Orthopedic - Radiology

Question 1

What are 3 major factors of Radiopacity?

Answer 1

Radiopacity (how an image will show up on an x-ray film

1) Atomic number (hight the # the more radiopaque)
2) Physical density (Air, Fluid, Bone)
3) Thickness (Thicker= more white/radiopaque)

Question 2

What is fats opacity compared to bone or soft tissue or gas?

What does fat allow you to see?

Answer 2

• Fat is more radio opaque than bone or soft tissue but more opague than gas.
• Fat allows you to view the organ outline since most organs are encased in fat.

Question 3

What can gas opacity allow you to see?

Answer 3

Gas it the most radiolucent material visible on a film and thereby provides contrast to allow visualization of various structures

Question 4

How does an X-ray machine work?

Answer 4

Free electrons generated from heated cathode collide with tungston atom - knocking an electron out of a lower orbit. A higher orbital electron fills the empty gap releasing excess energy as a photon (x-ray)
- 5% of electron energy is deposited as an X-ray

Question 5

What unit measures the amount of radiation in an x-ray?

Answer 5

Roentgen

Question 6

How does digital radiography work?

Answer 6

• uses photostimulable plate and an image reader- writer. Screen absorbs X-rays and converts them to light energy. Light is used to create a digital image.

Question 7

What are the advantages of digital radiography?

Answer 7

Cost
Chemicals
Digital transfer of information
Modifiable

Question 8

What are the most common digital X-ray sensors used in hospitals?

Answer 8

FDP (flat panel detectors)

• Amorphous silicon - converts x-ray radiation into light and light is converted to a digital output signal (indirect)
• Amorphous Selenium - x-ray photons are converted directly into charge on sensor (direct)

Question 9

What are 3 ways to ensure radiation protection?

Answer 9

1) Reduce time of exposure
2) Increase distance from radiation source
3) Provide radiation shielding (ex. lead aprons, thyroid shields)

Question 10

What are radiographs?

Answer 10

• X-ray beam passed through tissue onto photographic film. The image recorded represents the radiation that passs through the patient.

Question 11

What are scanograms?

Answer 11

Used to compare leg length. Used allot in children to determine whether long or short leg . If yes than can adjust the epiphyseal growth

Question 12

What are comparison x-rays?

Answer 12

Usually done to verify a fracture in a pediatric patient. Used in kids due to variation of growth.

Question 13

When are stress x-rays used?

Answer 13

-usually done to assess ligamentous stability.

Question 14

Why are tomography radiographs not used?

Answer 14

Because of CT scanners

Question 15

When are arthrogram contrast used?

Answer 15

• They are used to analyze bone and tears - such as in the rotator cuff.

Question 16

When are Myleograms used?

Answer 16

Used to identify pressure and whats going on in it. Ex. hypertrophy in ligamentum flavum and stenosis

Question 17

When are arteriograms used?

Answer 17

To assess blood supply, ex. can be put in at the groin to assess peripheral vascular disease.

Question 18

What are venograms used?

Answer 18

To assess the compliance of a veins. Veins are much more tortous than arteries

Question 19

What are discograms?

Answer 19

To assess the spinal cord discs. When applying contrast the needle is put into the nucleus pulposus, not the annulus. Can be diagnostic if you inject and symptoms are reproduced.

Question 20

What is the importance of an orthogonal view?

Answer 20

To view more than one side of a 3-D structure

Question 21

What is Computed tomography (CT)?

Answer 21

• Fanned X-Ray beam rotated around a patient. Exit transmissions of x-rays measured by a series of detectors. Image densities the same as conventional X-ray. Density and contrast varied by varying amount of radiation and time of exposure.

Question 22

What is the best type of radiography for viewing fractures?

Answer 22

• CAT scans**

Question 23

What is the best type of radiography for viewing bony edemas?

Answer 23

MRI

Question 24

What is ultrasonography?

Answer 24

• Use of acoustic properties of tissue, sound waves are sent through a patient - returning echo converted into images, Resolution of images depends on wavelength and frequency of waves.

Question 25

What are the two types of ultrasound and what are each used for?

Answer 25

• Low frequency US: longer wavelengths, less resoultion, greater depth of penetration
• High frequency: smaller wavelength, greater detail, superior for orthopedic images of tendons and ligaments.

Question 26

What is the process that an MRI is used?

Answer 26

Proton the origin of signal used in the generation of MRI images, magnetic field is applied, response of excited proton is measured after a second signal is applied.

