Skeletal System (KT)

Question 1

What are the 2 divisions of the skeletal system?

Answer 1

1. Axial

2. Appendicular

Question 2

What components make up the axial skeleton?

Answer 2

Head, center of body, skull, ribs, vertebral column

Question 3

What components make up the appendicular skeleton?

Answer 3

Movements, limbs, pelvis

Question 4

2 types of bone tissue

Answer 4

1. Compact

2. Spongy

Question 5

How much percent of total body mass are the bones?

Answer 5

20%

Question 6

Components of the skeletal system? (4)

Answer 6

1. Cartilage
2. Bone
3. Tendons
4. Ligaments

Question 7

Functions of skeletal system? (5)

Answer 7

1. Protection
2. Support (rigid support)
3. Movement (bones act as levers)
4. Storage (Ca, P, and fat)
5. Blood cell production

Question 8

Cartilage cells are called…

Answer 8

Chondrocytes

Question 9

Where are chondrocytes found…?

Answer 9

Chondrocytes are found in compartments called lacunae

Question 10

What is the extracellular matrix of cartilage?

Answer 10

• Collagen and elastic fibers

- Ground substance of chondroitin sulfates

Question 11

Does cartilage have arteries, veins, or lymphocytes?

Answer 11

No.

- That’s why it heals slowly- because not a lot of nutrients getting in

Question 12

What types of cartilage are there…? (3)

Answer 12

1. Hyaline
2. Elastic
3. Fibrocartilage

Question 13

Cartilage that…

• is the most common
• weakest concerning tensile strength
• found in places that can be compressed
• lack fibers

Answer 13

Hyaline Cartilage

Question 14

Hyaline Cartilage Structure (3)

Answer 14

1. Chondrocytes
2. Chondroitin
3. Some collagen

Question 15

Location of Hyaline Cartilage (5)

Answer 15

1. Embryonic Skeleton
2. Articular surfaces
3. Respiratory passages
4. Nasal Septum
5. Between ribs and sternum

Question 16

Cartilage that…

• is elastic yet still needs compression
• flexible, maintains shape but recoils and pushes back
• Ex. nose, ear, epiglottis

Answer 16

Elastic Cartilage

Question 17

Elastic Cartilage Structure (3)

Answer 17

1. Chondrocytes
2. Chondroitin Sulfate
3. Densely packed elastic fibers

Question 18

Locations of Elastic Cartilage

Answer 18

• nose,
• ear
• epiglottis

Question 19

Cartilage that…

• is very strong
• need tensile resistance AND compression resistance

Answer 19

Fibrocartilage

Question 20

Structure of Fibrocartilage (3)

Answer 20

1. Chondrocytes
2. Chondrotin Sulfate
3. Densely packed collagen fibers

Question 21

Location of Fibrocartilage (3)

Answer 21

1. Intervertebral Disc
2. Pubic Symphysis
3. Articular Cartilage in Knee

Question 22

Fibrous connective tissue that surrounds cartilage

Answer 22

Perichondrium

Question 23

What does perichondrium provide…? (2)

Answer 23

1. Support & Protection

2. New Chondrocytes

Question 24

Locations of Perichondrium (2)

Answer 24

1. Hyaline Cartilage

2. Elastic Cartilage

Question 25

Where is perichondrium absent from…? (2)

Answer 25

1. Articular surfaces

2. Fibrocartilage

Question 26

How many layers does the perichondrium have?

Answer 26

2

Question 27

What are the layers of the perichondrium?

Answer 27

1. Outer

2. Inner

Question 28

Binds cartilage to adjacent tissues; provides support and protection

Answer 28

Outer layer of perichondrium

Question 29

Layer for growth and maintenance

Answer 29

Inner layer

Question 30

• Have cartilage, it expands outward by growing from its own ledge
• this is facilitated by the perichondrium

Answer 30

Appositional Growth

Question 31

Appositional Growth Steps (6)

Answer 31

1. Starts in the Perichondrium
2. Mesenchymal (stem) cells at periphery form in inner layer of perichondrium
3. Mesenchyme move toward the matrix to become chondrogenic cells
4. Chondrogenic cells aggregate and become chondroblasts
5. Chondroblasts secrete ,matrix and force cells apart
6. Chondroblasts become enclosed in matrix and become chondrocytes

Question 32

Is Appositional Growth a Fast or a Slow Process?

