Chapter 6

Question 1

Cartilage

Answer 1

Not Bone

Question 2

Skeletal Cartilage

Answer 2

Contains water, lends resiliency
Contains no blood vessels or nerves
Perichondrium surrounds
-Dense connective tissue girdle
–Contains blood vessels for nutrient delivery
All contain chondrocytes in lacunae and extracellular matrix

Question 3

Skeletal Cartilage (3 Types)

Answer 3

Hyaline Cartilage
Elastic Cartilage
Fibrocartilage

Question 4

Hyaline Cartilage

Answer 4

• Toughest
• Most abundant type
• Provides support/flexibility
• Collagen fibers only
• Articular and costal

Question 5

Elastic Cartilage

Answer 5

• External Ear and epiglottis

- Similar to hyaline cartilage, more elastic fibers

Question 6

Fibrocartilage

Answer 6

• Thick collagen fibers- has great tensile strength

- Intervertebral discs

Question 7

Growth of Cartilage (3 Types)

Answer 7

Appositional Growth
Interstitial Growth
Calcification of Cartilage

Question 8

Appositional Growth

Answer 8

External face of existing cartilage

-everything grows out

Question 9

Interstitial Growth

Answer 9

Expanding cartilage from within

Question 10

Calcification of Cartilage

Answer 10

• Occurs during normal bone growth
• Calcified cartilage is NOT bone
• Growth Plates close

Question 11

Classification of Bones (2 Groups)

Answer 11

Location- Axial, Appendicular

Shape- Long, Short, Flat, Irregular

Question 12

Axial

Answer 12

Head, neck, trunk

Question 13

Appendicular

Answer 13

Arms, Legs

Question 14

Long Bones

Answer 14

Longer than they are wide
Shaft and ends
Tibia, Fibula

Question 15

Short Bones

Answer 15

Cube shaped bones
Sesamoid bones (within tendons, e.g., patella)
Toes

Question 16

Flat Bones

Answer 16

Thin, flat, slightly curved

Ribs, Skull

Question 17

Irregular Bones

Answer 17

Complicated shapes

Shoulder Blades, everything else

Question 18

Functions of Bones (7 Functions)

Answer 18

Support
Protection
Movement
Mineral and Growth Factor Storage
Blood Cell Formation
Triglyceride (fat) Storage
Hormone Production

Question 19

Support

Answer 19

Upright

Question 20

Protection

Answer 20

Soft organs

• Skull
• Ribs

Question 21

Movement

Answer 21

Muscles pull on bones

Question 22

Mineral and Growth Factor Storage

Answer 22

Calcium and phosphorus, and growth factors reservoir

Question 23

Blood Cell Formation

Answer 23

Red marrow cavity in certain bones

Question 24

Triglyceride (fat) Storage

Answer 24

Bone cavities

-Energy source

Question 25

Hormone Production

Answer 25

Osteocalcin

• Regulates bone formation
• Protection

Question 26

Bones (3 Levels of Structure)

Answer 26

Organs
Contains different types of tissues
Three Levels of Structure
-Gross Anatomy
-Microscopic
-Chemical

Question 27

Common components of all bones

Answer 27

Dense outer layer of compact bone
-Smooth and solid
Spongy inner core
-Trabeculae

Question 28

Gross Anatomy of Bone

Answer 28

Bone textures

-Compact vs. Spongy

Question 29

Compact Bone

Answer 29

Dense outer layer

Smooth and solid

Question 30

Spongy (cancellous or trabecular)

Answer 30

Honeycomb of flat pieces of bone deep to compact called trabeculae

Question 31

Structure of Short, Irregular, and Flat Bones

Answer 31

Grossly
-Thin plates of spongy bone covered by compact bone
-Plates sandwiched between connective tissue membranes
-Periosteum (outer layer) and endosteum
Shaft
-None and no epiphyses
Bone Marrow
-Throughout spongy bone; no marrow cavity
Articular surfaces
-Cartilage covering

Question 32

Structure of Typical Long Bone

Answer 32

Diaphysis
-Long tubular shaft
-Compact bone surrounding medullary cavity
Epiphyses
-Bone ends
-External compact bone
-Internal spongy bone
-Articular cartilage covers articular surfaces
-Between is epiphyseal line
–Remnant of childhood bone growth at epiphyseal plate

