AnP Chapter 7 (LO7)

Question 1

Strength of bone is similar to…

As strong as —- and as light as ——

makes up –% of body weight

— bones in adult body

Answer 1

Strength of bone is similar to reinforced concrete

As strong as steel and as light as aluminum

makes up 14% of body weight

206 bones in adult body

Question 2

BONE FUNCTIONS

shape

support

protection

movement

Answer 2

Shape: bones give the body its structure

Support: bones of legs, pelvis and vertebral column support the body and hold it upright

Protection: bones protect delicate internal organs such as heart, lungs, brain and spinal cord

Movement: movement of the arms and legs as well as the ability to breathe results from the interaction between muscles and bones

Question 3

BONE FUNCTIONS

Electrolyte balance

Blood production

Acid-base balance

Answer 3

Electrolyte balance: bones store and release minerals such as calcium and phosphorus necessary ingredients for a variety of chemical reactions throughout the body

Blood production: bones encase bone marrow, a major site of blood cell formation

Acid-base balance: bone absorbs and releases alkaline salts to help maintain a stable pH

Question 4

LONG BONES

Answer 4

Very long axis, longer than they are wide

Ex) femur and humerus

Work like levers to move bones

Question 5

SHORT BONES

Answer 5

As broad as they are long

Shaped like cubes

Ex) carpal bones and tarsal bones

Question 6

FLAT BONES

Answer 6

Thin, flat, often curved to protect organs

Ex) skull, ribs and breastbone

Provide a large surface for muscle attachment

Ex) scapulae

Question 7

IRREGULAR BONES

Answer 7

Often clustered in groups, various sizes/shapes

Ex) vertebral and facial bones

Sesamoid bone: small bones embedded in tendons

Ex) kneecap

Question 8

Epiphysis

Answer 8

head of each end of a long bone

Bulbous structure strengthens the joint and allows an expanded area for the attachment of tendons and ligaments

Made of porous looking spongy bone

Question 9

Diaphysis

Answer 9

central shaft-like portion of the bone

Central shaft like portion of the bone, hollow cylinder

Gives bone the strength to support a large amount of weight

Question 10

Articular cartilage

Answer 10

thin layer of hyaline cartilage that covers the surface of epiphysis
Eases the movement of the bone within a joint

Medullary cavity: central hollow portion

Question 11

Endosteum

Answer 11

thin epithelial membrane that lines inside of the medullary cavity

Question 12

Red bone marrow

Answer 12

medullary cavity is filled with blood cell-producing red bone marrow

In children

Question 13

Yellow bone marrow

Answer 13

bone marrow which is rich in fat

Question 14

Periosteum

Answer 14

a dense fibrous membrane that covers diaphysis

Some fibers of the periosteum penetrate the bone ensuring that the membrane stays fully anchored

Other fibers weave together with the fibers of tendons which ensures a strong connection between muscle and bone

Contains bone forming cells and blood vessels

Question 15

Epiphyseal plate/growth plate

Answer 15

in growing children a layer of cartilage

Separates the epiphysis from the diaphysis at the end of a long bone

Replaced with an epiphyseal line once growth stops

Question 16

Osteomyelitis

Answer 16

inflammation of bone and marrow

Usually the result of a bacterial infection

Bone infections are often difficult to treat and typically require prolonged intravenous antibiotics

Question 17

Osseous tissue

Answer 17

type of connective tissue; consists of cells, fibers and extracellular material

Bone cells include osteoblasts, osteoclasts and osteocytes

Question 18

Osteoblast

Answer 18

help form bone by secreting substances that comprise the bones matrix

Question 19

Osteoclasts

Answer 19

dissolved unwanted or unhealthy bone

Question 20

Osteocytes

Answer 20

are mature osteoblasts that have become entrapped in the hardened bone matrix

Dual role: some dissolved bone, others deposit new bone

Contribute to maintenance of bone density

Assists with the regulation of blood levels of calcium and phosphate

Question 21

Matrix of bone

Answer 21

is hard and calcified because it contains collagen fibers and crystalline salts (calcium and phosphate)

Question 22

Tensile strength

Answer 22

collagen fibers in the matrix make bone highly resistant to stretching forces

Bone has significant tensile and compressional strength but lacks torsional strength

Question 23

Compressional strength

Answer 23

bone lacks the ability to endure twisting

Most bone fractures result when torsional forces are exerted

Question 24

Osteoporosis

Answer 24

a disease characterized by a loss of bone density

Question 25

Increased load on bone

Answer 25

osteocytes stimulate the creation of new bone

Question 26

FACTORS THAT AFFECT BONE GROWTH AND MAINTENANCE

Answer 26

Heredity: every individual inherits genes that determines his maximum height potential

Nutrition: children who are malnourished grow very slow and may not reach their full height-calcium, phosphorus and vitamins D,C and A necessary for bone growth

Hormones: hormones that contribute to bone growth include growth hormone, thyroxine, parathyroid hormone, insulin, estrogen and testosterone

Exercise: without adequate physical stress (weight bearing exercise) bone destruction will outpace bone creation

Question 27

Spongy bone

Answer 27

light and porous

Found in the ends of long bones and middle of other bones

Always surrounded by the more durable compact bone

Also known as cancellous bone

Question 28

Trabeculae

Answer 28

latticework of bone

Adds strength without adding weight

Cavities between trabeculae are filled with red bone marrow

Red bone marrow supplies spongy bone with blood and produces blood cells

Question 29

Compact bone

Answer 29

dense and solid

Density offers strength
Forms the shafts of long bones and outer surface of others

