Radiology

Question 1

What type of imaging is CBCT and what is it suitable to assess?

Answer 1

A form of cross-sectional imaging suitable for assessing radio-dense structures

Question 2

What are the benefits of CBCT over plain radiography?

Answer 2

1. No superimposition
2. Ability to view subject from any angle
3. No magnification/distortion
4. Allows for volumetric (3D) reconstruction

Question 3

What are the downsides of CBCT over plain radiography?

Answer 3

1. Increased radiation dose to patient
2. Lower spatial resolution
3. Susceptible to artefacts
4. Equipment more expensive
5. Images more complicated to manipulate and interpret
6. Requires additional training

Question 4

What are the benefits of CBCT in comparison to conventional CT?

Answer 4

1. Lower radiation dose
2. Potential for higher resolution
3. Cheaper
4. Smaller footprint

Question 5

What are the benefits of conventional CT over CBCT?

Answer 5

1. Able to differentiate soft tissues better
2. “Cleaner” (better signal to noise ratio)
3. Larger field of view possible

Question 6

What are the common uses of CBCT in dentistry?

Answer 6

1. Clarifying relationship between impacted 3rd molar and the IAN canal prior to intervention
2. Measuring alveolar bone dimensions
3. Visualising complex root canal morphology to aid endo treatment
4. Investigating external root resorption next to impacted teeth
5. Assessing large cystic jaw lesions

Question 7

What are the three common orthogonal planes used for visualising CBCT?

Answer 7

1. Axial view
2. Sagittal view
3. Coronal view

Question 8

What is the “field of view” (FOV)?

Answer 8

The size of the captured volume of data

Question 9

Why do you ideally want to have a small FOV?

Answer 9

Because a small field of view will mean less radiation given to patient (as there will be less tissues irradiated and less scatter)

Question 10

What is a voxel, and what does it decipher?

Answer 10

A voxel is a 3D pixel and it deciphers the resolution of an image.

Question 11

Why does FOV need to be as small as possible on a CBCT if investigating endodontic cases?

Answer 11

So that you can visualise finer details of root canals

Question 12

What is a rough estimate of how much larger the radiation dose of CBCT is compared to DPT?

Answer 12

CBCT is roughly 2-3 x the dose of DPT

Question 13

What are the two main types of artefacts that you can get on CBCT imaging?

Answer 13

1. Movement artefacts
2. Streak artefacts

Question 14

What causes streak artefacts?

Answer 14

High-attenuation objects (e.g. amalgam metal filling)

Question 15

What are the two main issues of streak artefacts?

Answer 15

1. Can prevent caries assessment
2. Can prevent assessment of perforations/missed canals in root canal treated teeth

Question 16

What are the contraindications for CBCT?

Answer 16

1. If plain radiograph is sufficient
2. If soft tissue visualisation is required for pathology (malignant gland or infection spread)
3. If high risk of debilitating artefacts
4. Pt unable to stay still or fit in machine

Question 17

What patients might have difficulty fitting in CBCT machine?

Answer 17

1. Kyphotic patients
2. Patients with unfavourable neck to body ratios (obese, bodybuilder)

Question 18

What is required to be able to refer, justify, perform or interpret CBCT?

Answer 18

Current UK undergraduate teaching deemed inadequate. Recommended post graduate training. Some form of refresher training recommend once every 5 years.

Question 19

Other than CBCT, what other imaging modalities are there?

Answer 19

1. Conventional CT
2. MRI
3. Ultrasound
4. Nuclear medicine
5. Combination of multiple imaging modalities including PET-CT/ PET MRI

Question 20

If the voxel is smaller, what does this mean in regard to resolution?

Answer 20

Resolution is higher

Question 21

What is the value of density that CT voxels are given?

Answer 21

Hounsfield units

Question 22

What structure has the highest hounsfield number on CT (+1000) and is therefore the most radio-opaque (white)?

Air, water, dense bone, fat.

Answer 22

Dense bone

Question 23

What is “windowing”?

Answer 23

Windowing alters levels of densities visualised in CT scan to optimally look at specific tissues.

Question 24

Define, window level.

Answer 24

The value at centre of range

Question 25

Define, window width.

Answer 25

The range of values selected to view tissues

Question 26

MRI uses ionising radiation. True or false?

Answer 26

False, uses a magnetic field (radio frequency pulses and hydrogen protons within body to produce images)

Question 27

Why is the cortisol bone always black on MRI?

Answer 27

As it has very little water content

Question 28

What are the advantages of MRI?

Answer 28

1. No ionising radiation
2. Very good imaging of soft tissues + early change in bone marrow

Question 29

What are the disadvantages of MRI?

Answer 29

1. Multiple contraindications
2. Length scan
3. Claustrophobia
4. Cost + availability

Question 30

What are contraindications for MRI?

Answer 30

1. Pacemakers
2. Orbital foreign bodies
3. Artificial heart valves
4. Surgical clips

Question 31

What might MRI be used for in relation to dentistry?

Answer 31

1. To visualise degenerative changes in the TMJ
2. To visualise salivary glands
3. To visualise sinuses for malignancy

Question 32

How does ultrasound work?

Answer 32

High frequency sound waves used to produce images

Question 33

What sort of structures is ultrasound good at imaging?

Answer 33

Superficial structures

Question 34

What are the advantages of ultrasound?

Answer 34

1. No ionising radiation
2. Good for superficial structures
3. Real time imaging
4. Can be used as adjunct to biopsy/aspirates
5. Blood flow

Question 35

What are the disadvantages of ultrasound?

Answer 35

1. operator dependant
2. Can’t penetrate bone
3. Can be difficult to interpret
4. Only superficial structures are seen

Question 36

In relation to dentistry, what is ultrasound good for imaging?

Answer 36

1. Neck lumps
2. Salivary glands
3. Vascular lesions

Question 37

Give three examples of nuclear medicine?

Answer 37

1. PET (positron emission tomography)
2. SPECT (single photon emission CT)
3. Scintigraphy

Question 38

How does nuclear medicine work?

Answer 38

Patient is injected within intra venous radiopharamceutical which when it decays emits particles that are picked up on a gamma camera.

Question 39

What are the advantages of nuclear medicine scans?

Answer 39

1. Can be superimposed over other cross-sectional imaging (e.g. CT)
2. Highly sensitive
3. Can assess function

Question 40

What are the disadvantages of nuclear medicine scans?

Answer 40

1. Poor resolution
2. Poor specificity
3. Very high radiation dose

Question 41

Name 4 radioisotopes that can be used in nuclear medicine images?

Answer 41

1. Technetium
2. MDP
3. Pertechnetate
4. 18-FDG

Question 42

What combination of imaging modalities is typically used for cancer diagnosis?

Answer 42

PET-CT