Question 33

Articular

Answer 33

Joints where 2 bones come into contact

Question 34

Medullary Cavity

Answer 34

Holds bone marrow

Question 35

2 Membranes

Answer 35

Periosteum- peri- outside

Endosteum- endo- inside

Question 36

Periosteum

Answer 36

White, double-layered membrane
Covers external surfaces except joint surfaces
-Outer fibrous layer of dense irregular
Osteogenic layer adults bone
-Contains primitive stem cells- osteogenic cells
Vascular and nerves
Anchoring points for tendons and ligaments

Question 37

Endosteum

Answer 37

Covering internal bone surface
Covers trabeculae of spongy bone
Lines canals that pass through compact bone
Contains osteogenic cells that can differentiate into other bone cells

Question 38

Osteogenic

Answer 38

Osteo-genic

Bone-maker

Question 39

Ligament

Answer 39

Bone to bone

Question 40

Tendon

Answer 40

Muscle to bone

Question 41

Red bone Marrow

Answer 41

Location
-Trabecular cavities of spongy bone
-Scattered throughout flat bones
In medullary cavities and spongy bone of newborns
Location in long bones
-minimal
Yellow marrow can convert to red, if needed

Question 42

Bone Markings

Answer 42

Sites of muscle, ligament, and tendon attachment on external surfaces
Joint surfaces
Conduits for blood vessels and nerves

Question 43

Three types of Bone markings

Answer 43

Projections
Depressions
Openings

Question 44

Projections

Answer 44

Most indicate stresses created by muscle pull or joint modifications

Question 45

Depressions and Openings

Answer 45

Usually allow nerves and blood vessels to pass

Question 46

5 Major Types of Cells in Bones

Answer 46

Osteogenic Cells
Osteoblasts
Osetocytes
Bone lining Cells (non-relevant) 
Osteoclasts

Question 47

Osteogenic Cells (Osteoprogenitor Cells)

Answer 47

Mitotically active stem cells
Location
-periosteum and endosteum
Function
-when stimulated differentiate into osteoblasts or bone lining cells
-Some persist as osteogenic cells

Question 48

Osteoblasts

Answer 48

Function
-Bone-Forming
-Secrete unmineralized bone matrix
-Includes collagen and calcium-binding proteins
Actively mitotic

Question 49

Osteocyte

Answer 49

Mature bone cells in lacunae
Monitor and maintain bone matrix
Act as stress or strain sensors
-Respond to and communicate mechanical stimuli to osteoblasts and osteoclasts so bone remodeling can occur

Question 50

Osteoclasts

Answer 50

Derived from hematopoietic stem cells that become macrophages
Giant, multinucleate cells for bone resorption

Question 51

Osteoclasts vs. Osteoblast vs. Osteoctye

Answer 51

• blast- make
• cyte- maintaining
• clast- absorbing

Question 52

Haversian System

Answer 52

Structural unit of compact bone
Elongated cylinder parallel to long axis of bone
Hollow tubes of bone matrix called lamellae
-collagen fibers in adjacent rings run in different direction
–withstands stress-resist twisting

Question 53

Microscopic Anatomy of Compact Bone

Answer 53

Central Canal
Perforating Canal
Lacunae
Canaliculi

Question 54

Central Canal

Answer 54

Runs through core of osteon

Contains blood vessels and nerve fibers

Question 55

Perforating Canals

Answer 55

Canals lined with endosteum at right angles to central canal

Connect blood vessels and nerves of periosteum, medullary cavity, and central canal

Question 56

Lacunae

Answer 56

Small cavities that contain osteocytes

Question 57

Canaliculi

Answer 57

Canals that connect lacunae to each other and central canal

Question 58

Canaliculi Formation

Answer 58

Osteoblasts secreting bone matrix
When matrix hardens and cells are trapped the canaliculi form
-Allow communication
-Permit nutrients and wastes to be relayed from one osteocyte to another throughout osteon

Question 59

Central vs. Perforating

Answer 59

Central- middle, whole length, main road

Perforating- back road

Question 60

Microscopic Anatomy of Bone: Spongy Bone

Answer 60

Appears poorly organized
Trabeculae
-Align along lines of stress to help resist it
-No osteons
-Contain irregularly arranged lamellae and osteocytes interconnected by canaliculi
-Capillaries in endosteum supply nutrients

