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HISTOLOGY:Study of Tissues
Four Types?Two components of tissue?
4 Types
• Epithelial tissue • Connective tissue• Muscular tissue• Nervous tissue
2 Components of Tissue
• Cells• Extracellular matrix
Focus: Epithelium
LOCATION OF EPITHELIUM:
• Lining of body cavities• Lining of digestive tract• Lining of heart and blood vessels• Lining of gland ducts• Skin
FUNCTION OF EPITHELIUM
• Protection• Absorption – one side of the tissue is
always in contact w/ external opening (maintains homeostasis)
• Secretions – hormones, mucus, enzymes
How epithelial tissues are classified:
SHAPE:• Squamous – thin,
think “squished”• Cuboidal – cubed
shape• Columnar –
rectangular think “column”
LAYERS:• Simple = single
layer• Stratified = more
than one layer
Types of epithelium
• Simple squamous• Simple cuboidal• Simple columnar• Stratified cuboidal
“special” types of epithelium
• Pseudostratified cuboidal or columnar – “false layers”, looks like there is more than one layer b/c nucleus alignment in cells
• Transitional epithelium – tissues that adjusts to various tensions (think bladder)
Anat/physiology October 9, 2006
1. Turn in epithelium packet w/ drawings attached
2. POP QUIZ on identifying types of Epithelial tissue
3. Test on Ch 5 – epithelium and connective tissue on Friday!!
Pop quiz #1
Pop quiz #2
Pop quiz #3
Pop quiz #4
Pop quiz #5
Pop quiz #6
Pop quiz #7
Pop quiz #8
Pop quiz #9
Pop quiz #10
Connective Tissue
3 TYPES•Connective tissue proper•Fluid connective tissue
•Supporting connective tissue
Connective tissue proper
• Many types of cells in a syrupy ground substance
• Ex of where found = tendons, surrounding organs, ligaments, surrounds respiratory passageway
• Two types of connective tissue– loose connective– dense connective
Connective tissue proper: CELLS
• Fibroblasts (slender and star-shaped cells)
Connective tissue proper: CELLS
• Adipose cells (stores fat)
Connective tissue proper: CELLS
• Mast Cells
Connective tissue proper: CELLS
• Plasma Cells
Connective tissue proper: FIBERS
• Collagen – Found in tendons and ligaments
Connective tissue proper: FIBERS
• Elastic Fibers – Rare but important– Found between vertebrae and aorta
Connective tissue proper: FIBERS
• Reticular Fibers– holds blood vessels to surface of organs
Marfan Syndrome
• Genetic disorder that effects the production of connective tissue– Effects just about every system in the body– Especially dangerous for blood vessels:
collapse and/or bursting of aorta
Connective tissue proper: GROUND SUBSTANCE
• Loose (aka areolar)• Dense• Adipose
Connective tissue proper: GROUND SUBSTANCE
• Loose connective (areolar)– “packing material”– Fills spaces between organs, supports
epithelium– Forms a layer that separates skin from deeper
structures like muscles– Highly vascularized, shots given in this tissue for quick transport of drugs
Connective tissue proper: GROUND SUBSTANCE
• Adipose– Cushioning and energy storage– Found under skin of groin, buttocks, breasts
and abdomen– Also fills bony sockets behind eyes– dominant connective tissue of thoracic and
abdominopelvic cavities
Connective tissue proper: GROUND SUBSTANCE
• Dense Connective– Tightly packed collagen fibers make this
tissue really strong– Found in tendons, ligaments, surrounding
muscles, and surrounds blood vessels and respiratory passageways
Fluid Connective Tissue
• Blood and Lymph
Supporting Connective Tissue
• Cartilage – ground substance surrounding chondrocytes (cartilage cells) called matrix, matrix is firm gel
• Bone – matrix is rigid because of calcification and contains osteocytes (bone cells) (more next chapter)
Supporting Connective Tissue: CARTILAGE
• Hyaline – found between ribs and the sternum, along passageway of respiratory tract, opposing surfaces of bones with many joints (elbow and knee)
• Elastic – outer ear, epiglottis and tip of nose
• Fibrocartilage – between vertebrae, pubic bones of pelvis, some joints and tendons
Cartilage and Knee Injuries
• Cartilages are avascular so they heal poorly
• New research in growing and replacing cartilage has showed promise in dog studies
Fig. 5.19b
Fig. 5.19c
Last Two Types
• Epithelial Tissue• Connective• Muscle• Nervous
Muscle
• Smooth• Skeletal (striated)• Cardiac
Smooth
• Lines organs such as those of the digestive tract
Fig. 5.22b
Skeletal
• Voluntary control – able to contract and create movement
• Multi-nucleated and visible striations
Fig. 5.21b
Nervous tissue
• Makes up tissue of Central and Periferal Nervous systems
Fig. 5.24b
Skeletal System
Instructions
1 2 3 4 5
6 7 8 9 10
1 2
Team Score
1. The outer covering of the diaphysis of the long bone, made from fibrous tissue is called the
Who is the strongest link?
EPIPHYSIS DIAPHYSIS PERIOSTEUM ARTICULAR
CARTILAGE
Periosteum is the connective tissue that covers long bones and is thicker in children than adults.
