Bones Patho

Question 1

What are the differences bt cortical and trabecular bone

Answer 1

Cortical bone

• hard outer layer
• compact bone tissue= high density
• Porosity 5-30%
• 80% of the total bone mass

Trabecular bone

• Allows room for blood vessels and marrow
• 20% of bone mass(10x surface area of compact bone)= low density
• Porosity of 30-90%

Question 2

what are haversian and volkmann’s canals

Answer 2

haversian- interconnecting, longitudinal channels in bone tissue through which blood vessels, nerve fibers, and lymphatics pass.

volkmann’s- they run for the most part transversely, perforating the lamellae of the haversian system, and connect the canals of that system.

Question 3

where are Haversian and osteons located

Answer 3

cortical bone

Question 4

what is trabecular bone AKA

Answer 4

cancellous or spongy bone

Question 5

does changes in the rate of bone turnover occur more in cortical or trabecular bone

Answer 5

trabecular

Question 6

do all bones contain both cancellous & cortical elements

Answer 6

yes, but proportions can differ

Question 7

where do long bones like the femur have the most bone turnover

Answer 7

much more at the end bc the shaft is mainly cortical bone whereas the ends are thin cortex with coarse cancellous bone prominent

Question 8

what are 5 functions of the skeletal system

Answer 8

Mineral homeostasis
Houses hematopoietic elements
Mechanical support for movement
Protects Viscera
Determines body size and shape

Question 9

what is the epiphysis, metaphysis, and diaphysis

Answer 9

Epi-extends from subarticular bone plate to base of growth plate
Meta-coarse cancellous bone from growth plate to diaphysis
Dia- body or shaft of the long bone

Question 10

what zone of a long bone is most important in hematogenous infection, tumors, and skel malformations

Answer 10

metaphysis bc more cancellous bone

Question 11

what are osteoprogenitor cells

Answer 11

precursors to osteoblasts

Question 12

what are osteocytes

Answer 12

ostoeblasts surronded by organic matrix. They are important regulators of bone mass and have mechanotransduction function

Question 13

what is bone tissue regulated by

Answer 13

Transcription factors
Cytokines
Growth factors

Question 14

what is hydroxapatite

Answer 14

a complex phosphate of calcium that occurs as a mineral and is the chief structural element of bone
-Ca, phosphate, and OH-

Question 15

what is osteocalcin

Answer 15

a protein component of bone

Question 16

what is osteopontin

Answer 16

a protein component of bone

Question 17

what are the layers of bone

Answer 17

circumferential lamellae- run parallel to the surface of the bone
concentric lamellae- bony plate that surrounds haversian canals
interstitial lamellae-Any of the layers of bone between adjacent Havers.

Question 18

what is the role of B-catenin

Answer 18

anchors osteoblasts to bone

Question 19

what are osteoclasts derived from

Answer 19

machrophages

Question 20

what is BMP

Answer 20

Bone morphogenic proteins

• functions by activating osteoblasts
• used in meds to cause spinal fusion

Question 21

what can occur with long term use of drugs that inc BMP

Answer 21

overgrowth and tumors

Question 22

what is LRP 5/6

Answer 22

LDL receptor related proteins 5 and 6

-surface receptors on osteoblasts that function by activating osteoblasts

Question 23

how long after a fx should you begin to see healing on Xray

Answer 23

4th week otherwise not healing correctly

Question 24

osteoblasts have receptors that bind what

Answer 24

PTH, estrogen, Vit D, Leptin

Question 25

what senses tension on a bone and what pathway makes the bone resist the tension (mechanotransduction)

Answer 25

osteocytes sense tension on bones and signal osteoblasts to build and prevent osteoporosis/fxs

Question 26

what is the diff in woven and lamellar bone

Answer 26

woven is less strong and should only be found in new bone (healing fx, embryonic bone). It is always abn in adults

Lamellar bone is regualr-parallels alignment of collagen into sheets

Question 27

what is osteocalcin

Answer 27

marker for osteoclast activity

Question 28

when will you see density changes in a bone scan? what can be used to earlier monitor osteoporosis meds

Answer 28

bone density scans will take 2 yrs before changes are seen. osteocalcin can be checked earlier

Question 29

what is a osteoid

Answer 29

bone matrix not yet mineralized; takes approx 12 days (mineralization lag time)

