Principles of Imaging

Question 1

Define radiology

Answer 1

• Medical specialty concerned with radiation, for the diagnosis and treatment of disease

Question 2

What is the basis of radiology?

Answer 2

EM Spectrum
- UV and gamma rays are ionising raditon and can be a health hazard so only used when needed

Question 3

What sections of the EM Spectrum are the modalities of radiology based on?

Answer 3

IONISING
- X-RAYS/FLUOROSCOPY AND CT - X-Rays
- Nuclear imaging - Gamma rays
NON-IONISING
- MRI - Magnetic fields and radio waves
- Ultrasound - Sound waves

Question 3

What is the difference between a radiographer and radiologist?

Answer 3

• RADIOGRAPHER - take pictures for scanning
• RADIOLOGIST - interpret images taken by radiographers/interventional radiology

Question 4

How are X-Rays produced? PART 1

Answer 4

• X-Ray tube contains a cathode and anode
• Low voltage supply heats up a filament at the cathode.
• Filament emits electrons by thermionic emission.
• Current is passed in-between cathode and anode.

Question 4

How are X-Rays produced? PART 2

Answer 4

• Electrons are accelerated towards anode.
• When electrons collide with anode, decelerate
• X-rays are produced, passed through human body, attenuated according to body part density and image produced on screen.

Question 5

What are PA X-rays?

Answer 5

• X-rays pass from posterior to anterior sided of body before forming image
• EXAMPLE: Chest X-rays

Question 6

How does density affect the X-ray image colour? PART 1

Answer 6

• Bones are very dense so X-rays become completely attenuated as they pass through - image is white
• Soft tissue has less density than bones so image is light gray

Question 7

How does density affect the X-ray image colour? PART 2

Answer 7

• Density of fat is even lower - more X-rays pass through - less are attenuated - appear dark grey
• Air is the least dense - more X-rays pass through - appears black

Question 8

Define fluoroscopy.

Answer 8

• Radiological technique - gives ‘real time video’ image of X-rays on a TV screen

Question 9

How do fluoroscopic units work and when can they be used?

Answer 9

• X-Rays pass through human body
• Connected to an image intensifier (caesium iodide screen) which is connected to a TV screen
• Barium studies and angiographies

Question 10

How do CT scanners work?

Answer 10

• Patient placed on table in CT scanner gantry
• Gantry rotates around moving patient table
• Thin axial slices of image acquired
• Images can be reformatted e.g VR and MIP rendered

Question 11

How do MRI scanners work? PART 1

Answer 11

• Patient placed in static magnetic field
• Body hydrogen atoms aligned in long axis of direction of external magnetic field
• Radio frequency pulses switched on
• Produces EM field
• Alters axis of alignment of protons

Question 12

How do MRI scanners work? PART 2

Answer 12

• Radio frequency pulses switched off
• Protons realign with axis of eternal magnetic field
• Protons emit radiofrequency signal
• Position of signal detected and image formed

Question 13

How does ultrasound imaging work?

Answer 13

• Ultrasound scanner converts electrical energy to mechanical energy and then to ultrasound waves
• Ultrasound waves penetrate body
• Reflected back to transducer and reconverted to electrical energy
• Image formed

Question 14

Describe the phenomenon that ultrasound scanning is based on.

Answer 14

PIEZOELECTRIC PHENOMENON
- When piezoelectric crystal subjected to mechanical pressure, electrical voltage generated
- Crystal becomes electrically pulsed so vibrates and produces sound wave that propagates through tissue and reflects back to transducer.

Question 15

Define nuclear medicine with an example

Answer 15

• Uses small amounts of radiotracer with an affinity for a particular body part
• Tracer injected into bloodstream and emits gamma radiation
• Patient scanned with gamma camera and emission pattern allows image to form
• EXAMPLE: SPECT Scanning

Question 15

What is PET CT scanning?

Answer 15

• PET scanning (a type of nuclear scanner) used in fusion with CT scanning
• Commonly used in cancer imaging

Question 16

How does PET scanning work in cancer imaging?

Answer 16

• Cyclotron produces radiotracer e.g FDG
• Cancer grows at a faster rate than healthy tissue so absorbs FDG
• Detected and depicted in image (colour coded to distinguish between normal and cancerous tissues)

Question 17

Describe SPECT scanning.

Answer 17

• Soecial type of nuclear scanner - two gamma cameras
• Can do cross section imaging and produce multiplanar and 3D images
• Can be combined with CT and MRI scans

Question 18

Describe the physics behind PET scan image formation. PART 1

Answer 18

• Patient injected with FDG which accumulates in cancer cells
• Patient placed in PET scanner gantry
• FDG decays and emits positron

Question 19

Describe the physics behind PET scan image formation. PART 2

Answer 19

• Positron collides with electron. Positron-electron annihilation
• Two equal gamma radiations move in opposite directions
• PET scanner localises radiation and produces image