EXAM2_HE10_11_Cartilage_Bone

Question 1

Hyaline Cartilage 7 Locations and Function

Answer 1

Resists compression

• Articular cartilage
• Trachea, bronchi
• Embryonic skeleton
• Growth plate
• Larynx
• Nose
• Costal Cartilage

Question 2

Elastic Cartilage 4 Locations and Function

Answer 2

Elastic support

1. Pinna
2. External auditory meatus
3. Larynx
4. Auditory tube

Question 3

Fibrocartilage 3 locations and function

Answer 3

Resist tension & compression

1. Articular & Intervertebral disks
2. Labra, menisci
3. Tendon insertions

Question 4

Perichondrium two layers? What cells within? what is it a mixture of?

Answer 4

Outer- DiRCT
Inner- Chondrogenic cells (stem cells) that can turn into cartilage cells.
-Contains Fibroblast cells
-Type I Collagen CT associated with Cartilage

Question 5

If cartilage is avascular- what cells support/nourish cartilage?

Answer 5

Cartilage is Avascular and depends on Diffusion from Perichondrium for its blood supply/nourishment

Question 6

Perichondritis or Perichondrium hematoma what is it? Where? repair? associated abnormalities?

Answer 6

Blood between perichondrium and cartilage tissues.
Ct repaired by fibroblasts laying down type 3 and replacing with type 1
Fibrosis of type 1–>cauliflower ear

Question 7

Chondrocyte Function. Replication?

Answer 7

Regulate ECM Synthesis by using MGP’s to mechanically sense any changes in ECM. and it then adjusts the gene expression for SECRETION
-multiply mitotically- form isogenous groups (clusters of recently divided chondrocytes)

Question 8

What are isogenous groups? What happens when it develops?

Answer 8

• clusters of recently divided chondrocytes.
• Clusters will separate and push each other away when they start secreting their own ECM
• mitotic-stim by mechano sensation of mgp’s

Question 9

Where are chondrocytes derived?

Answer 9

Mesoderm- mesenchymal stem cells- chondrogenic cell- chondrocyte

Question 10

What is the 3 components of ECM of hyaline cartilage?

2 Functions? How do they stain?

Answer 10

-Type 2 Collagen
-Proteoglycan Agregates
-MGP’s
1. Resists compression
2. Diffusion of nutrients/waste (sponge)
collagen pink (acidophilic)
PG’s blue/purple (basophilic)

Question 11

What are the two types of cartilage growth?

Answer 11

1. Appositional growth- on surface (surface is under perichondrium)– chondrogenic cells make chondrocytes that secrete ECM onto cartilage surface
2. Interstitial growth- from within- Chondrocytes divide & secrete ECM within cartilage

Question 12

What is the limitation of cartilage growth? What happens if it gets too thick?

Answer 12

Cartilage is Avascular so it’s growth is limited by the ability of diffusion of nutrients/waste
ie: it can get too big in the perichondrium that the blood can’t diffuse down into the cartilage and the tissue will start to die

Question 13

An Orcein stain displays_____(color) for _____ fibers and H&E/Orcein stain shows___color for _____fibers.
What is differs Hyaline from Elastic cartilage?

Answer 13

Black for elastic fibers
Blue for elastic fibers/cartilage
Elastic cartilage has elastic fibers in ECM

Question 14

How does hyaline cartilage differ from Fibrocartilage?

Answer 14

Fibrocartilage has Type 1 and 2 collagen fibers in ECM
-NO PERICHONDRIUM
(but has fibroblasts, isogenous groups,

Question 15

What is an example of hyaline cartilage that does NOT have a perichondrium?

Answer 15

Articular cartilage because CT can’t resist the compression of an articulating joint (it would get crushed).

Question 16

where does articular cartilage get its nutrient if it is avascular and it doesn’t have a perichondrium? What is a side effect of this?

Answer 16

Fluid in the joints- degenerates without scarring (no perichondrium, Ct, fibroblasts, thus no fibrosis)

Damage is Irreversible and can damage bone if bad enough

Question 17

What are two crystal induced arthropathies? (crystal types)

Answer 17

Gout (monosodium urate crystals)- too much uric acid
Pseudo-gout (calcium pyrophosphate dihydrate CPPD)
Lysosomal enzymes released during inflammatory response destroy tissue

Question 18

What is mechanically/physical trauma induce degeneration of cartilage?

Answer 18

Osteoarthritis (OA)

Question 19

What is RA (rheumatoid arthritis) what caused by? what is an indication of RA?

