2. Digital Radiographic Imaging

Question 1

What is the typical size of a DICOM for a radiograph?

Answer 1

4-12MB

Question 2

Define spatial resolution. What feature of digital radiographic imaging is most important for this?

Answer 2

• How small an object can be detected
• PIXEL SIZE!

More generally better, although at a point, there will be no improvement in image quality -> other technical and hardware factors

Question 3

What is BIT DEPTH? What formula can calculate this?

Answer 3

• Refers to number of grey shades present within an image
• Determined by 2ⁿ

Where n = number of 0s and 1s permitted per pixel

e.g. BIT depth 4 = 2⁴ = 16 grey shades

DIRECTLY RELATED TO IMAGE FILE SIZE

Question 4

How does a Computed Radiography (CR) plate work?

Answer 4

• Flexible plate coated with photostimulable phosphor (PSP)
• > Xray attenuation pattern stored as latent image in PSP => CHANGES IN ELECTRON ENERGY BANDS
• Latent image read out by scanning laser in plate reader

=> Visible light emitted, hits PMT -> converted to electronic signal

• Exposed to bright white light to return electrons to ground state

Question 5

List two advantages of CR systems

Answer 5

• Damage to plates -> Relatively inexpensive to replace
• May help obtaining non-standard views as mobile

Question 6

What are the 3 types of DDR (Direct Digital Radiography) systems?

Answer 6

1) Indirect flat panel
2) Direct flat panel
3) Charge-coupled device (CCD)

Question 7

Describe how an indirect flat panel DDR system works

Answer 7

• Xrays converted to VISIBLE LIGHT (Hence indirect) by XRAY INTENSIFYING SCREEN

–> Layered onto panel with array of photodiodes

=> Convert to electronic signal

• Read out by a thin-flim transistor array -> electronic file
• Many detector elements required for good spatial resolution
• Commonly capable of Bit depth 14
• Many photodiodes (can have 6-7million), complex electronics

EXPENSIVE

• One disadvantage: Some light diffusion in intensifying screen can lead to blurring. In reality, technology negates this. Comparable to Direct.

Question 8

Describe how direct flat-panel detectors work

Answer 8

Xrays strike photoconductor -> TYPICALLY AMORPHOUS SELENIUM (effcient absorber)

=> Electrons liberated and collected to form charge

• Charge read out directly by thin-film transistor array
• Processed -> Electronic file
• Similar matrix size and bit depth (typically 14) to indirect
• NO VISIBLE LIGHT EMITTED. Key difference

Question 9

How many grey shades can the human eye detect?

Answer 9

50 - 100 simultaneous shades

-> probably little benefit in generating >14-16 Bit depth (16000+ shades!)

Question 10

Describe how a Charged-Coupled Device (CCD) works

Answer 10

• Small chip, used in cameras etc. Only a few centrimetres cf. 43x43cm DR plates
• Sensitive to visible light:
  Xrays -> intensifying screen -> fibreoptic connection / focusing lenses to chip
• Pixels in chip accumlate electronic charge, read-out and converted to file

May be millions of pixels on surface of CCD!

• GEOMETRY NOTEWORTHY: Small -> needs focussing cf indirect DDR where intensifying screen directly layered onto detector

IMPORTANT:

image quality depends more on quality of light collection / focusing than on quality of chip

some LOSS OF LIGHT and DISTORTION between screen and CCD -> can lead to image degradation

**spatial resolution more affected by these factors in CCD cf pixel density of DDR**

Use: Dental, (mammography) where small area imaged! Less neeed for focusing

Disadvantages:

• housing quite large to accomdate focusing -> often built within table
• Requires vertical relationship betweeen components in housing, not portable, cant do horizontal readily

Question 11

Describe the differences between preprocessing, processing and post processing

Answer 11

Pre:

• Corrections to raw data beyond control of user
• E.g. inhomogeneity of light collection, imade distrotion, dead pixels

Processing:

• Some controlb user -> conversion of corrected raw data at xray station
• E.g. optimize contrast, edge enhancement, minimise noise etc.
• Often presets e.g. thorax / abdo / limb

Post-processing:

• In Dicom viewer -> 100% user controlled
• magnifcation, blackness, rotation, measurment etc.

Question 12

List 6 advantages of digital XR

Answer 12

1) Reduced expendable supply cost / dark room cost
2) Contrast optimization and exposure latitude
3) Postprocessing
4) Image accesibility / storage
5) Portability
6) Oppurtunity to change image paradigm…

Question 13

How does spatial resolution compare between imaging modalities?

Answer 13

Screen film approximately 2x that of digital (0.08mm vs 0.17mm)

Question 14

What factors contribute to inherent spatial resolution in Screen film vs digital radiography?

Answer 14

It is the combination of the below factors that ultimately produces overall spatial resolution.

NB: Despite difference between two modalities -> EXCELLENT in both

Question 15

What digital alternative to scatter grids is available? What are the advantages of this?

Answer 15

Antiscatter algorithm

• Dont need increased mAs
• No grid artefact

=> User preference cf using grid

Question 16

Define spatial resolution vs contrast resolution

Answer 16

• Spatial: Ability to resolve small objects -> contribution of multiple factors
• Contrast resolution (= contrast optimization): Unique to digital -> relates to BIT DEPTH. Relates to range of gray scales available for assignment to individual pixels. In analog - black or white only. Think about film screen image of multiple areas of different thickness below…

Question 17

What is exposure latitutude?

Answer 17

• The ability of a digital system to compensate for inappropriate kVp / mAs combinations to produce an image

=> comparatively ‘narrow’ in analog imaging

NB: Confusingly sometimes called dynamic range, but this term is used for other things too, including contrast resolution. AVOID

Question 18

What is exposure creep? How can it be evaluated?

Answer 18

• Failure to recognise higher exposure factors when using digital imaging due to inherent broad exposire latitude.

=> patient and personnel exposure, damage to tube

Exposure index (EI) - metric toat evaluates amount of incident radiation striking plate

Question 19

In digital systems, besided exposure creep, what other impacts does inappropriate exposure settings produce?

Answer 19

• Image noise in underexposed images -> statistical uncertainty as not enought xrays/data striking each detector element => GRAINY
• Saturation in overexposed images -> Assign black to saturated pixels. Some parts of image uniterpretable or abnormal grey scale assignment. Can result in affected areas misinterpreted as lesions

Question 20

Detail the component parts of Picture Archiving and Communications System (PACS)

Answer 20

• Host of technologies that contribute to creation, distribution and archiving of images
  1) Xray machine and system
  2) Server (local archive)
  3) Workstations
  4) LAN
  5) Image communication protocol
  6) Off-site secure storage

Question 21

What does VNA stand for?

Answer 21

Vendor neutral archives

• File format agnostic -> all images can be archived in one resource

Question 22

What is RAID?

Answer 22

Redundant array of independent disks (RAID)

• Data storage over multiple disks
• Protects against individual harddrive failure
• ABSOLUTE MINIMUM for hardware redundancy
• > doesnt protect against other hardware errors e.g of RAID controller or other critical components

Off-site sorage which is frequently updated preferable

Question 23

What storage / backup options are utilised for digital imaging?

Answer 23

• RAID - see previous
• CLOUD storage