Next Question
PERIOSTEUM
1. Compact bone is made up of _______ cemented together.
Who is the strongest link?
Osteons Osteocytes Perforating
canals
Trabiculae
Next Question
OSTEONS
The cells that tear down and remodel bone are the ____________.
Who is the strongest link?
Marophages Osteocytes Osteoblasts Osteoclasts
Osteoclasts release a strong acid that breaks down bone.
Next Question
OSTEOCLASTS
Inside the epiphyses of each long bone, mostly _______ can be found.
Who is the strongest link?
Yellow
Marrow
Cartilage Compact
bone
Spongy
bone
Next Question
Spongy
Bone
1. Which bones do not belong to the axial skeleton?
Who is the strongest link?
Hip
Bone
Skull Ribs Vertebrae
Only the coccyx bone of pelvic region belongs with the axial skeleton.
Next Question
HIP
BONES
1. How many bones are there total in the adult human body?
Who is the strongest link?
450 280 206 180
Children have approx 450 cartilaginous bones that develop and fuse into 206 adult bones.
Next Question
206
1. The medullary cavity in the diaphysis of an adult bone would contain _______.
Who is the strongest link?
Organic
salts
Blood
vessels
Spongy
bone
Compact
bone
Explanation of Answer Goes Here
Next Question
BLOODVESSELS
1. The part of the bone that articular cartilage covers directly is the ________.
Who is the strongest link?
Endosteum Periosteum Diaphysis Epiphysis
Next Question
EPIPHYSIS
The junction between the diaphysis and epiphysis in growing bone is called the
Who is the strongest link?
Epiphyseal
plate
Endosteum Periosteum Articular
plate
Contains dividing cells that cause bone elongation
Next Question
EPIPHYSEAL
PLATE
1. The broad, flat bones of the skull are ____________.
Who is the strongest link?
Cartilaginous Endochondral Spongy Intramembranous
Next Question
INTRAMEMBRANOUS
How to play The Strongest Link1. Divide the group up into two teams. Assign one group to be Team 1, the
other will be Team 2. Have each team choose a spokesperson.
2. Begin the PowerPoint and introduce the characters.
3. Have the spokesperson from one team choose a question.
4. Click on that number. Read the question and allow the spokesperson to confer with teammates to come up with an answer. Have them state the answer orally, then click on the arrow button.
5. Read the answer displayed on the next slide. Click on the button to move back to the board.
6. If the answer given was correct, type the correct number of points in the score box.
7. Continue to play until all questions have been answered. The team with the most points wins.
Let’s Play!
MUSCLES!
Instructions
1 2 3 4 5
6 7 8 9 10
1 2
Team Score
1. Most of the bones of the body are ____________.
Who is the strongest link?
Spongy bone
Intra membranous Endochondral Cartilaginous
Explanation of the Answer Goes Here
Next Question
ENDOCHONDRAL
1. Which of the following is an example of an irregular bone?
Who is the strongest link?
Rib Humerus ClavicleVertebrae
Next Question
VERTEBRAE
1. Which bone cell works to rebuild bone tissue?
Who is the strongest link?
Osteons Osteocytes Osteoclasts Osteoblasts
Osteoblasts lay down inorganic salts which help to form compact bone.
Next Question
Osteoblasts
1. In order to create movement, bones function as _______.
Who is the strongest link?
Fulcrums Pulleys Machines Levers
Next Question
LEVERS
1. Which component of the bone is responsible for creating blood cells?
Who is the strongest link?
Red
Marrow
Yellow
Marrow
Spongy
Bone
Compact
Bone
Red marrow contains premature blood cells that can be stimulated to mature when more blood cells are needed.
Next Question
RED
MARROW
A small bundle of muscle fibers
Who is the strongest link?
Fascia Myofibril Fascicle Epimysium
Next Question
Fascicle
Network of connective tissue that extends throughout the muscular system
Who is the strongest link?
Endomysium PerimysiumEpimysium Sarcolemma
Connective tissue that covers the muscle and is continuous with fascia
Next Question
EPIMYSIUM
Layer of connective tissue that surrounds a skeletal muscle
Who is the strongest link?
Perimysium Endomysium Epimysium Fascia
Next Question
FASCIA
Layer of connective tissue that separates a muscle into small bundles called fascicles
Who is the strongest link?
Perimysium Endomysium Epimysium Sarcolemma
Next Question
PERIMYSIUM
Cellular organelle in muscle fiber corresponding to the endoplasmic reticulum
Who is the strongest link?
Sarcoplasm Sarcolemma Sarcomere Sarcoplasmic Reticulum
Next Question
SARCOPLASMIC
RETICULUM
How to play The Strongest Link1. Divide the group up into two teams. Assign one group to be Team 1, the
other will be Team 2. Have each team choose a spokesperson.
2. Begin the PowerPoint and introduce the characters.
3. Have the spokesperson from one team choose a question.
4. Click on that number. Read the question and allow the spokesperson to confer with teammates to come up with an answer. Have them state the answer orally, then click on the arrow button.
5. Read the answer displayed on the next slide. Click on the button to move back to the board.
6. If the answer given was correct, type the correct number of points in the score box.
7. Continue to play until all questions have been answered. The team with the most points wins.
Let’s Play!