Chapter 6 Bones And Skeletal Tissue

Question 0

The 3 Types of Cartilage and Properties of Them:

Answer 0

• Hyaline: Most abundant skeletal cartilage. Made of fine collagen fibers. Examples: Articular, Costal, Respiratory and Nasal.
• Elastic: Resemble hyaline but contain more stretchy elastic fibers. Examples: External ear and epiglottis.
• Fibrocartilage: Highly compressible. Consists of thick collagen fibers. Occur in sites that are subjected to pressure and stretch. Examples: knee and between vertebrae.

Question 1

Properties of Skeletal Cartilage:

Answer 1

• Molded to fit body location and Function
• Consists mostly of Water
• Perichondrium: Layer of dense irregular connective tissue that covers bones and cartilage. Acts as resistance of outward expansion when cartilage is compressed. Contains blood vessels.

Question 2

The 2 Types of Growth:

Answer 2

• Appositional: Grows in width. Grows from outside. Perichondrium secrete new matrix against the external face of existing cartilage tissue.
• Interstitial: Grows in length. Grows from inside. Chondrocytes divide and secrete new matrix, expanding cartilage from within.

Question 3

Define Axial Skeleton:

Answer 3

• Forms long axis of the body

- Includes bones of skull, vertebral column, and rib cage.

Question 4

Define Appendicular Skeleton:

Answer 4

• Consists of bones of upper and lower limbs and the girdles that attach the limbs to the axial skeleton.

Question 5

Types of Bones:

Long Bones

Answer 5

• Longer than they are wide
• Consists of shaft and two expanded ends
• All limb bones except patella, wrist and ankles.

Question 6

Types of Bones:

Short Bones

Answer 6

• Roughly cube-shaped
  Examples: Wrist and ankle
• Sesamoid Bones: special type of short bone that form in a tendon.

Question 7

Types of Bones:

Flat Bones

Answer 7

• Thin, flattened and usually curved.

Examples: sternum, scapulae, ribs, and most skull bones.

Question 8

Types of Bones:

Irregular Bones

Answer 8

• Complicated shapes that fit none of the classes

Question 9

Important Functions of Bones:

Support

Answer 9

• Provide framework that supports the body

Question 10

Important Functions of Bones:

Protection

Answer 10

• Fused bones protect organs

Question 11

Important Functions of Bones:

Movement

Answer 11

• Skeletal muscles use bones as levers to move limbs

Question 12

Important Functions of Bones:

Mineral and Growth Factor Storage

Answer 12

• Bone is a reservoir for minerals.

- These minerals (Calcium, phosphate, etc.) are released into the bloodstream to nourish the body

Question 13

Important Functions of Bones:

Blood Cell Formation

Answer 13

• Hematopoiesis occurs in red marrow cavities of certain bones

Question 14

Important Functions of Bones:

Triglyceride (Fat) Storage

Answer 14

• Fat is stored in bone cavities

Question 15

Important Functions of Bones:

Hormone Production

Answer 15

• Bones produce osteocalcin which helps regulate bone formation and protects against obesity, glucose intolerance, and diabetes mellitus.

Question 16

Define Compact Bone:

Answer 16

-Dense outer layer of bone that looks smooth and solid to the naked eye.

Question 17

Define Spongy Bone:

Answer 17

• Internal layer of bone.
• Consists of small needle-like flat pieces called trabeculae.
• Open spaces between trabeculae are filled with yellow or red bone marrow.

Question 18

Structural Aspects of Short, Irregular, and Flat Bones:

Answer 18

• Consist of thin plates of spongy bone covered by compact bone. These plates are covered by connective tissue membranes (Periosteum, Endosteum)
• No shaft of epiphysis
• Contain bone marrow but no marrow cavity

-Diploë: the name for spongy bone in flat bones

Question 19

Structural Aspect of Long Bones:

Diaphysis

Answer 19

• Tubular shaft.
• Forms long axis of bone.
• Thick collar of compact bone that surrounds a medullary cavity (Contains yellow marrow in adults)

Question 20

Structural Aspect of Long Bones:

Epiphyses

Answer 20

• Bone Ends.
• Often broader than diaphysis.
• Outer shell of compact bone with spongy bone interior.
• Articular (Hyaline) Cartilage on the ends to cushion the bones.
• Epiphyseal Line: remnant of epiphyseal plate that remains after bone and cartilage growth completion.

