Post on 14-Dec-2015
DIGITAL RADIOGRAPHY
College of Dentistry516 MDS
Asma’a Al-Ekrish
A REVIEW
HISTORY
Image Plate Systems
1947- Berg and Kaiser
1975- optical scanner and digitizer
1981- publicly presented in
1994- the first dental PSP (Digora-Sordex)
Solid State Systems
1960's- development of CCD and CMOS
1970’s- CCD (Bell Laboratories)
1988- CMOS (Scotland)
1980’s- first intraoral digital system -Francis Mouyen (Radiovisiography system RVG, Trophy, France
TYPES OF DENTAL IMAGES
Analogue:• Gray shades are continuous and show a
gradual change
Digital:• Gray shades
have discrete values and are assigned to individual picture elements.
• Smooth transitions changed into a checker pattern, by the pixels
IMAGE RECEPTORS Sensors
When X-rays hit sensor, an electronic charge is produced on the surface of the sensor.
Electronic signal is sent to the computer (either directly or indirectly) as an analogue signal and there is digitized ( by a frame-grabber or A-D converter)
Measurements of the photon intensity are transmitted to the computer where they are recorded numerically
THE DIGITAL IMAGE
C) Numerical representation of pixel values.
A) X-rayshadow.
B) Image as detected by the digital sensor; each square is apixel.
D) Digital image on the computer screen.
(van der Stelt 2000; van der Stelt 2005)
THE DIGITAL IMAGE
C) Numerical representation of pixel values.
A) X-rayshadow.
B) Image as detected by the digital sensor; each square is apixel.
D) Digital image on the computer screen.
THE DIGITAL IMAGE
THE DIGITAL IMAGE
binary numerals
0 (zero) 1(one)
01101001 28 = 256 possible combinations
0011100011010101 216 = 64,000
possible combinations
DIRECT AND INDIRECT DIGITAL IMAGING
A. Direct Digital Radiography:Real Time Systems (CCD or CMOS)
B. Semi-direct Digital RadiographySPS Image Plates
C. Indirect Digital RadiographyConverting a pre-existing analogue image to a digital one
REQUIREMENTS OF DIGITAL SYSTEM
1. X-ray generator
2. Sensor
3. Computer
4. Software
5. Monitor
6. Printer
REQUIREMENTS OF DIGITAL SYSTEM
COMPONENTS OF THE SYSTEM MUST
BE DICOM COMPATIBLE
( Digital Imaging Communication in Medicine )
REAL TIME SYSTEMS
A- Charged Couple Device (CCD)
Sensors
B- Complementary Metal Oxide
Semiconductors(CMOS) sensors
REAL TIME SYSTEMS
CCD
CCD
fibreoptics
Intensifying screen
SILICON CHIP WITH ELECTRONIC CIRCUIT EMBEDDED INTO IT.
REAL TIME SYSTEMS
CCDProduction of the image
X-rays
electronic signal
To A-D converter
light from scintillating layer
REAL TIME SYSTEMS
CCDProduction of the image
A-D Converter
1- Sampling
2- Quantization
White and Pharoah (2004)
REAL TIME SYSTEMS
CCD
Advantages
and
Disadvantages
REAL TIME SYSTEMS
CMOS
RAM
Micro-controller
unit
REAL TIME SYSTEMS
CMOS
Advantages
and
Disadvantages
REAL TIME SYSTEMS CCD vs. CMOS
CCD CMOS
When invented 1967 1967
Power consumption 400mW 40mW
Sensitivity to light Excellent Excellent
Sensitivity to x-rays High Unknown
Cost High Low
Manufacturing Expensive Expensive
Fixed pattern noise Low High
Quantum efficiency Excellent Fair
Adapted from Langlais, R.P., and Miles D.A. Digital radiographic imaging: Technology for the next millennium. www. Learndigital.net
REAL TIME SYSTEMS
ADVANTAGES
1. Image immediately displayed
2. Higher spatial resolution than semi-direct systems
(PSP)
REAL TIME SYSTEMS
DISADVANTAGES
1. Cost
2. Bulky
3. Electrical
4. cords
5. Rigid
6. Active- area limitations
Photostimulable Phosphor Plates (PSP)
IMAGE PLATE SYSTEMS
backing
barium flourohalide
Protective coating
IMAGE PLATE SYSTEMS
Production of the Image
Decay of the Image
IMAGE PLATE SYSTEMS
ADVANTAGES
1.Thin
2.Flexible
3.Cordless
4.Size comparable to standard size films
5.Reusable
6.Broad exposure latitudes
7.May be used with existing x-ray generators
IMAGE PLATE SYSTEMS
DISADVANTAGES
1. Extra step- scanning procedure
2. Dose reduction not as much as with solid-state detectors
EXTRA-ORAL RADIOGRAPHY
CCD or PSP may be used
Tomography only with PSP
QUALITY FACTORS
Resolution: how well closely spaced objects can be distinguished
Sharpness: distinctiveness of feature boundaries
Contrast: distinctiveness of light and dark areas.