Answer 32

Slow- because there is no blood supply, oxygen, and glucose

Question 33

• Internal cartilage growth
• Chondrocytes are enclosed in matrix and divide
• As they move apart, the matrix forms between them

Answer 33

Interstitial Growth

Question 34

Characteristics of Osseous Tissue (3)

Answer 34

1. Supportive CT
2. Contains specialized cells
3. Solid extracellular matrix

Question 35

Solid Extracellular Matrix

fibrous

Answer 35

-Osteoid

Question 36

What components make up the osteoid? (2)

Answer 36

1. Organic Portion

2. Protein fibers

Question 37

Ground Substance of Osseous Tissue

Answer 37

• Ca salts (forms mineralized salts

- water

Question 38

• Mesenchyme bone cell
• Predecessor to osteoblasts
• Play a role in initial bone growth and fracture repair

Answer 38

Osteoprogenitor

Question 39

Bone cell that…

• Is derived from osteogenic cells
• secrete osteoid
• common in growing bone
• predecessor to osteocytes
• Increased osteoblast activity=stronger bone

Answer 39

Osteoblasts

Question 40

Bone cells that...
-Are mature cells
-Exist within matrix 
-Maintain Ca and PO4 homeostasis 
-

Answer 40

Osteocytes

Question 41

Bone cells that…

• involved in the breakdown of bone
• very large
• increased osteoclast activity –> weaker bone

Answer 41

Osteoclast

Question 42

How are osteoclasts formed?

Answer 42

Formed by the fusion of many white blood stem cells

Question 43

Inorganic Materials of Bone Matrix

Answer 43

• 65%
• Brittle Salts
• Na, K, Mg

Question 44

Organic Materials of Bone Matrix

Answer 44

• Osteoid
• 35%
• Flexible Fibers aka collagen, glycoproteins, and proteoglycans

Question 45

How are compact bones arranged?

Answer 45

Osteons

Question 46

How are spongy bones arranged?

Answer 46

Trabeculae

Question 47

-Communicate through canaliculi that radiate outward and connect one cell to the next cell

Answer 47

Osteocytes

Question 48

A unit of compact bone

Answer 48

Osteon

Question 49

Osteons consist of… (2)

Answer 49

1. Concentric lamellae of matrix surrounding a central (Haversian) canal
2. Contains blood vessels and nerves

Question 50

How are osteons connected to eachother?

Answer 50

Perforating Canals

Question 51

Types of Lamellae (3)

Answer 51

1. Concentric
2. Interstitial
3. Circumferential

Question 52

• Layers of bone surrounding the central canal

- Make up osteons

Answer 52

Concentric Lamellae

Question 53

• Found between the osteons

- Represents older osteons partially removed during tissue remodeling

Answer 53

Interstitial Lamellae

Question 54

• Surround the compact bone

- Directly produced from periosteum

Answer 54

Circumferential Lamellae

Question 55

What does spongy bone contain? (4)

Answer 55

1. Trabeculae
2. Osteocytes in lacunae
3. Canaliculi
4. Matrix
   (Does NOT contain osteons and central canal)

Question 56

• Lattice work of thin plates of bone oriented along lines of stress
• Spaces are filled with red marrow where blood cells develop
• Found in ends of long bones and inside flat bones
• Lightens the bone, allows for movement

Answer 56

Trabeculae

Question 57

• Encloses bone

- Absent at site of attachment of muscles, tendons, ligaments, surfaces covered by articular cartilage

Answer 57

Periosteum

Question 58

2 Layers of the Periosteum

Answer 58

1. Outer Fibrous- gives rise to collagen

2. Inner- for growth of new cells or maintenance

Question 59

• One cell layer
• Covers all surfaces of spongy bone & medulla
• Cell types are osteogenic, osteoblasts, and osteoclasts