Question 30

what must bind to activate osteoclasts

Answer 30

RANK ligand (on osteoblast) binds to RANK-R (on osteoclast precursor)= differentation(activation) of osteoclast

Question 31

what blocks the RANK-RANK ligand interaction

Answer 31

osteoprotegrin cells (drugs can target this to prevent osteoporosis)

Question 32

what is involved in osteoclast differentiation regulation

Answer 32

M-CSF (monocyte colony stimulation factor), IL-1, TNF (ODP)

Question 33

how many nuclei are contained in mature osteoclasts

Answer 33

6-12

Question 34

what is estorgens effect on RANK ligand activation

Answer 34

estrogen inc osteoprotegrin and dec RANK lignad activation= dec osteoclast activation

Question 35

what are Howship lacunae

Answer 35

small depressions in bone where osteoclasts are found

Question 36

what is the relationship bt osteoclasts and pH

Answer 36

Osteoclasts generate an acidic environment

Acid digests organic components

Question 37

what are the 3 essentials for osteoclastogenesis

Answer 37

1) TNF related receptor RANK
2) RANK ligand
3) M-CSF (monocyte colony stim factor)

Question 38

what is NF-kappabeta

Answer 38

RANK +RANKL activates NF-kappabeta

Signaling increasing oteoclastogenesis

Question 39

what is the functional unit of bone? how does it change with aging

Answer 39

Composed of osteocytes, osteoblasts, and osteoclasts
Control bone formation and resorption
Early in live: bone formation dominates
Later in life: remodeling occurs

Question 40

what % of the skeleton gets remodeled/yr

Answer 40

10% (but less with age)

Question 41

when is typical peak bone mass

Answer 41

early adulthood

Question 42

does bone resorption and formation occur at the same location

Answer 42

No, they occur on separate surfaces

Question 43

what is the definition of osteoporosis? how does it affect cortical and trabecular bone

Answer 43

porous bones and reduced bone mass from dec thickness of cortex and reduction in number and size of trabeculae of cancellous bone

Question 44

what are the diff types of osteoporosis

Answer 44

1) Type 1 (postmenopausal)=disrupted connections bt trabeculae from inc osteoclast activity
2) Type 2 (senile)= reduced trabecular and cortical` thickness from loss of osteoblast activity
3) Secondary form endocrine, neoplastic(MM), GI, Drugs

Question 45

what is the BMD criteria for osteopenia and osteoporosis

Answer 45

Osteopenia-BMD 1-2.5 SD below the mean for young adults (Tscore=-1 to -2.5)
osteoporosis- BMD more than 2.5 SD below young adult mean (Tscore<-2.5)

Question 46

how is the osteoporosis T score diff from the Z score

Answer 46

T score is developed from 30 yr female

Z score- age and gender is matched

Question 47

where is the most common location for osteoporosis

Answer 47

Spine: because of the abundance of cancellous bone in the spine, osteoporotic changes are most conspicuous
Can lead to kyphosis (dowager’s hump)

Question 48

what are the DEXA recommendations

Answer 48

Who should get a DEXA, (NOF 2013)
• Woman age 65 or older
• Man age 70 or older
• If you break a bone after age 50
• Woman of menopausal age with risk factors
• Postmenopausal woman under age 65 with risk factors
• Man age 50-69 with risk factors

Other
• An x-ray showing bone loss
• Back pain with possible break in spine
• Height loss of ½ inch or more within one year
• Total height loss of 1 ½ inches from your original height

Question 49

what age related bone loss causes osteoporosis

Answer 49

0.5%-0.7%/yr

Question 50

how does age affect vit D levels

Answer 50

As one ages there is a decrease in renal 1 alpha-hydroxylase and less conversion of vitamin D to its active form

Question 51

what are calcium and vit D intake recommendations

Answer 51

Calcium
Adults under age 50: 1000mg
Adults 50 and over: 1200mg

Vit D
Adults under age 50: 400-800IU
Adults 50 and over: 800-1000IU

Question 52

what type of vit D has the longer half life

Answer 52

D3: cholecalciferol

Question 53

how are cytokines involved in type 1 osteoporosis

Answer 53

Cytokines stimulate osteoclast recruitment by increasing RANKL while diminishing expression of OPG.

