Inflammatory Lesions of the Jaw

Question 1

osteoradionecrosis disease mechanism

Answer 1

radiation dose greater than 50 Gy

Question 2

osteoradionecrosis clinical features

Answer 2

exposed bone for 3 months after radiation therapy, sequestrate, pathological fracture

w/ or w/out pain

Question 3

osteoradionecrosis radiographic features

Answer 3

lifeless

- sequesrta, fracture

Question 4

osteoradionecrosis DD

Answer 4

malignant neoplasms

Question 5

antiresorptive agent induced ONJ

Answer 5

current or previous treatment with antiresorptive or antiangiogenic agents

exposed bone or bone that can be probed through an intra-oral or extra-oral fistula in the maxillofacial region that has peristed for more than 8WEEKS

NO PREVIOUS history of radiation therapy or obvious metastic disease to the jaw

Question 6

antiresorptive agent induced ONJ disease mechanism

Answer 6

osteoclast inhibition and antiresorptives

pathogenesis??

Question 7

antiresorptive agent induced ONJ clinical features

Answer 7

exposed necrotic bone +/- pain and swelling

Question 8

radiographic features of antiresorptive agent induced ONJ

Answer 8

most often there are no specific image findings

sequestra may be present

sclerosing, widening PDL space

*similar features to osteomyletis so need to see what types of medications they are on and is it for cancer (malignant treatment or for osteoporosis?)

Question 9

Comparing to osteomyletis – does it look any different?

Answer 9

no – so why it is so important to get medical history and why on it

Question 10

Pericorinitis

Answer 10

Operculitis

Question 11

Pericorinitis disease mechanism

Answer 11

inflammation of the soft tissue surrounding partially erupted tooth

Question 12

Pericorinitis clinical features

Answer 12

pain, swelling, trismus

Question 13

Pericorinitis radiographic features 
location?
periphery?
iternal structure?
effects on surrounding?

Answer 13

location? –> mandibular 3rd molars usually

periphery? –> ill defined, sclerotic region

internal structure?–> radiolucent w/ follicle and sclerotic adjacent bone

effects on surrounding? –> rarefaction (decrease in density), slcerosing

Question 14

what does it mean to be ill-defined

Answer 14

do not know where the lesion starts or stops

Question 15

most common pathology in the jaw?

Answer 15

inflammatory lesion by caries or periodontal disease

Question 16

general clinical features of inflammatory lesions of the jaw

Answer 16

redness, swelling heat and pain, vaies with degree of inflammation

can be acute or chronis

Question 17

general radiographic features of inflammation

location?
periphery?
internal structure?
effects on surrounding?

Answer 17

location –> alveolar process

periphery –> ill-defined, sclerotic

internal structure–> radiolucent or radio-opaque

effects on surrounding –> +/- bone, widening of PDL, root resorption
- more opaque in chronis

Question 18

major list of the peri-apical inflammatory lesions we see

Answer 18

apical periodontitis, chronic apical perio, peri-apical abscess, peri-apical ganuloma

Question 19

disease mechanism / steps in order with peri-apical inflammatory lesion
starts out as? – progresses to?

Answer 19

first
1. caries OR trauma —> 2. necrotic pulp–>3. Apical Perio –> which will go acute or chronic

Acute –> peri-apical abscess –> osteomyelitis

chronic –> peri-apical granuloma which can become osteomyleitit or peri-apical cyst

can also go from abscess to granuloma and visa-versa

Question 20

imaging features of peri-apical lesion

Answer 20

well -defined radio-lucency - soft tissue

changes in PDL and lamina dura

sclerotic – can affect bone surrounding - making less marow space and excess bone (trying to confine infection into the area)

resorption of root ends

if close to maxillary sinus – pushes it up

multiple variations to how it will appear depending upon intensity of the lesion (chronic – seeing more changes in the bone too)

Question 21

osteomyelitis definition

Answer 21

inflammation of bone, may involve marrow, cortex, cancellous portion and periosteium

