity
Complete, partial, or no regeneration
Tissue fibrosis common outcome
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70. Tissues and Aging Tissues Change with Age Healing slows
Epithelia become thinner
Connective tissues become more fragile
Bones weaken, become brittle
Neuron and muscle fiber losses accumulate
Lifestyle interventions slow decline
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71. Tissues and Aging Aging and Cancer Incidence 25% develop cancer
Cancer risk rises with age
After heart disease, cancer second leading cause of death
Smoking linked to 40% of cancers
75% caused by environment
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