Question 54

what is the pathophys of type 1 osteoporosis

Answer 54

dec estorgen and inc IL-1, IL-6, TNF= inc expression of RANK ligand= inc osteoclast activity

Question 55

what is the pathophys of type 2 osteoporosis

Answer 55

1) dec replicative activity of osteoprogenitor cells 2)dec sythetic activity of osteoblasts
3) dec biologic activity of matrix bound growth factors
4) reduced physical activity

Question 56

what is raloxifene

Answer 56

estrogen R modulator primarily used for Breast Ca but can be used for osteoporosis

Question 57

what are Alendronate, Risedronate, Ibandronate, and Zoledronic acid

Answer 57

bisphosphonates used to inhib osteoclasts by affecting proton pump

Question 58

what is forteo

Answer 58

PTH analog- if given in intermittent exposure it actually stimulates osteoblasts

Question 59

what is the risks associated with forteo

Answer 59

bone Ca so only give for 2yrs

Question 60

what is denosumab

Answer 60

antibody to RANKL

Question 61

what are the risks with bisphosphonates

Answer 61

the effects of bisphosphonates stay in the bone for 5yrs= inc risk for atypical fx

Question 62

what endocrine conditions may cause osteoporosis

Answer 62

1) corticosteriods(cushings) =inhib osteoblasts and Ca absorption
2) hyperparathyroidism= osteoclast recruitment
3) hyperthyroidism= inc osteoclast activity
4) hypogonadism

Question 63

how does alcoholism cause osteoporosis

Answer 63

inhib osteoblasts

Question 64

what is pagets dz

Answer 64

Disease of bone remodeling with numerous osteoclasts and large active osteoblasts
Osteoclast mediated bone resorption followed by new bone formation(either solitary or multiple sites) and collagen arranged in woven pattern

Disorganized mosaic pattern bone with increased vascularity and fibrosis

Question 65

what is thought to cause pagets dz

Answer 65

thought to be viral- paramyxovirus, canine distemper
but also genetic autosomal dom pattern with incomplete penetrance
-mutation in SQSTM1 gene which enhances RANK signaling=inc osteoclast activity
-RANKL and RANK/OPG mutations also found

Question 66

what are the 3 phases of pagets dz

Answer 66

1)Initial osteolytic stage= lysis of cortex

2)Mixed osteoclastic-osteoblastic stage
Ends with predominance of osteoblastic activity and evolves into the next stage
Cortex thickened & accentuation of cancellous bone

3)Burnt-out quiescent osteosclerotic stage=little cellular activity leaving disorganized bones

Question 67

what stage of pagets is considered the “hot” resorptive stage

Answer 67

1st (osteolytic) stage when osteoblast isotope take up occurs

Question 68

what is the net effect seen with pagets dz

Answer 68

gain in bone mass with newly formed bone disordered and architecturally unsound.

Question 69

what Xray effects occur with advanced pagets

Answer 69

thinner cortex earlier on but, with time, Affected portion is enlarged, sclerotic, and exhibits irregular thickening of both the cortical and cancellous bone.

• tibia often bows out.
• Axial skeleton and femur involved in 80% of cases
• Craniofacial enlargement
• Lysis in frontal and parietal bones:
• Spontaneous fractures (usually transverse)

Question 70

what lab changes are expected with pagets

Answer 70

Alk Phos high, increase urinary hydroxyproline

[Ca2+] normal unless immobilized

Question 71

besides fxs what other complications can result from Pagets

Answer 71

• Deafness (involvement of ossicles)
• Nerve entrapment (impingement of CN8 at foramen
• Spinal stenosis
• Osteogenic sarcoma: 0.7-0.9%
• Hypercalcemia (rare)
• Skull can become heavy and collapse over C1 vertebra resulting in: compression of brain and spinal cord

Question 72

what is platybasia

Answer 72

flattening of the base of skull from pagets, impinges foramen magnum= compression of medulla and cord

Question 73

what is pagetic steal

Answer 73

lightheadedness due to shunting of blood from brain to bone

Question 74

what is pagets treatment

Answer 74

target osteoclasts- bisphosphonates, clacitonin, mithramycin

Question 75

what is the net effect of PTH

Answer 75

1) PTH stimulates osteoblasts causing them to synthesize and secrete RANKL=RANKL binds to RANK in osteoclasts= Large amounts of PTH and continued RANKL prevents osteoclast apoptosis= Increase serum [Ca2+]
2) PTH= inc PO4 extretion and inc Ca reabsorption in kidney

Question 76

what is the relationship bt PTH and vit D

Answer 76

PTH= inc hydroxylation of vit D in kidney= activation of vit D= inc Ca absorption in intestines, inc bone resorption, dec renal Ca excretion, and inc phosphate excretion

Question 77

what is primary hyperparathyroidism? what typically causes it?