Question 22

describe inflammatoy reaction with osteomyelitis

Answer 22

you get the inflammatory reaction –> into the bone –> resorption occurs –> periosteium is affeted –> exudate –> new born tries to form

Question 23

osteomyelitis in young vs old patients

Answer 23

look at the PERIOSTEAL ATTACHMENT – not as tightly adhered to cortical outline in younger patients so may see a layer of bone formation but in adults may not be able to distinguish the new bone deposition

Question 24

hallmark of osteomyelitis

Answer 24

sequestra formation

- dead bone radio-opaque with surrounding radio-lucency

Question 25

osteomyelitis acute phase synonyms

Answer 25

TRUE
- like acute suppurative osteomyelitis , pyogenic osteomyelitis , sub-acute suppurative osteomyelitis , gae’s osteomyelitis . proliferative periostitis

Question 26

osteomyelitis general disease mechanism

Answer 26

infection spreading into bone marrow

Question 27

clinical features of osteomyelitis

Answer 27

males > females, mandible > maxilla, rapid onset, pain, swelling, fever, lymphadenopathy and leukocytosis

Question 28

how do you distingish acute vs chroninc osteomyelitis

Answer 28

RADIOGRAPHICALLY

- not a histopathic differentiation

Question 29

why mandible more than maxilla for osteomyelitis

Answer 29

maxilla is more porous and has a good relationship with blood supply

Question 30

radiographic examination of acute osteomyelitis 
location?
periphery?
iternal structure?
effects on surrounding?

Answer 30

location?
- posterior body of mandible

periphery?
- ill-defined

iternal structure?
- decrease in density of the bone, increase in marrow space and decrease in the trabecular bone

effects on surrounding?
- resorption and bone formation

Question 31

use of two-phase nuclelar medicine study technique with gallium citrate?

Answer 31

inject this to see the phase of the disease and see the metabollic state of the infection and to determine location

Question 32

differential diagnosis for acute phase osteomyeltitis

Answer 32

fibrous dysplasia, osteosarcoma, SCC (more rare)

Question 33

suppurative osteomyelitits vs non suppurative

Answer 33

non- refers to chronic osteomyelitis

Question 34

disease mechanism of chronic osteomyelittis

Answer 34

sequel of inadequately treated osteomyelitis, bone metabolism tipped to bone formation

Question 35

clinical features of chronic osteomyelitis

Answer 35

symptoms are less severe and have a long history, intermittent recurrent episodes of swelling, pain, fever, lymphadenopathy

Question 36

radiographic featured of chronic osteomyelitis 
location?
periphery?
iternal structure?
effects on surrounding?

Answer 36

location?
- posterior mandible

periphery?
-gradual transition between normal and surrounding trabeculae

iternal structure?
-slecrotic, sequestra

effects on surrounding?
- changes the shape and size of the affected bone, root resorption, loss of lamina dura

Question 37

differential diangosis for chronic osteomyeleits

Answer 37

kinda same as acute

fibrous dysplasia, and osteosarcoma but also Paget’s

Question 38

sequestra are basically

Answer 38

dead bone floating within

-calcification within sclerotic/ lucency

Question 39

radiation therapy effects after week 1?

Answer 39

taste loss –can last throughout entire tx period

Question 40

radiation therapy effects timeline

Answer 40

1. taste loss
2. mucositis
3. hyposalivation
4. radiation caries
5. trismus
6. susceptibility to osteoradionecrosis

Question 41

radiation induced changes to the jaws

disease mechanism

Answer 41

therapeutic radiation – malignancies – get cellular damage of bone

Question 42

induced changes to the jaws

radiographic features

Answer 42

irregular widening - PDL space– osseous resorption

Question 43

induced changes to the jaws differential

Answer 43

perio disease

Question 44

obtain an isodose distribution for who?

Answer 44

pt’s that have gotten radiation therapy tx.