Question 21

Structural Aspect of Long Bones:

Periosteum

Answer 21

Tough membrane covering external bone.

Outer fibrous layer is dense, irregular, connective tissue while inner osteogenic layer is primitive stem cells that give rise to all bone except osteoclasts (which resorb bones)

Question 22

Structural Aspect of Long Bones:

Nerve Fibers and Blood Vessels

Answer 22

• Pass through diaphysis and enter marrow cavity through nutrient foramina.

Question 23

Structural Aspect of Long Bones:

Perforating (Sharpey’s) Fibers

Answer 23

• Tufts of collagen fibers extend from outer fibrous layer in bone matrix.
• Secures the periosteum to underlying bone

Question 24

Structural Aspect of Long Bones:

Endosteum

Answer 24

• Delicate connective tissue membrane
• Covers internal bone surfaces
• Contains Osteogenic cells that turn into other bone cells.
• Contain osteoblasts for bone growth and osteoclasts for bone resorption.

Question 25

Structural Aspect of Long Bones:

Hematopoietic Tissue

Answer 25

• Red marrow cavities.
• Trabecular cavities of spongy bone in long bones.
• In medullary cavity of diaphysis and all spongy bone
• In adults for in humerus and femur

Question 26

Structural Aspect of Long Bones:

Bone Markings

Answer 26

• Sites of muscle, ligament, and tendon attachments at joint surfaces.

Question 27

The 5 types of Bone Tissue Cells: All are derived from mesenchymal cells in the embryonic mesoderm.

Osteogenic Cells

Answer 27

• Mitotically active stem cells found in periosteum and Endosteum
• Some turn into osteoblasts or bone lining cells while others persist as Osteogenic cells

Question 28

The 5 types of Bone Tissue Cells: All are derived from mesenchymal cells in the embryonic mesoderm.

Osteoblasts

Answer 28

• Bone forming cells that secrete the bone matrix
• Actively mitotic
• Play a role in matrix calcification
• When active are cube-shaped, when inactive are flattened Osteogenic cells

Question 29

Define Osteoid:

Answer 29

Initial unmineralized bone

Question 30

The 5 types of Bone Tissue Cells: All are derived from mesenchymal cells in the embryonic mesoderm.

Osteocytes

Answer 30

• Mature bone cells that occupy spaces (Lacunae) that conform to their shape.
• Monitor and maintain bone matrix
• Act as stress or strain sensors, responding to mechanical stimuli.
• Communicate with cells for bone remodeling.

Question 31

The 5 types of Bone Tissue Cells: All are derived from mesenchymal cells in the embryonic mesoderm.

Bone Lining Cells

Answer 31

• Flat cells found in bone surfaces where remodeling isn’t occurring.
• Help maintain matrix
• External surface called Periosteal cells while internal are call Endosteal cells.

Question 32

The 5 types of Bone Tissue Cells: All are derived from mesenchymal cells in the embryonic mesoderm.

Osteoclasts

Answer 32

• Large, Multinucleate cells located at sites of bone resorption.
• Resorption Bay: shallow depression where osteoclasts are when actively resorbing bone, exhibiting a ruffled border that contacts bone.

Question 33

Define Osteon (Haversian System) and name a key part:

Answer 33

• Structural unit of compact bone.
• Grouping of hollow tubes of bone matrix
  
  • Lamella: Matrix Tubes

Question 34

Canals and Canaliculi of Compact Bone:

Central (Haversian) Canal

Answer 34

• Contain small blood vessels and nerve fibers

Question 35

Canals and Canaliculi of Compact Bone:

Perforating (Volkmann’s) Canals

Answer 35

• Connect the blood and nerve supply of the medullary cavity to the central canals.
• Lined with Endosteum

Question 36

Canals and Canaliculi of Compact Bone:

Lacunae

Answer 36

• At the junctions of lamellae
• Connected by hair-like structures called Canaliculi which are formed when maturing cells become trapped in a secreted matrix

Question 37

Define Interstitial Lamellae:

Answer 37

• Lamellae that lie between intact Osteons and incomplete lamellae

Question 38

Define Circumferential Lamellae:

Answer 38

• Located deep to periosteum and just superficial to Endosteum
• Extend around entire circumference of diaphysis
• Resist twisting of bone

Question 39

The 3 Organic Components of Bone:

Answer 39

• Cells: Osteogenic cells, osteoblasts, osteocytes, bone-lining cells, and osteoclasts.
• Osteoid: Organic part of the matrix. Composed of proteoglycans, glycoproteins, and collagen fibers. Contribute to bone structure.
• Sacrificial Bonds: Contribute to bone resilience. In or between collagen molecules. Stretch and break easily on impact, dissipating energy from rising to fracture value.