Question 61

Chemical Composition of Bone: Organic Components

Answer 61

Includes cells and osteoid

• Osteogenic cells, osteoblasts, osteocytes, bone-lining cells, and osteoclasts
• Osteoid- 1/3 of organic bone matrix secreted by osteoblasts
• -Made of ground substance
• -Collagen fibers
• -Contributes to structure; provides tensile strength and flexibility

Question 62

Hydroxyapatites (mineral salts)

Answer 62

65% of bone by mass
Mainly of tiny calcium phosphate crystals in and around collagen fibers
Responsible for hardness and resistance to compression

Question 63

Bone Fun Facts

Answer 63

Half as strong as steel in resisting compression
As strong as steel in resisting tension
Last long after death because of mineral composition
-Reveal information about ancient people
-can display growth arrest lines
–Horizontal lines on bones
–Proof of illness- when bones stop growing so nutrients can help fight disease

Question 64

Ossification (Osteogenesis)

Answer 64

Process of bone tissue formation
Formation of bony skeleton
Postnatal bone growth
-until early adulthood
Bone remodeling and repair
-lifelong

Question 65

Ossification (2 Types)

Answer 65

Endochondral Ossification

Intramembranous Ossification

Question 66

Endochondral Ossification

Answer 66

Bone forms by replacing hyaline cartilage
Forms most of skeleton
Forms most all bones inferior to base of skull
-Except clavicles
Uses hyaline cartilage models
Requires breakdown of hyaline cartilage prior to ossification

Question 67

Intramembranous Ossification

Answer 67

Bone develops from fibrous membrane
Forms flat bones, e.g. clavicles and cranial bones
Forms frontal, parietal, occipital, temporal bones, and clavicles
Begins within fibrous connective tissue

Question 68

Postnatal Bone Growth (2 types)

Answer 68

Interstitial (longitudinal) Growth

Appositional Growth

Question 69

Interstitial Growth

Answer 69

Increase length of long bones
Requires epiphyseal cartilage
Epiphyseal plate maintains constant thickness
Concurrent remodeling of epiphyseal ends to maintain proportion
Result of 5 zones

Question 70

5 Zones of Interstitial Growth

Answer 70

Resting (quiescent) zone
Proliferation (growth) zone
Hypertrophic zone
Calcification zone
Ossification (osteogenic) zone

Question 71

Resting Zone

Answer 71

Cartilage on epiphyseal side of epiphyseal plate

Relatively inactive

Question 72

Proliferation Zone

Answer 72

Cartilage on diaphysis side of epiphyseal plate

Rapidly divide pushing epiphysis away from diaphysis

Question 73

Hypertrophic Zone

Answer 73

Older cartilage cells enlarge

Question 74

Calcification zone

Answer 74

Surrounding cartilage matrix calcifies

Question 75

Ossification zone

Answer 75

Chrondrocyte deterioration
Eroded by osteoclasts
Covered with new bone by osteoblasts
Ultimately replaced with spongy bone

Question 76

Epiphyseal Plate Growth in Interstitial Growth

Answer 76

Near end of adolescence chondroblasts divide less often
Epiphyseal plate thins then is replaced by bone
Epiphyseal plate course

Question 77

Epiphyseal Plate Course

Answer 77

Bone lengthening ceases
Bone of epiphysis and diaphysis fuses
Females about 18 years
Males about 21 years

Question 78

Appositional Growth

Answer 78

Allows bone to widen
Osteoblasts
-Beneath periosteum secrete bone matrix on external bone
Osteoclasts
-Remove bone on endosteal surface
Usually more building up than breaking down
-Thicker stronger bone but not too heavy
Excess of deficits of any cause abnormal skeletal growth

Question 79

Hormones of Regulating Bone Growth (3 Types)

Answer 79

Growth Hormone
Thyroid Hormone
Testosterone (males) estrogen (females)

Question 80

Growth Hormone

Answer 80

HGH

most important in stimulating epiphyseal plate activity in infancy and childhood

Question 81

Thyroid Hormone

Answer 81

Modulates activity of growth hormone

Ensures proper proportions

Question 82

Testosterone & Estrogen

Answer 82

Promote adolescent growth spurts

End growth by inducing epiphyseal plate closure