Answer 19

Inflammation - autoimmune disease- no known cause-

RF- rheumatoid factor (antibody) may or may not be increased

Question 20

3 terms for the lattice looking type of bone. Where found? Function?

Answer 20

-Trabecular*, spongy, cancellous.
-Epiphysis & medullary cavity.
-Stores Bone Marrow
Forms internal structure- Stores calcium
ION EXCHANGE between bone & blood

Question 21

Compact (cortical) bone- where? composition? Function?

Answer 21

1. Diaphyses & on external surfaces of bone
2. Lamellae (sheets) concentric rings of bone (looks like lines)
3. Has bv canals
4. Supports, forms external bone surfaces

Question 22

Osteon- 3 Structure details, function?

Answer 22

Cylinders of bone, bv central/haversian canal, concentric lamellar rings

• abundant in adults- increase w/ age
• formed during bone remodeling/repairs

Question 23

what canals link the central canals?

Answer 23

Perforating canals- Volkmann’s canals- important nutrient exchange

Question 24

Perforating fibers (sharpy’s fibers)- structure- function-

Answer 24

Type 1 Collagen fibers in the bone periosteum that are embedded in the bone ECM.
-Attach muscle tendons & ligaments to bone

Question 25

Endosteum- structure- function- 3 cell types found there?

Answer 25

THIN- Monolayer of cells lining all the inner surfaces of the bone (all the trabeculae/spongy bone “medullary surfaces”)

• protect/monitor surface of bone
  1. osteoprogenitor cells
  2. osteoblasts
  3. bone-lining cells

Question 26

Osteoclasts- structure-function-derivation

Answer 26

Big multi-nucleated cells;

• Resorb Bone
• derived from granulocyte/macrophage progenitor cells in bone marrow
• All osteoclast cells fuse together to form one big multi-nucleated cell

Question 27

RANKL and OPG

Answer 27

RANKL- stimulates formation of osteoclasts (Bone resorption)

OPG- inhibits RANKL (inhibits osteoclast activity/resorption)

Question 28

Clear zone-structure/ function

Answer 28

• Adherence site of osteoclast to bone

- seals cavity so lysosomal contents don’t leak out into the cell.

Question 29

Ruffled border- structure and function

Answer 29

osteoclast folded plasma membrane increases surface area to increase amount of proton pumps so it can breakdown minerals and elevate serum calcium levels

• increase level of secretion for lysosomal enzymes (like secretory vesicles)
• ca transcellular transport through osteoclast, exocytosed into ECM into blood

Question 30

What elevates serum CTX?

Answer 30

Lysosomes inside osteoclasts secrete lysosomal enzymes that are exocytosed into the resorptive bay where they break down collagen which then gets reabsorbed into the osteoclast and exocytosed back into the blood.

this collagen breakdown elevates CTX
indicates how much resorption occurred/collagen has been broken down and returned into the blood

Question 31

Osteoblasts Structure- Function- Derivation- shape location

Answer 31

-cuboidal shape on bone surface
-derived from mesenchymal cells in bone marrow-> osteoprogenitor cells-> osteoblasts
can become osteocytes or bone-lining cells

FORM BONE

Question 32

What are the two fates of osteoblasts

Answer 32

• 2 fates
• become bone lining cells when quiescent (appear flat) or
• become osteocytes (when embedded in ECM)

Question 33

What are 3 secretions of osteoblasts?

Answer 33

1. procollagen for extracellular formation of type 1 collagen
2. alkaline phosphatase vesicles promote mineralization
3. Ca-binding proteins (OSTEOCALCIN) to bind ECM components together

Question 34

What are two blood serum markers for bone formation?

Answer 34

Alkaline phosphatase

Osteocalcin

Question 35

Bone ECM- Structure- function

mineralized/vs non- 2 names

Answer 35

Type 1 Collagen
Non-mineralized bone (Osteoid)
Mineralized bone (hydroxyapatite crystals)

Question 36

Osteocytes structure. where found? how do they communicate? how do they sense and function?
What cells are the most similar to?

Answer 36

Osteoblasts that become embedded in ECM during bone formation
Found in Lacunae & have canaliculi
communicate via gap junctions
mechanosensitive
DIRECTS BONE REMODELING
JUST LIKE CHONDROCYTES

Question 37

What is the Reversal (cement) line?

Answer 37

boundary between pre-existing bone and newly formed bone

Question 38

How is bone remodeling regulated? 2 ways w examples. Why is bone remodeling important?