Consists of network of passageways containing nerves/blood vessels

Bone injuries heal quickly because bones are well supplied with oxygen and nutrients

Question 30

Lacunae

Answer 30

tiny gaps between rings of the lamellae

Contain osteocytes

Question 31

Canaliculi

Answer 31

microscopic passageways

Connect the lamellae to each other

Question 32

Volkmann’s canals

Answer 32

transverse passageways

Connect the haversian canals

Transport blood and nutrients from bone’s exterior to osteocytes locked inside

Question 33

BONE MARROW

Answer 33

Type of soft tissue that fills the medullary cavity of long bones

Fills spaces of spongy bone

Question 34

Red bone marrow

Answer 34

charged with producing red blood cells

Nearly all of child’s bones contain red bone marrow

in adults can be found only in ribs, sternum, vertebrae, skull, pelvis, upper parts of humerus and femur

Question 35

Yellow bone marrow

Answer 35

gradually replaces red bone marrow

No longer produces blood cells because the cells are saturated with fat

In severe chronic blood loss or anemia it can change back into red marrow

Question 36

Ossifications

Answer 36

skeleton evolves into bone

Question 37

Intramembranous ossification

Answer 37

ossification of fibrous connective tissue

Begins when groups of stem cells in the tissue differentiate into osteoblasts

Start out as fibrous connective tissue

Skull and face

Question 38

Centers for ossifications

Answer 38

ossification of fibrous connective tissue

Calcium salts are deposited and the bone is calcified

Not all bones are completely ossified at birth ex) rib cage

Question 39

Fontanels (soft spot)

Answer 39

allow for safe compression of fetus head during birth

Allows for skull to expand while brain grows

Age 2 skull is completely ossified

Question 40

Endochondral ossifications

Answer 40

cartilage turns to bone

Begins in long bones

After 3 months cartilage begins turning into bone

Question 41

Steps of process of Endochondral ossification

Answer 41

1. Early life fetus
   Long bones are composed of cartilage and are models for development
2. Osteoblasts start to replace the chondrocytes ( cartilage cells)
   - -Osteoblasts coat the diaphysis in a thin layer of bone
   - -Then create a ring of bone the encircles the diaphysis
   - -Cartilage begins to calcify
3. Blood vessels then penetrate the cartilage
   - -Primarily ossification center develops in the middle of the diaphysis
4. The bone marrow cavity fills with blood and stem cells
   - -Ossification continues from the diaphysis toward each epiphysis
   - -Bone grows in length
   - -Secondary ossification centers appear in the epiphysis

Question 42

BONE WIDENING AND THICKENING

Answer 42

Continues throughout lifespan

Occurs when osteoblasts in periosteum lay new layers of bone outside of the bone

Osteoclasts on inner bone tissue work to dissolve bone tissue widening marrow cavity

Question 43

Epiphyseal fracture

Answer 43

epiphyseal plate can separate from the diaphysis or epiphysis when overstressed

This can affect future bone growth

Question 44

BONE LENGTHENING

Answer 44

Occurs at epiphyseal plate

Chondrocytes continue to multiply on epiphyseal side of the cartilage plate

These cells move towards diaphysis

Minerals are deposited and the cartilage becomes calcified

Bone continues to lengthen as long as chondrocytes are produced in epiphyseal plate

Between age 16 and 25 all cartilage is replaced with spongy bone

When this happens bone lengthening stops and the epiphyses have “closed”

Question 45

Epiphyseal plate

Answer 45

layer of hyaline cartilage at end of each bone

Question 46

Epiphyseal line

Answer 46

remaining line of spongy bone

Question 47

bone remodelling:

• Resorption
• Ossification
• Remodeling
• Osteoclasts
• Osteoblasts

Answer 47

Resorption: bone cells destroying old bone

Ossification: depositing new cells

Remodeling: resorption and ossification

Osteoclasts remove matrix and reduce the mass of little used bones

Osteoblasts deposit new bone tissue on the body’s surface, thickening heavily used bone

Question 48

Fracture

Closed reduction

Open reduction

Answer 48

Fracture: a break in a bone

Closed reduction: broken bones can be manipulated into their original position without surgery

Open reduction: surgery is needed to reposition the bones with screws/pins/plates

Question 49

types of fractures

• simple
• compund
• greenstick
• comminuted
• spiral
• pathologic

Answer 49

Simple: bone dose not pierce the skin

Compound: bone pierces the skin

• -Damage to surrounding tissue, nerves and blood vessels may be extensive
• -Because of broken skin, increased risk for infection

Greenstick: the fracture is incomplete

• -Typically in young children because of soft/flexible bones
• -Bone splinters rather than breaks completely

Comminuted: bone breaks into pieces (usually from high impact trauma)

Spiral: fracture line spirals around bone (twisted force)

Pathologic: fracture in a diseased/weakened bone from force that wouldn’t fracture a healthy bone

Question 50

FRACTURE REPAIR steps

Answer 50

1. When fracture occurs, blood vessels are torn resulting in a hematoma (clot)
   - -Hematoma transforms into a soft mass of granulation tissue containing inflammatory cells and bone forming cells aid in the healing process
2. Collagen and fibrocartilage are deposited in the granulation tissue transforming it into a soft callus
3. Bone forming cells produce a bony/hand callus around fracture
   - -Splits the two bone ends together as healing continues
4. Remodeling eventually replaces the callus tissue with bone