X-Ray, CT, PET

Question 1

What is ionising radiation?

Answer 1

Radiation that causes ionisation (loss / gain of e-) when it interacts with matter

Question 2

Why is ionisation used?

Answer 2

Ionising radiation used due to its ability to penetrate

Question 3

What are the types of ionising radiation used for imaging?

Answer 3

Types used for medical imaging are:

• Gamma rays
• X-rays

Question 4

Describe the indirect action of ionising radiation

Answer 4

Indirect action:

Our body is 70% water (H₂O) which reacts with ionising radiation to form free radicals which are highly reactive

Question 5

What is the direct action of ionising radiation?

Answer 5

Direct Action:
Radiation directly ionises cell DNA
⇒ leads to mutation causing biological responses:
- Genetic mutation 
- Cancer 
- Death

Question 6

What are the damage and effects caused by direct effect?

Answer 6

Only at high radiation dose not noticed at usual diagnostic doses
Threshold effect
e.g. Erythema & hair loss

Question 7

What are the indirect damages and effects of radiation?

Answer 7

Risk of cancer induction
Risk of genetic change in subsequent population
Effect is proportional to radiation dose, no threshold - all radiation has risk

Question 8

Outline radiation doses administered to patients?

Answer 8

Dental intra-oral	0.002
Chest X-ray		0.02
Lumbar Spine		2
NM Bone Scan  	3
IVU			        4
CT pelvis	        7
CT head		        2
Barium enema	8
MIBI cardiac scan  10
PET scan 		10

Question 9

What is the risk of cancer induction?

Answer 9

Risk of fatal cancer induction is:

• 5% per Sievert
• 1 in 20000 per mSv
• 1 in 2000 per PET scan

Question 10

What are the 3 types of ionising radiation?

Answer 10

• Positrons
• Gamma rays
• X rays

Question 11

Describe how positrons are used for imaging

Answer 11

PET scanning:

positive electrons interact with matter to create gamma rays

Question 12

How do Gamma rays create an image?

Answer 12

Gamma camera imaging
e.g. SPECT
penetrating radiation

Question 13

Describe x ray imaging

Answer 13

X ray imaging
e.g. radiographs, CT
spectrum of electromagnetic radiation

Question 14

How are x rays created?

Answer 14

artificially produced in an x-ray tube

Question 15

How are positrons and gamma rays produced?

Answer 15

Emitted following radioactive decay of an unstable nucleus

Question 16

What increases x ray attenuation?

Answer 16

Attenuation increases with
- higher atomic number
- higher density
⇒ produces a brighter image

Question 17

Describe an x ray image

Answer 17

X-Rays are essentially an attenuation map

Muscle and lung tissue show darker

Question 18

Describe a transmission image

Answer 18

Radiation is directed through the patient
A transmission map collected is essentially an attenuation map - maps the tissues that either block or allow some / all x rays to pass through

Question 19

What are the advantages of a transmission image?

Answer 19

Good at showing structure, especially between tissues of different densities or atomic number

Question 20

How is emission imaging carried out?

Answer 20

The radiation is administered to a patient in the form of a tracer
Emitted gamma radiation is detected outside the patient

Question 21

What are the important components of an x ray tube?

Answer 21

Important components of X ray Tube:

• Filament
• Target
• Vacuum (tube)

Question 22

How are electrons accelerated through the xray tube?

Answer 22

Between the two terminals (filament & target) there is a p.d. Voltage difference to accelerate e-

Question 23

How are x-rays produced in the x-ray tube?

Answer 23

1. Current flows through circuit
2. Causes e- to fire from filament
3. e- are accelerated through p.d. to incidence plate so they can hit the target
4. When e- hit the target they produce a beam of x rays

Question 24

How are x-rays regulated?

Answer 24

• High voltage controls the energy of the x-rays
• Current control the amount of x-rays
• X-rays only produced when tube is in action i.e. can be
  switched on/off
• We can control amount and energy of x-rays produced
  by altering p.d.

Question 25

Where are common bone fractures found?

Answer 25

Clavicle
Radius / ulna
Proximal phalanx of index finger
Veterinary x rays

Question 26

How are fillings easily identified in dental radiology?

Answer 26

Fillings identified as they produce a high contrast image as they are composed of metal (have a high atomic no.) compared to the rest of the tooth

Question 27

Explain what a wedge shaped defect in a diagnostic CXR indicates

Answer 27

Wedge shaped defect Pulmonary embolism

Lungs are perfused; lobed region supply is either reduced or occluded

Only large PE can be seen on X-ray

Question 28

What is mammography?

Answer 28

Mammography is an x ray of the breast tissue used for screening purposes for minimising cancer

Question 29

Why is a compression plate used during a mammography?

Answer 29

High resolution
Compression plate used to reduce breast thickness
- Improves resolution
- Lowers radiation dose

Question 30

How is real time x ray conducted?