Answer 38

regulated by mechanical regulation via osteocytes
and by PTH, CALCITONIN, & ESTROGEN (hormonal).
repairs microfractures, aids in calcium metabolism

Question 39

Calcitonin - from? (structure) binding site? function- inhibition-

Answer 39

DECREASE BLOOD Ca levels

• secreted by C-cells in thyroid
• bind receptors on osteoclasts
• inhibit osteoclast resorption

Question 40

PTH- from? binding? secrete? function?

Answer 40

-chief cells of parathyroid
-bind OSTEOBLASTS and secrete RANKL
-RANKL stimulates osteoclasts
INCREASE BLOOD Ca2+ levels
protection mechanism- bind to -blasts to make sure they are around before resorbing bone.

Question 41

Estrogen- from? bind? secrete? Function?

Answer 41

-secreted by gonads
-bind receptors on osteoblasts & osteoclasts
-osteoblasts secrete OPG (rANKL inhibitor)
BONE MAINTENANCE

Question 42

OPG

Answer 42

RANKL inhibitor
inhibits osteoclasts
when estrogen levels drop osteoporosis is a concern

Question 43

Osteopetrosis

Answer 43

Skeletal sclerosis (hardening) caused by osteoclast dysfunction

Question 44

Osteopenia

Answer 44

Mild form of osteoporosis

Question 45

Osteomyelitis

Answer 45

inflammation of bone, mostly due to infection

Question 46

Ricket & osteomalacia

Answer 46

Vit D deficiency, disruption of vit D metabolism

Question 47

Osteitis deformans (Pagets disease)

Answer 47

Rapid resorption followed by disorganized growth

-caused by slow virus

Question 48

Osteogenesis imperfecta (brittle bone disease)

Answer 48

Mutation in gene for type I collagen

Question 49

Where do pelvis, shoulder, limbs, and sternum arise from?

Answer 49

Lateral plate Parietal mesoderm

Question 50

Where does mandible, and anterior cranium arise from?

Answer 50

Neural crest cells

Question 51

Where does posterior cranium, vertebrae, and ribs arise from?

Answer 51

Paraxial mesoderm

Question 52

Calcification vs ossification

Answer 52

Ossification reserved for BONE FORMATION
Calcification can occur in many types of tissues
-ECM calcifies (usually in cartilage)

Question 53

What affects how mesenchymal cells differentiate?

Two states, what each turns into/forms

Answer 53

Oxygen availability
Hypoxic (like in cartilage); mesenchymal cells-> chondrogenic cells
High oxygen- mesenchymal cells -> osteoprogenitor cells & form ossification centers

Question 54

What are the two types of ossification?

What is required for each?

Answer 54

1. Intramembranous ossification- req vascularized mesenchyme

2. Endochondral ossification- req hyaline cartilage template

Question 55

3 steps of intramembranous ossification

What 3 types of bone does it form?

Answer 55

-Req-vascular mesenchyme->osteoprogenitor cells (OPC’s) make ossification centers
1. mesenchymal cells differentiate into OPC’s at ossification centers (near bv)
2. OPC’s differentiate into OSTEOBLASTS that form bone trabeculae
3. Trabeculae enlarge and fuse together
Mandible, flat bones of cranium, clavical

Question 56

Endochondral ossification 5 steps

Answer 56

1. mesenchymal cells differentiate into chondrogenic cells (hypoxic environment)
2. Chondrogenic cells differentiate into chondrocytes that build Hyaline Cartilage Template
3. Blood vessels invade: oxygen rich environment induces chondrocytes to calcify their matrix
4. Calcified cartilage starts to be replaced with bone (making ossification centers & growth plates)
5. bone Growth ends when plates replaced with bone

Question 57

What ossification zone supplies/directs proliferation?

Answer 57

1. Zone of reserve- Hyaline

Question 58

What zone for mitosis, ECM secretion?

Answer 58

2. Zone of proliferation

Question 59

What zone for cells enlarge, secrete VEGF for BV growth?

Answer 59

3. Zone of hypertrophy

Question 60

What zone for cartilage ECM calcification and apoptosis?

Answer 60

4. Zone of calcification

Question 61

What zone for calcified cartilage replaced with bone?

Answer 61

5. Zone of ossification

Question 62

What are the 5 zones for endochondral ossification?

Answer 62

1. Zone of reserve
2. Zone of proliferation
3. Zone of hypertrophy
4. Zone of calcification
5. Zone of ossification

Question 63

Woven bone- where does it happen- what is it?

Answer 63

Calcified cartilage replaced with bone in zone of ossification :
immature bone that is weaker and more disorganized
1. first type of bone laid down during ossification and also in fracture repair
2. Quickly replaced by lamellar (mature) bone