LEC45: Cartilage & Bone

Question 1

2 structures in cartilage

Answer 1

chondrocytes: cartilage cells, extracellular matrix

Question 2

components of cartilage extracellular matrix

Answer 2

1) collagen fibers
2) ground substance
3) water

Question 3

components of ground substance of ECM?

Answer 3

proteoglycans: hyaluronic acid + core proteins + chondromucoproteins (mucopolysaccharides and GSGs)

Question 4

function of components of ground substance of ECM?

Answer 4

thicken the matrix, proteoglycans especially hold together matrix

Question 5

water’s effect on matrix shape?

Answer 5

negative charge organizes water into stiff colloidal gel; makes matrix function like shock absorber; more water = bigger matrix

Question 6

what happens to astronatus’ cartilage discs when in weightless environment?

Answer 6

discs enlarge

Question 7

what happens to our height overnight, why?

Answer 7

we grow taller because water has chance to get back into disc overnight, saps during the day

Question 8

what is lacunae?

Answer 8

artifactual appearance of chambers that chondrocyte cells occupy in cartilage; appear when cells are fixed, cells shrink away from matrix walls

Question 9

3 types of cartilage

Answer 9

fibrous, elastic, hyaline

Question 10

fibrous cartilage collagen type

Answer 10

Type I

Question 11

fibrous cartilage visible in matrix?

Answer 11

yes

Question 12

fibrous cartilage have perichondrium?

Answer 12

no

Question 13

is fibrous cartilage vascular?

Answer 13

yes

Question 14

elastic cartilage collagen type?

Answer 14

type II

Question 15

elastic cartilage in matrix?

Answer 15

yes, elastin fibers are in the matrix

Question 16

elastic cartilage have perichondrium?

Answer 16

yes

Question 17

is elastic cartilage vascular?

Answer 17

no

Question 18

hyaline cartilage collagen type?

Answer 18

type II

Question 19

how does hyaline cartilage matrix appear?

Answer 19

homogenous, because no fibrous or elastin type fibers, so looks homogenous under microscope - light goes right through

Question 20

does hyaline cartilage have perichomdrium?

Answer 20

yes

Question 21

is hyaline cartilage vascular?

Answer 21

no

Question 22

how are nutrients distributed in elastic and hyaline cartilage?

Answer 22

because avascular, nutrients must diffuse or be pumped through the matrix; so avascular cartilage size is limited

Question 23

what inhibits nutrient flow through avascular cartilage?

Answer 23

calcium, causes chondrocytes to die, hence calcium replaced by bone

Question 24

when does cartilage die, and what happens as result?

Answer 24

when calcium put down into avascular cartilage, cartilage dies; bone takes over, becomes matrix

Question 25

where is fibrous cartilage found?

Answer 25

pubic symphysis, intervertebral disc, joint menisci, tendon and ligament insertions into bone, anulus fibrosis of IV discs

Question 26

where’s elastic cartilage found?

Answer 26

ear, epiglottis

Question 27

where’s hyaline cartilage found?

Answer 27

respiratory tract, ventral ends of ribs, long bone epiphyseal plates, synovial joints

Question 28

types of cartilage cells

Answer 28

1) perichondrial cells
2) chondroblasts
3) chondrocytes

Question 29

what are perichondrial cells from / what do they become?

Answer 29

are flat mesenchymal precursor cells, in perichondrium; differentiate into round chondroblasts

Question 30

“peri”

Answer 30

periphery

Question 31

“blast”

Answer 31

baby cell

Question 32

chondroblast function

Answer 32

divide, grow, synthesize the matrix

Question 33

“cyte”

Answer 33

mature cell

Question 34

chondrocyte function

Answer 34

are trapped within, and maintain, the matrix

Question 35

what are isogenous groups of chondrocytes

Answer 35

groups of chondrocytes dividing, making daughter cells for interstitial matrix around them

Question 36

what happens spatially when isogenous groups of chondrocytes are at work?

Answer 36

cells working separate from each other

Question 37

in which area of cartilage do isogenous groups of chondrocytes work?

Answer 37

interstitial

Question 38

how do isogenous groups divide?

Answer 38

mitotic divisions of pre-existing chondroblasts

Question 39

which way does matrix expand, why?

Answer 39

from within, b/c it’s a pliable colloid gel

Question 40

what is appositional growth?

Answer 40

perichondrial cells > chondroblasts (make matrix) > chondrocytes

Question 41

where does appositional growth occur?

Answer 41

outer edges of cartilage

Question 42

what occupies epiphyseal growth plates, what kind of growth occurs there?

Answer 42

cartilage

interstitial growth

Question 43

where does long bone growth occur (region of bone)?