Answer 77

PTH raised inappropriately relative to [Ca2+]

may be Autonomous hyperplasia or tumor (Usually adenoma (85%))

Question 78

what is secondary hyperparathyroidism? what typically casues it

Answer 78

Prolonged states of hypocalcemia resulting in compensatory hypersecretion of PTH
-usually from kidney failure=bones only source of Ca

Question 79

why does renal dz lead to weak bones

Answer 79

1) dec active vit D

2) dec regulation of Ca and phosphorus= inc excretion of Ca and dec excretion of phosphorus

Question 80

what causes familial hyperparathyroidism

Answer 80

mutaions in Calcium sensing-R (CASR) gene

Question 81

is cortical or cancellous bone affected more in hyperparathyroid

Answer 81

cortical= thinned cortex

Question 82

what is osteitis fibrosa cystica

Answer 82

the anatomic changes known from excess PTH
1)Dissecting osteitis:osteon hallowed out by osteoclasts

2) Osteitis fibrosa: trabecular bone reabsorbed and marrow replaced with fibrosis
3) Osteitis fibrosa Cystica: brown tumor (fibrosis with bleeding)

Question 83

Xrays from osteitis fibrosa cystica can look like multiple myeloma with punch lesions. what test differentiates the 2

Answer 83

MM has benz proteins in the urine

Question 84

what is dysotoses

Answer 84

A disorder in the development of bone
-Failure of a bone to develop:Congenital absence of a bone: phalanx, rib, clavicle

• Formation of extra bones: supernumerary digit (polydactyl)
• Fusion of two adjacent digits (syndactyly)

Question 85

what occurs with a mutation to the homeobox gene (HOXD13)

Answer 85

Extra digit between third and fourth fingers and syndactyly

Question 86

what occurs with loss of function mutations in RUNX2

Answer 86

RUNX2 Normally produces transcription factors important in osteoblastogenesis

Mutation results in cleidocranial dysplasia

• Patent fontanelles
• Delayed closure of cranial sutures
• Wormian bones: extra sutures
• Delayed eruption of secondary teeth
• Primitive clavicles
• Shortened height

Question 87

what does mutation in the FGF receptor 3(chr 4) cause

Answer 87

Normally FGF3 inhibits cartilage proliferation

Mutations in FGFR3 cause constitutive activation and therefore suppresses growth=achondroplasia/dwarfism

Question 88

how is FGFR3 mutation in dwarfism passed

Answer 88

autosomal dom on chr4 but 80% spontaneous mutation(mainly on paternal allele)

Question 89

what are the manifestations of achondroplasia

Answer 89

Shortened proximal extremities

Trunk of relative normal length

Enlarged head with bulging forehead

Depression of the root of the nose.

Skeletal abnormalities usually not associated with changes in longevity, intelligence, or reproductive status

Question 90

what is thanatophoria

Answer 90

the most common lethal form of dwarfism

Question 91

what is the pathophys of thanatophoria

Answer 91

“gain of function” of FGFR3

Gene product gains a new and abnormal function

Question 92

what are the manifestations of thanatophoria

Answer 92

Micromelic shortening of limbs

Frontal bossing

Macrocephaly

Small chest cavity=resp insufficiency

Bell shaped abdomen

Question 93

what is type 1 collagen dz known as

Answer 93

Osteogeness imperfecta

-Most common inherited disorder of connective tissue

Question 94

what does type 1 collagen dz affect

Answer 94

Principally affects bone

Other Type 1 collagen tissue also affected: joints, eyes, ears, skin, and teeth

Question 95

where are the 4 types of collagen located

Answer 95

type 1= bONE
type 2= carTWOlage
type 3= thREEticulum
type 4= basement membrane

Question 96

what are common s/sx of osteogeness imperfecta (type 1 collagen dz)