Answer 59

Endosteum

Question 60

Shaft of long bone

Answer 60

Diaphysis

Question 61

One end of the long bone

Answer 61

Epiphysis

Question 62

Growth plate region

Answer 62

Metaphysis

Question 63

Over joint surfaces… acts as friction and shock absorber

Answer 63

Articular Cartilage

Question 64

Marrow cavity

Answer 64

Medullary Cavity

Question 65

2 Types of Bone Marrow

Answer 65

1. Red Marrow

2. Yellow Marrow

Question 66

• Areolar and myeloid tissue
• Produces all types of blood cells
• Located in the medullary cavities of bebes and spongy bone of adults

Answer 66

Red marrow

Question 67

• Areolar and Adipose CT
• In medullary cavity of long bones
• Energy storage
• Absent in bebes

Answer 67

Yellow marrow

Question 68

KT

Answer 68

I figured I would put this in here to give you a break from studying and hopefully put a smile on your face! I want you to know that I am very thankful that Janelle introduced me to you in spring semester last year. If it wasn’t for her I would have never met the amazing person you are and I would be short one of my best friends. Well that is all I have right now.
Until next time,
Connor :)
P.S. get back to work now

Question 69

When does intramembranous ossification begin?

Answer 69

At about 8 weeks in embryo.

Question 70

When does intramembranous ossification end?

Answer 70

About week 15.

Question 71

What does intramembranous ossification form? (5)

Answer 71

Cranial flat bones, facial bones, dentary bones, clavicle, and sesmoid bones.

Question 72

What is the primary ossification center?

Answer 72

Location where bone growth begins.

Question 73

When does endochondral ossification begin?

Answer 73

7 weeks of embryo.

Question 74

Does endochondral ossification end?

Answer 74

No, it continues throughout adulthood.

Question 75

What does endochondral ossification form?

Answer 75

Long bones, most short bones, non-cranial irregular & flat bones, and middle ear ossicles.

Question 76

This forms the model of future bone?

Answer 76

Hyaline cartilage.

Question 77

Artery that supplies the periosteum

Answer 77

Periosteal Arteries

Question 78

• Artery that enters through the nutrient foramen

- Supplies compact bone of diaphysis and yellow marrow

Answer 78

Nutrient arteries

Question 79

Artery that supplies red marrow and bone tissue of epiphyses and metaphyses

Answer 79

Mataphyseal and Epiphyseal Arteries

Question 80

Replacing Connective Tissue with bone

Answer 80

Ossification

Question 81

2 Types of Ossification

Answer 81

1. Intramembranous

2. Endochondral

Question 82

Ossification that goes from…

Mesenchymal cells to spongy bone

Answer 82

Intramembranous

Question 83

Ossification that goes from… Hyline cartilage to spongy bone

Answer 83

Endochondral

Question 84

When does intramembranous Ossification occur?

Answer 84

• Begins at about week 8 in embryo

- Mainly finished by week 15

Question 85

What does Intramembranous Ossification form…? (5)

Answer 85

1. Cranial Flat Bones
2. Facial Bones
3. Dentary Bones
4. Clavicle
   5t. Sesmoid Bones

Question 86

What is the primary ossification center of Inframembranous Ossification?

Answer 86

-Location where bone growth begins

Question 87

What arrange around blood vessels in Intramembranous Ossification?

Answer 87

Mesenchymal Cells

Question 88

What kindof protiens are realeased in Intramembranous Ossification?

Answer 88

Morphogenic Proteins

Question 89

What do mesenchymal cells undergo during intramembranous ossification? (3)

Answer 89

1. Become recruited
2. Divide
3. Differentiate into osteoblasts

Question 90

Steps of Intramembranous Ossification… (6)

Answer 90

1. Osteoblasts then secrete osteoid
2. Osteoblasts become isolated and turn into osteocytes
3. Produce spicules of bone that interconnect
4. Mesenchymal cells at the surface from inner layer of periosteum
5. Calcified matrix is degraded by osteoclasts to form spongy bone
6. Ended up with spongy bone covered in thin layer of compact bone

Question 91

In this type of ossification…

• Bone replaces a cartilage model
• Begins at week 7 of embryo
• Continues to adulthood

Answer 91

Endochodral Ossification

Question 92

What does endochondral ossification from? (4)

Answer 92

1. Long Bones
2. Most Short Bones
3. Non cranial Irregular and flat bones
4. Middle ear ossicles

Question 93

In endochondral ossification, this type of cartilage forms model of future bone…?