Answer 43

epiphysis

top of long bone

Question 44

where does ossification of long bone occur?

Answer 44

metaphysis

Question 45

where is growth plate re: regions of long bone?

Answer 45

between metaphysis, epiphysis

Question 46

where in long bone does appositional growth occur?

Answer 46

epiphysis’s perichondrium - cells added to the outside, make matrix, grow outside of long bone

Question 47

steps of bone growth

Answer 47

1) cartilage model
2) periosteal collar forms on diaphysis
3) calcification in diaphyseal cartilage
4) blood vessels invade and form marrow cavity, eroding away middle part
5) endochondral bone formation occurs on metaphyseal cartilage and becomes ossofied b/c calcium deposited there
6) blood vessels invade, erode epiphyseal cartilage
7, 8) 2o ossification centers form in epiphyseal cartilages
8,9) epiphyseal plate forms btwn meaphysis and epiphysis
9,10) metaphysis and epiphysis fuse, epiphyseal plate disappears
10) ossification complete

Question 48

type of cells in zone of reseve cartilage?

Answer 48

quiescent cells

Question 49

tpye of cells in zone of proliferating cartilage?

Answer 49

making matrix so isogenous groups

Question 50

type of cells in zone of cartilage hypertrophy

Answer 50

cells that’ve made matrix already; become isolated cells

Question 51

what occurs in zone of capillary invasion

Answer 51

marrow cavity forms

Question 52

what occurs in zone of mixed spicules

Answer 52

dying cartilage and newly formed immature bone present

Question 53

what is in zone of remodeled spicules

Answer 53

mature bone that’s taking on shape that it’ll have in adult

Question 54

7 endochondral bone formation zones

Answer 54

1) reserve cartilage
2) proflierating cartilage
3) cartilage hypertrophy
4) cartilage calcification
5) capillary invasion
6) mixed spicules w/ dying cartilage and newly formed immature bone
7) remodeled spicules, mature bone

Question 55

how is bone able to be stained/on slide?

Answer 55

decalcify bone so can cut it

Question 56

what happens to bone as grow older?

Answer 56

it’s resorbed where not needed, added to where it is needed, therefore changing bone shape over time

Question 57

what causes bone WIDTH increase?

Answer 57

intramembranous and appositional growth

Question 58

what causes bone LENGTH increase?

Answer 58

endochondral and interstitial growth

Question 59

bone originally forms from what?

Answer 59

mesenchymal tissue

Question 60

in membrane model of bone growth, what occurs?

Answer 60

appositional growth, intramembranous ossification at periosteum

Question 61

what does membrane model of growth lead to?

Answer 61

long bone width, remodeling shape, skull vault

Question 62

in hyaline cartilage model of bone growth, what occurs?

Answer 62

interstitial growth, endochondral ossification at growth plate

Question 63

what does hyaline cartilage model of growth lead to?

Answer 63

long bone length, skull base

Question 64

intramembranous appositional ossification growth involves what?

Answer 64

only bone, eg skull vault

Question 65

endochondral intersitial ossification involves what?

Answer 65

both bone and cartilage, eg metaphysis of long bone

Question 66

what is major different between cartialge matrix and bone matrix?

Answer 66

bone matrix has crystals and therefore high mineral content, cartilage matrix does NOT have crystals and therefore has low mineral content

Question 67

what is bone matrix comprised of?

Answer 67

osteoid + minerals

Question 68

what is osteoid?

Answer 68

uncalcified “pre-bone” made of water, type I collagen, ground substance, + calcium + phosphate ions

Question 69

minerals of bone matrix?

Answer 69

hydroxyapatite crystals Ca10(PO4)6(OH)2

Question 70

what is unique about the length/weight of long bones?

Answer 70

very strong, but not very heavy because TUBULAR structure adds STRENGTH where forces are incurred (solid outer surface) but doesn’t add weight (hollow center)

Question 71

what does cancellous mean

Answer 71

spongy, trabecular; meshwork of bony spicules

Question 72

what are concentric layers of bone?

Answer 72

periosteum > compact/cortial bone > cancellous/spony/trabecular boney meshwork

Question 73

cancellous bone matrix made of?

Answer 73

trabeculae / spicules

Question 74

how do trabeculae arrange? Why significant?

Answer 74

trabeculae form right-angles to each other; prevents bone from twisting, bending breaking; distributes force over larger area to cortex

Question 75

where does bone marrow go

Answer 75

in spaces between trabeculae (also fat there)

Question 76

what occurs in osteoperosis?

Answer 76

trabeculae still at right angles, but become THIN - lose calcium, so framework brittle, fragile

Question 77

where is compact/cortical bone?