Answer 96

“Brittle” bone disease, too LITTLE bone, BLUE sclera

Question 97

what is the pathogenesis of oseogeness imperfecta

Answer 97

point mutation affecting glycine residue in genes which code for the alpha-1 and alpha-2 chains of COLLAGEN 1

Question 98

what is the inheritance pattern of oseogeness imperfecta

Answer 98

autosomal dominant

Question 99

what are the diff osteogeness imperfecta types

Answer 99

Type 1: Autosomal dominant-decrease synthesis of alpha-1 chain

• Compatible with survival: Normal life span
• Childhood fractures which decrease in puberty
• Blue sclera, hearing loss(fusion of ossicles), dental imperfections (misshapen, bluish)

Type 2:  Autosomal dominant or recessive-alpha 1 and 2
perinatal lethal (multiple intrauterine fractures)
Type 3:  Autosomal dominant 75%, recessive 25%-alpha 2
progressive, deforming 
Type 4:  Autosomal dominant – short alpha 2 chain
compatible with survival

Question 100

mucopolysaccharidosis is a dz of what

Answer 100

a defect in folding and degradation of macromolecules, specifically a lysosome storage dz that dec enzymes that degrade
DERMATAN SULFATE
HEPARAN SUFLATE
KERATAN SULFATE

Question 101

what anatomical changes result from mucopolysaccharidosis

Answer 101

Chiefly CARTILAGE disorders: short, chest wall, malformed bones
Undegraded GAGs accumulate in connective tissue, neurons, and hepatocytes.

Question 102

what is osteopetrosis AKA

Answer 102

marble bone dz

Question 103

what are the diff types of osteopetrosis(marble bone dz)

Answer 103

1)Autosomal Dominant: One type is due to CARBONIC ANHYDRASE deficiency= Carbonic Anhydrase is necessary for osteoclasts to generate protons from CO2 and water.
Relatively benign, some anemia

2)Autosomal Recessive: Usually affects the proton pump in osteoclasts
Severe, death due to anemia, cranial nerve entrapment, hydrocephalus and infection. Also see extramedullary hematopoiesis

Question 104

why can anemia result from dec osteoclast activity

Answer 104

dec osteoclast= inc bone thickness= dec marrow fxn= anemia

Question 105

what is chacteristic of the “marble” bones

Answer 105

• “MARBLE” bone, brittle, sclerosis (break like a piece of chalk) from dec osteoclast resorption
• Diffusely DENSE bone with Erlenmeyer Flask deformity of distal humerus.

Question 106

why is osteopetrosis treated with bone marrow transplant

Answer 106

osteoclasts are derrived from monocytes

Question 107

what is the similarities and difference bt ricketts and osteomalacia

Answer 107

both are vit D deficiency/dysfunction but ricketts is in children, whereas, osteomalacia is in adults

Question 108

what is renal osteodystrophy

Answer 108

any bone disorder due to chronic renal disease

Question 109

what are ricketts and osteomalacia predisposed to

Answer 109

fractures and pseudofractures(look like fx but only dec in Ca/vit D

Question 110

what are the skeletal changes from chronic renal dz

Answer 110

Increased osteoclastic bone resorption

Delayed matrix mineralization (osteomalacia)

Osteosclerosis (fibrotic tissue replaced bone)

Growth retardation

Osteoporosis.

Question 111

what are the 3 major types of renal osteodystrophy

Answer 111

High turnover osteodystrophy= Increased bone resorption and bone formation

Low turnover or aplastic disease= Adynamic bone (little osteoclastic and osteoblastic activity

Osteomalacia (mixed type of the two above)

Question 112

what is the pathogenesis of renal osteodystrophy

Answer 112

Chronic renal failure causes phosphate retention and hyperphosphatemia

• Hyperphosphatemia induces secondary hyperparathyroidism
• Hypocalcemia due to decrease levels of vitamin D
• PTH markedly increases
• Induction of osteoclast activity
• Metabolic acidosis associated with renal failure stimulates bone resorption and release of calcium from bone matrix