Answer 93

Hyaline Cartilage

Question 94

What happens during endochondral ossification? ()

Answer 94

1. Chondrocytes near center hypertrophy
2. Matrix reduced to struts
3. Chondrocytes deprived of nutrients and die
4. Blood vessels grow around and penetrate cartilage
5. Cells differenciate into osteoblasts
6. Compact bone forms around the diaphysis
7. Spongy bone forms in center of model (primary ossification center)

Question 95

What happens during endochondral ossification? (3)

Answer 95

1. Remodeling of the shaft
2. Formation of the medullary cavity
3. Length increases

Question 96

What forms at both epiphyses?

Answer 96

Secondary Ossification Centers

and Blood vessels penetrate the ends of the model

Question 97

How does endochondral ossification end?

Answer 97

• Ends with incomplete ossification of epiphysis

- Some cartilage remains

Question 98

What 2 kinds of cartilage remain after endochondral ossification?

Answer 98

1. Articular Cartilage (contact points of bone)

2. Epiphyseal Plate (growth plate)

Question 99

Where does bone elongation occur and when does it end?

Answer 99

1. Occurs at epiphyseal plate

2. Growth in length continues until 2 ossification centers meet

Question 100

About the Epiphyseal Plate (3)

Answer 100

1. Relative thickness of epiphyseal plate does not change until growth is almost complete, then…
2. Cartilage is depleted
3. Epiphyseal plate narrows to epiphyseal line

Question 101

Type of Bone growth that…

• Compact bone deposited beneath periostium
• Bone thickens
• Bone remodeling occurs throughout life (due to osteoclasts and osteoblasts)

Answer 101

Appositional

Question 102

• Ongoing, since osteoclasts carve out small tunnels and osteoblasts rebuild osteons
• Continual redistribution of bone matrix along lines of mechanical stress

Answer 102

Bone Remodeling

Question 103

Percentage of remodeling? (3)

Answer 103

1. 4% of compact bone remodeled per year
2. 20% of spongy bone remodeled per year
3. Distal femur is fully remodeled every 4 months

Question 104

Break in bone

Answer 104

Fractures

Question 105

2 Types of fractures…

Answer 105

1. Closed (simple) break that does not penetrate the skin

2. Open (compound) broken bone that penetrates the skin

Question 106

How are fractures treated?

Answer 106

Reduction and immobilization

Question 107

4 Steps of Fracture Repair

Answer 107

1. Fracture Hematoma
2. Fibrocartilage Callus
3. Bony Callus
4. Remodel Tissue

Question 108

Fracture hematoma formation (4)

Answer 108

1. 1. Forms within hours of the injury
2. A mass of blood
3. Swelling and inflammation occur in response to dead bone cells
4. Phagocytes and osteoclasts elimate dead cells and broken matrix

Question 109

Fibrocartilaginous Callus Formation (5)

Answer 109

1. A fibrocartilaginous callus consists of a mass bridging the broken ends of the bone
2. Fibroblasts in periosteum produce collagen
3. Periosteum cells differentiate into chondrocytes
4. Results in fibrocartilage
5. Takes about 3 weeks

Question 110

Bony Callus Formation (2)

Answer 110

1. Formation of the bony callus occurs as the fibrocartilaginous callus is converted to spongy bone trabeculae
2. The bony callus last about 3 to 4 months

Question 111

• Remaining dead bone fragments are resorbed and compact bone replaces spongy bone
• A well handled fracture is virtually undetectable

Answer 111

Bone Remodeling

Question 112

Factors Affecting Growth, Repair, and Development (4)

Answer 112

1. Nutrition aka Vitamin D
2. Sunlight
3. Hormones: PTH, calcitonin, GH, thyroid hormone, sex hormones
4. Physical Stress

Question 113

• Abnormal reduction of bone loss
• Loss of estrogen at menopause
• Deficiency of mineral in youth
• Imbalance in activity between osteoblasts and osteoclasts

Answer 113

Osteoporosis

Question 114

• Fibrous tissue becomes ossified
• Genetic Disorder
• Injury results in inappropriate bone formation
• No treatment

Answer 114

Fibrodysplasia Ossificans Progressiva