Answer 77

in perimeter of bones

Question 78

function of compact/cortical bone?

Answer 78

nearly solid; accouts for most of bone weight

Question 79

forms of compact bone

Answer 79

circumferential lamellae and haversian system osteons

Question 80

how many layers of lamellae in bone?

Answer 80

2 circumferential lamellae - outer and inner; also interstitial lamellae

Question 81

fiber type of circumferential lamellae, and their arrangement?

Answer 81

type I collagen; in parallel layers; fibers oriented at 45 degrees relative to adjacent layers

Question 82

fiber type and arrangement of haversian osteons?

Answer 82

type I collagen fibers in concentric layers, fibers oriented 45 degrees relative to adjacent rings

Question 83

organization of cortex of bone, from outer to inner?

Answer 83

1) outer periosteal circumferential lamellae
2) haversian system osteons
3) inner endosteal circumferential lamella > marrow inside

Question 84

what type of layers do osteons have?

Answer 84

concentric lamellae (like Onion)

Question 85

what type of layers do periosteal circumferential lamellae have?

Answer 85

parallel (like Parfait)

Question 86

what are concentric lamellae arranged around? What does it contain?

Answer 86

haversian canal, which has blood vessels, nerves

Question 87

what connects adjacent Haversian canals? Function?

Answer 87

Volkmann’s canals; allow blood vessels to get in from periphery, and in from 1 column to another; run 90o to Haversian canals; no concentric circles of lamellae

Question 88

cartilage cell precursors?

Answer 88

perichondrial

Question 89

bone cell precursors?

Answer 89

osteoprogenitor

Question 90

what makes cartilage matrix?

Answer 90

chondroblast

Question 91

what makes bone matrix?

Answer 91

osteoblast

Question 92

what is trapped in cartilage matrix?

Answer 92

chondrocyte

Question 93

what is trapped in bone matrix?

Answer 93

osteocyte

Question 94

what resorbs cartilage matrix

Answer 94

NOTHING!

Question 95

what resorbs bone matrix?

Answer 95

osteoclasts

Question 96

osteoblasts

Answer 96

activated osteoprogenitor cells aka make bone

Question 97

osteoprogenitor cell

Answer 97

bone lining cell that covers quiescent bone surfaces

Question 98

osteocytes

Answer 98

former osteoblasts, trapped within bone matrix

Question 99

what do osteoclasts arise from

Answer 99

mononuclear phagocytic system; eat old bone that needs to die, be resorbed and reformed

Question 100

what system are osteoclasts part of?

Answer 100

mononuclear phagocytic system

Question 101

bone cells’ evolution

Answer 101

osteoprogenitor > osteoblast > osteocyte > osteoclast

Question 102

what are osteoprogenitors derived from, where are they found, what do they give rise to?

Answer 102

from mesenchyme-type cells; found at periosteum; give rise to osteoblasts and osteocytes

Question 103

where are osteoblasts, what do they do

Answer 103

on perimeter of matrix, lay down organic components of bone matrix

Question 104

osteoid?

Answer 104

unmineralized bone

Question 105

osteocytes’ characteristics

Answer 105

lost their major protein syntehtic apparatus; connected to adjacent cells by long cell processes allowing cell-cell communication, ion/fluid transfer

Question 106

what are the are bone matrix “maintenance” cells

Answer 106

osteocytes

Question 107

what are canaliculi?

Answer 107

small channels, contain cytoplasmic processes, from osteocytes; communicate w/ other osteocytes via GAP JUNCTIONS

Question 108

what do canaliculi do?

Answer 108

allow cell processes to transfer nutrients, fluid, ions, signals, wastes; connect remote osteocytes to blood vessels in central Haversian canal; help resorb surrounding bone if osteocytes die

Question 109

what is delimiting edge?

Answer 109

“cement line” or boundary between osteons of adjacent HAVERSIAN SYSTEMS, formed when new bone is made, and which canaliculi don’t cross

Question 110

what is in high concentration in delimiting edge?

Answer 110

muccopolysaccharides

Question 111

how do osteoclasts appear, why?

Answer 111

foamy, ruffled border because dissolved bone minera , highly folded surface for increased SA

Question 112

is cartilage present in intramembranous bone formation?

Answer 112

no

Question 113

what is intramembranous bone remodeling

Answer 113

building w/ osteoblasts on 1 side and resorption by osteoclasts on other side of bone area

Question 114

what happens in osteoporosis re: osteoblasts, osteoclasts?

Answer 114

decrease in osteoblastic activity, but osteoclast numbers and activity unaffected

Question 115

what happens to astronauts re: bones in space?

Answer 115

suffer bone loss due to microgravity

Question 116

osteon “life cycle”?