Question 40

Primary Inorganic Component of Bone:

Answer 40

Hydroxyapatites: Mineral salts. Help allow to resist compression.

Question 41

Define Growth Arrest Lines:

Answer 41

• Horizontal lines in long bones

- Provide visible proof of illness when body uses nutrients to fight disease and the bones stop growing.

Question 42

Define Ossification (Osteogenesis) :

Answer 42

• Process of bone formation

Question 43

Define Endochondral Ossification:

Answer 43

• Bone develops by replacing hyaline cartilage

Question 44

Process of Endochondral Ossification:

5 Steps!

Answer 44

1) Bone collar forms around diaphysis of hyaline cartilage model
2) Cartilage in the center of the diaphysis calcifies and develops cavities.
3) Periosteal bud invades the internal cavities and spongy bone forms.
4) Diaphysis elongates and medullary cavity forms. Secondary ossification centers appear in Epiphyses.
5) Epiphyses ossify. When completed hyaline cartilage remains only in epiphyseal plates and Articular cartilages.

Question 45

Define Intramembranous Ossification:

Answer 45

• Bone develops from a fibrous membrane

Question 46

Process of Intermembranous Ossification:

4 Steps!

Answer 46

1) Ossification centers appear in fibrous connective tissue membrane.
2) Osteoid is secreted within fibrous membrane and calcifies.
3) Woven bone and periosteum form
4) Lamellar bone replaces woven bone, deep in periosteum. Red marrow appears.

Question 47

Define Epiphyseal Plate Closure:

Answer 47

• Bone lengthening stops

Question 48

The 5 Zones of Interstitial Growth:

Answer 48

1) Resting Zone: cartilage relatively inactive
2) Proliferation Zone: Cartilage cells undergo mitosis
3) Hypertrophic Zone: Older cartilage cells enlarge.
4) Calcification Zone: Matrix calcifies; cartilage cells die, matrix starts deteriorating; blood vessels invade cavity.
5) Ossification (Osteogenic) Zone: New bone forms.

Question 49

Name the Hormones Needed for Bone Growth:

Answer 49

• Human growth hormone
• Thyroid Hormone
• Estrogen/Testosterone sex hormones

Question 50

Bone Remodeling and Repair function and primary cells:

Answer 50

• Maintains homeostasis of bone. Bones constantly remodeling via sex hormones and nutrients from the blood.
• Osteoblasts: Build Bond
• Osteoclasts: Resorb and breakdown bone

Question 51

Define Hypercalcemia:

Answer 51

• To much calcium in the bloodstream

- May cause effect on functionality of blood vessels, kidneys, and other soft organs.

Question 52

Define Hypocalcemia:

Answer 52

• To little calcium in the bloodstream.

- May cause brittle bones due to lack of calcium to strengthen them.

Question 53

Define Leptin:

Answer 53

• Hormone released by adipose tissue that plays a role in regulating bone density.

Question 54

Define Serotonin:

Answer 54

• Neurotransmitter that regulates mood and sleep.

- Mostly made in gut and the blood brain barrier bars it from entering the brain

Question 55

Define Wolff’s Law:

Answer 55

• Bones are thickest in places that face the most stress
• Form Follows Function!
• Weight-bearing exercise and strength training can assist in increasing bone deposition.

Question 56

The 4 Steps of Bone Repair:

Answer 56

1) Hematoma forms
2) Fibrocartilagenous Callus Forms
3) Bony Callus forms
4) Bone Remodeling Occurs

Question 57

Define Osteomalacia:

Answer 57

• Disorders in which bones are poorly mineralized

Question 58

Define Rickets:

Answer 58

• Like Osteomalacia, bones are poorly mineralized.

- In this case is within children

Question 59

Define Osteoporosis:

Answer 59

• A disease in which bone resorption outpaces bone deposit

Question 60

Define Paget’s Disease:

Answer 60

• Excessive and haphazard bone deposit and resorption.