Question 27

What are the disadvantages of an MRI?

Answer 27

extremely noisy, reuquires a large room and a small bore, there is a weight limit, takes, longer than CT, patients with claustrophobia may not tolerate well

Question 28

What is a disadvantage of an open scanner MRI?

Answer 28

• Lower field strength and therefore a lower resolution.

Question 29

What are the advantages of using the MRI?

Answer 29

• Excellent soft tissue contrast
• Good for evaluating bone marrow, cartilage, soft tissues
• No ionizing radiation ideal for children
• Can be more effective than CT for dx of osteomyelitis, malignancy, and stress

Question 30

What are some limitations for MRI?

Answer 30

• Relatively long scan time, sedation needed for kids and crazy people, cannot be used in pts with implants or pacemakers, cannot be used in patients with orthopedic implants located close to area being scanners,

Question 31

What is T1 and what does it measure?

Answer 31

T1 measures energy released as proton exposed to Rf signal realigns to magnetic orientation

Question 32

What is T2 and what does it measure?

Answer 32

T2 measures energy transmitted by the wobbling effect of protons that have been exposed to Rf signal. T2 images show water density and fluid.

Question 33

What is unique about T1 and T2?

Answer 33

Every tissue will have a unique T1 and T2 property. Different tissues may have same T1 but will have different T2 images or vice versa

Question 34

What type of radiation is produced by radioisotopes that are localized in the skeleton?

Answer 34

Gamma radiation

Question 35

How long is it before technetium is excreted into the urine? What causes increased presence of the radioisotope in specific areas?

Answer 35

• 4 hours

- areas with increased circulation will have more than areas that do not.

Question 36

What is indium 111 used for?

Answer 36

to tag WBC’s and assess uptake in areas of infection

Question 37

What is gallium 67 used for?

Answer 37

• impregnates into calcium hydroxyapatite crystals uptake in neutrophils and bacteria. Doesn’t necessarily mean an infection - just indicative

Question 38

What are the factors affecting the uptake of isotopes?

Answer 38

• Bone turn over rate
• Blood flow to area
• trauma
• Time isotope is in system

Question 39

What types of tissues is PET scans good for?
What type of tracer does it use?
What does it measure?

Answer 39

• Soft tissue neoplasms or osseous metastasis
• Tracer- 2-deoxy-2-Fluoro-D-Glucose
• pet scan measures glucose utilization by tissue

Question 40

For nuclear medicine - the use of FDG is based on what?

- What does high grade malignancies tend to have as opposed low grade malignancies?

Answer 40

• increased glycolytic rate in pathologic tissues
• high grade malignancies tend to have higher rates of glycolysis than low-grade malignancies and have greater uptake of FDG than low grade or benign lesion

Question 41

What are the advantages of Nuclear medicine?

Answer 41

• High sensitivity for bone pathology
• allows imaging of metabolic activity
• white cell scinitgraphy can be used ot dx osteomyelitis
• Scintigraphy can be used to dx metastasis, stress fx, occult fx

Question 42

What are the disadvantages of nuclear medicine?

Answer 42

• Lack of detail***
• Limited early sensitivity to detect acute fx. in pt with slow bone metabolism
• Low sensitivity can occur with lytic diseases such as multiple myeloma
• Low specificity for bone pathology

Question 43

How do dexa scans work?

Answer 43

Used to evaluate bone density, they shoot 2 beams of radiation into area, compare results, and calculate T-scores and use them to ID whether they have osteopenia or osteoporosis

Question 44

What T-scores are representative of Osteopenia, osteoporosis, severe osteoporosis, and normal?

Answer 44

• Osteopenia: T-score between -1 and -2.5
• Osteoporosis: T-score at or below -2.5
• Severe Osteoporosis: T-score at or below -2.5 and a history of one or more fractures
• Normal: BMD T-score -1 and above

Question 45

What percentage of women 20-40 have normal BMD

Answer 45

85%

Question 46

What restraints might be imposed on choosing an imaging modality?

Answer 46

• Needs of individual patients
• Insurance
• Availability of equipment
• Availability of radiologist

Question 47

What is the best choice of imaging modality for:

• Cross sectional capability:
• Early detection of fracture or infection and degree of involvement
• Bone contusion, articular cartilages, relationships of neurovascular structures to other anatomy:
• Fluid filled tissue and vascular supply:

Answer 47

• CT scan
• Bone Scan
• MRI
• Ultrasound

Question 48

Bone scan can be obvious how many hours after fracture?

Answer 48

• 48 hours