Answer 30

Using fluoroscopy

Catheter fed inside artery and radio opaque dye is injected

Show blood flow inside vessels and can be used to assist with interventions

Question 31

Outline how a coronary angiography is carried out

Answer 31

A cardiac catheter is fed inside the aorta
Radio-opaque contrast agent used to identify areas of occlusion
Treatment may be either balloon angioplasty or insertion of a stent

Question 32

What are the limitations of planar xray?

Answer 32

• Can’t distinguish overlying tissues

- Tissues not being observed, reduce contrast in image

Question 33

How can we overcome overlying tissues reducing contrast?

Answer 33

Historically partially solved by moving film cassette and X-ray relative to patient to blur out overlying tissues, called “tomography” (from Greek “part/slice” - “write”)

Superseded by Computed Axial Tomography, now abbreviated to CT

Question 34

Describe a CT scanner

Answer 34

Basically a rotating x ray tube
Fast Gantry Rotation ~0.33

Has the ability to identify and show 3D slices of different tissues

Question 35

What does a CT scan offer?

Answer 35

Multi-slice
Faster scan
More coverage each rotation

Question 36

What is the benefit of CT in haemorrhaging and clotting ?

Answer 36

Urgent diagnosis required for treatment
Clot busting drugs may increase bleeding

Allows us to quickly decipher whether patient has a clot or haemorrhage in the brain and can therefore treat accordingly

Question 37

How is CT used in disease progression?

Answer 37

Can measure size of tumours etc. progression of disease

Imaging is used for monitoring response to therapy

Question 38

How is CT used in radiotherapy and treatment planning?

Answer 38

External beam radiotherapy irradiates normal tissue as well as tumour
Multiple beams are used to spare normal tissue

CT is used to define area to be treated and the direction of the radiotherapy beams that are used

Question 39

How is emission imaging carried out?

Answer 39

Nuclear Medicine: Emission Imaging
I
nject radioactive tracer, patient is emitting the gamma rays
Image depends on the metabolism of the tracer

Question 40

What is the use of emission imaging?

Answer 40

Functional imaging

Question 41

What are 2 common functional imaging methods?

Answer 41

• PET

- Gamma camera

Question 42

Describe the gamma camera

Answer 42

Uses single photon emitting radionuclides

Can operate in 2D (planar) or 3D (SPECT)

Question 43

What is PET scanning?

Answer 43

Positron Emission Tomography
Uses positron emitting radionuclides
Always 3D

Question 44

What is half life?

Answer 44

Half life - time taken for radioactivity to reduce to 50%

Question 45

Why is half life significant in emission imaging?

Answer 45

When injecting radioactive tracers need to consider radioactive decay times (half lives) as only a finite amount of radioactivity injected into a patient

Question 46

Explain how gamma camera imaging works

Answer 46

Gamma cameras have imaging “heads”

For radionuclides that decay with direct emission of gamma rays

Question 47

Name a common gamma camera radionuclide

Answer 47

Most common radionuclide is Tc-99m (T1/2 = 6 hours)

Question 48

Give examples of common tracers used in gamma camera imaging

Answer 48

Tc-99m MDP (bone scans)
Tc-99m DTPA (kidneys)
Tc-99m White Cells (infection/inflammation)

Question 49

How is gamma camera imaging used to identify cancer?

Answer 49

Used to identify functional changes in cancer:

Cancer has higher metabolic rate than normal tissues ∴will take up more tracer

Question 50

Describe how a dynamic renal transplant scan is carried out using gamma camera imaging

Answer 50

Camera positioned above patient
Tc-99m DTPA injected IV

Gamma camera records gamma rays and collects image over time
Bright area is vascularised shows tracer uptake and normal activity

Functional Time –Activity curves are obtained

Question 51

What is SPECT?

Answer 51

Single photon emission computed tomography

• uses gamma rays
  Acquires <64 images 3D from around the head
  Reconstruction of transaxial slices

Question 52

What is the difference in nuclear and emission imaging?

Answer 52

Nuclear images only detect 1 gamma ray, emission imaging creates 2 gamma rays

Question 53

What is FDG?

Answer 53

FDG is a glucose analogue which enters cells in the same way as glucose

Question 54

Why is FDG a used radionuclide in PET scanning?

Answer 54

FDG phosphorylated by hexokinase is “metabolically trapped” and therefore has increased uptake and retention in metabolically active tissue.

Good reflection of distribution and glucose uptake as well as phosphorylation by cells

Question 55

Describe a PET scanner

Answer 55

A ring of scintillation detectors supported in a fixed gantry

Operated in “coincidence mode” - only photons emitted from an annihilation event are recorded

Question 56

Outline how a PET signal is formed

Answer 56

2 gamma rays originate from one annihilation event

Both detected within a short time (a few ns)

Defines ray path for subsequent reconstruction of image

Question 57

Outline the different hybrid imaging techniques used to consolidate findings

Answer 57

PET-CT
SPECT-CT
PET-MR

Question 58

Why is emission imaging used for attenuation correction?

Answer 58

Gamma rays originating from the centre of the patient will travel through more tissue which mean they are attenuated more