Answer 116

1) osteoclasts make large hole in old bone; left over partial lamellae called “interstital lamellae”
2) osteoprogenitor cells migrate inf rom blood, differentiate into osteoblasts
3) osteoblasts deposit bone along perimeter of canal lumen in sequential layers, narrow lumen
4) osteocytes trapped in lacunae within lamina layers

Question 117

relationship between bone canal size and osteon age?

Answer 117

large hole=younger; small hole=older

Question 118

leftover pieces of bone called?

Answer 118

interstitial lamellae of old haversian system

Question 119

whether cortical or cancellous, what are 2 bone classifications?

Answer 119

1) lamellar 2) woven

Question 120

what is woven bone?

Answer 120

immature bone (fetal-3 yrs old); less mineral, more cellular; irregular fiber arrangement; first bone formed during fracture repair

Question 121

immature bone (fetal-3 yrs old); less mineral, more cellular; irregular fiber arrangement; first bone formed during fracture repair

Answer 121

mature bone (3 yrs-adult); more mineral, less cellular; have layered fiber arrangement

Question 122

how does lamellar bone appear under polarized light, why?

Answer 122

alternating light/dark pattern because collagen fibers in successive layers arrayed at 45 degrees to each other

Question 123

what does lamellar bone have?

Answer 123

layers: Osteons=concentric, circumferential=parallel; spongy=parallel

Question 124

what is first bone formed at growth sites?

Answer 124

woven bone, primary spongiosa

Question 125

how are lacunae in woven bone?

Answer 125

randomly placed

Question 126

nickname for woven bone, why?

Answer 126

“band-aid bone” b/c made quickly, slapped down at fracture repair sites

Question 127

where can you find woven bone and lamellar bone re: compact/cortical or cancellous/spongy layers?

Answer 127

can find both woven and lamellar bone in both compact and cancellous layers - depends on when made, and for what

Question 128

what do intramembranous and endochondral ossification have in common?

Answer 128

both involve making woven bone first and then remodeling it into lamellar bone

Question 129

woven bone is made form which model of bone development?

Answer 129

either membrane or cartilage model; either way, ends up becoming lamellar bone

Question 130

where does woven bone persist?

Answer 130

gamphosis (tooth-jaw), where tendon attaches to muscle

Question 131

why might growth plate fracture result in stunted growth?

Answer 131

because woven bone slapped onto fracture site, causing premature ossification of cartilage, therefore stunting growth of long bone

Question 132

phases of bone fracture repair?

Answer 132

1) reactive
2) reparative
3) remodeling

Question 133

what happens during reactive phase of bone repair?

Answer 133

1) hematoma

2) inflammation, granulation tissue, blood vessel growth

Question 134

what happens during reparative phase of bone repair?

Answer 134

1) soft callus of fibrous tissue and hyaline cartialge bridges fracture site
2) hard callus forms of woven bone - endochondrial inside callus, intramembranous outside at periosteum

Question 135

what happens during remodeling phase of bone repair?

Answer 135

1) remodeling callus: woven bone replaced by lamellar bone: trabecular lamellar bone forms first, excess bone removed, trabecular replaced by compact bone, bone returns close to normal shape

Question 136

what is rickets? What happens, why?

Answer 136

osteoid (so called pre bone) doesn’t calcify under conditions of poor calcium and phosphate ion levels

Question 137

normal bone matrix percent organic v mineral?

Answer 137

30 percent organic (water, Type I collagen, ground substance), 70 percent minerals (calcium and phosphate in hydroxyapatite crystals)

Question 138

osteopenia?

Answer 138

failure of osteoid to calcify; thinning cortices, lucent metaphyseal bands results; on x-ray, bone looks very opaque rather than dense

Question 139

what is fibrodysplasia ossificans progressive?

Answer 139

over-calcification; ossifies muscle and locks joints, imprisons victim in a “second skeleton”

Question 140

what is osteogenesis imperfecta?

Answer 140

defect in formation of type I collagen that forms bone matrix, result is baby’s extremeties positioned oddly because has multiple fractures; can be lethal

Question 141

what influences bone formation and resorption?

Answer 141

parathyroid hormone (PTH)-regulates bone turnover, and Vitamin D- regulates mineralization of bone matrix

Question 142

factors involved in bone remodeling

Answer 142

estrogens, calcitonin, glucocorticoids, progesterone, androgens, impact of mechanical constraints, genetic background, growth hormone, gonadotrophic (sex) hormones

Question 143

who was adam ranier? Why does it matter?

Answer 143

only person to be classified as both a dwarf and giant; 3 ft 10 inches at age 21, then pituitary tumor caused overgrowth, measured 7 ft 8 inches at his death at age 51