Question 113

what are the 3 phases of fractures

Answer 113

1)HEMATOMA: Rupture of blood vessels creates a hematoma which fills the fracture gap
Degranulated platelets and migrating inflammatory cells release PDGF, TGF-beta, FGF and interleukins which activate the osteoprogenitor cells in the periosteum, and medullary cavity.
2)SOFT CALLUS (“PRO”-CALLUS), ~1 week
Provides anchorage but no structural rigidity
3)HARD CALLUS (BONY CALLUS), several weeks
Maximum girth at end of second or third week
Woven bone then laminar bone

Question 114

what are complications of fxs

Answer 114

PSEUDARTHROSIS:false joint at site of fx

INFECTION (especially OPEN [communicating] fractures)

Malunion: doesn’t heal in correct alignment

Nonunion: doesn’t heal at all

Question 115

what is CEFAZOLIN (ANCEF)

Answer 115

cephalosporin given prophylactically before ortho surg

Question 116

what is osteonecrosis AKA

Answer 116

AVASCULAR necrosis or ASEPTIC necrosis

Question 117

what can cause osteonecrosis

Answer 117

Ischemia

• Trauma
• Steroids
• Thrombus/Embolism
• Vessel injury, e.g., radiation
• INCREASED intra-osseous pressure=vascular compression
• Venous hypertension too

Question 118

what are the 2 types of infarcts that cause osteonecrosis

Answer 118

Medullary infarcts involve cancellous bone and marrow

Subchondral infarcts cause triangular segment of tissue undergoes necrosis
Overlying articular cartilage remains viable as it receives nutrition from synovia fluid

Question 119

why is the cortex not affected in medullary infarcts

Answer 119

-Cortex is not affected because of its collateral blood flow

Question 120

how do medullary and subchondral infarcts present

Answer 120

Medullary- Present clinically silent except for large ones occurring in Gaucher disease, dysbarism, and sickle cell anemia
subchondral-Present with pain that is initially associated only with activity but becomes progressively more constant as secondary changes occur

Question 121

what is gaucher dz

Answer 121

autoimmune dz causing vasculitis

Question 122

what is the progression of medullary and subchondral infarcts

Answer 122

medullary-Remain stable over time

subchondral-Often collapse and predispose to severe, secondary osteoarthritis
More than 10% of joint replacements performed are for treatment of complications of osteonecrosis.

Question 123

what is the most common bacteria that causes osteomyelitis

Answer 123

Staph

Question 124

what type of pt is more likely to get osteomyelitis from E. coli, Pseudomonas, and Kleb

Answer 124

GI infections and IVDA

Question 125

what type of pt is more likely to get osteomyelitis from mixed infections

Answer 125

surgical procedures or open fxs

Question 126

what type of pt is more likely to get osteomyelitis from H flu and strep B

Answer 126

neonates

Question 127

what type of pt is more likely to get osteomyelitis from salmonella

Answer 127

sickle cell dz

Question 128

what is vertebral osteomyelitis associated with

Answer 128

Septicemia
Bacterial arthritis
Pathologic fracture
Squamous cell carcinoma,
Amyloidosis

Question 129

where is the most common site for hematogenous cause of osteomyelitis

Answer 129

metaphyseal area d/t inc blood supply.

Question 130

If a otherwise healthy child gets osteomyelitis, what is the likely cause

Answer 130

Hematogenous spread (dental, dermal cut)

Question 131

what is involucrum?

Answer 131

(New bone)
A layer of new bone growth outside existing bone seen in pyogenic osteomyelitis (a sheath around the necrotic sequestrum)

Question 132

what is sequestrum

Answer 132

(dead bone)
a piece of dead bone that has become separated during the process of necrosis from normal/sound bone (fragment of necrotic bone embedded in the pus)

Question 133

what should be considered if arthritic changes occur at an early age

Answer 133

may be caused by involucrum

Question 134

what are potential complications of osteomyelitis

Answer 134

Subperiosteal abscess

Draining sinus: cloaca

Joint involvement

SEQUESTRUM (dead bone)-

INVOLUCRUM (new bone)-

Question 135

what is cloaca

Answer 135

the hole formed in the bone during the formation of a draining sinus

Question 136

what is POTTS dz

Answer 136

TB of the spine

Question 137

what does congenital osteomyelitis result from

Answer 137

syphilis

Question 138

what causes “sabre” shin

Answer 138

tertiary syphilis