Distortion: the difference between the apparent and true locations of points on an image.
QUALITY FACTORS Modulation Transfer Function (MTF):
Describes the ability of a system to record the spatial frequencies that are available to be recorded
Noise: unwanted fluctuations in image density
Detector Quantum Efficiency (DQE): combined effect of noise and contrast performance of an imaging system, expressed as a function of object detail.
QUALITY FACTORS
CONTRAST RESOLUTION
QUALITY FACTORS
SPATIAL RESOLUTION
QUALITY FACTORS
SPATIAL RESOLUTION
QUALITY FACTORS SPATIAL RESOLUTION
QUALITY FACTORS
SIGNAL TO NOISE RATIO (SNR):
Reproduced from Oakley (2003 )
QUALITY FACTORS
ARTIFACTS
Distortions are any unwanted elements in the image
Produced by either:• the image sensor (CCD/CMOS),
• optical system,
• internal image processing algorithms, or
• compression algorithm.
IMAGE DISPLAY- MONITORS
Cathode Ray Tubes (CRT)
Flat panel- Liquid Crystal Displays
(LCD)
Reproduced from Oakley (2003 )
IMAGE DISPLAY- MONITORS
QUALITY FACTORS OF MONITORS
1. dot pitch
2. resolution
3. luminance
4. brightness and contrast settings
IMAGE DISPLAY- MONITORS
QUALITY FACTORS OF MONITORS
5. refresh rate
6. color depth
7. footprint and weight
8. contrast layer
FACILITIES OFFERED BY DIGITAL RADIOGRAPHY
Dose reduction
( van der Stelt 2000; van der Stelt 2005 )
FACILITIES OFFERED BY DIGITAL RADIOGRAPHY
Dose reduction
Image processingImage Enhancement
Contrast enhancementFiltering
SubtractionColor
Image Restoration
System defectsGeometric
Transformation
Image Analysis
MeasurementSegmentation
Feature extractionObject classification
CADIA
Image Compression
LosslessLossy
Image Synthesis
TomosynthesisTACT
Localized CT
FACILITIES OFFERED BY DIGITAL RADIOGRAPHY
Miles, D. (2000). "The future of digital imaging in dentistry." Dental Clinics of North America 44: 427-438
Storage, archiving, retrieval
FACILITIES OFFERED BY DIGITAL RADIOGRAPHY
Electronic transmission
FACILITIES OFFERED BY DIGITAL RADIOGRAPHY
1. Dose reduction
2. Time- faster to acquire
3. No chemical processing- eliminating processing errors, saving space and money on the long term. Environmentally friendly
4. Long term savings on film processing
5. Better gray scale resolution
6. Image processing
7. Teleradiology
8. Less storage space
GENERAL ADVANTAGES
1. Initial setup cost
2. Less spatial resolution
3. Sensor size
4. Requires more space in the operatory- but no
dark room.
5. more time to process information
GENERAL DISADVANTAGES
Quality diagnostic images
Radiation dose less than film
Lossless archiving is allowed in an image file format DICOM compatible
ESSENTAIALS OF ANY SYSTEM
The paperless office
Computer aided diagnosis and detection of defects
3-D visualization of dental structures based on radiographic data at the level of single teeth
Wireless technology
FUTURE of DIGITAL RADIOGRAPHY
Continued reduction is storage media and size
Testing, maintenance, and upgrade of equipment and software online
Research towards a "smart card"- which could carry a patient's medical and dental notes along with their radiographic images
Global education and distanc learning
FUTURE of DIGITAL RADIOGRAPHY
Analoui, M. and K. Buckwalter (2000). "Digital radiographic image archival, retreival, and management." Dental Clinics of North America 44(2): 339-358
Farman, A. and T. Farman (2005). "A comparison of 18 different x-ray detectors currently used in dentistry." Oral Surg Oral Med Oral Pathol Oral Radiol Endod 99: 485-9.
Miles, D. (2000). "The future of digital imaging in dentistry." Dental Clinics of North America 44: 427-438.
Oakley, J. (2003). Digital imaging. A primer for radiographers radiologists and health care professionals. London, Greenwich Medical Media Limited.
van der Stelt, P. F. (2000). "Principles of digital imaging." Dental Clinics of North America 44(2): 237-247.
van der Stelt, P. F. (2005). "Filmless imaging. The uses of digital radiography in dental practice." JADA 136: 1379-1387.
White, S. C. and M. J. Pharoah (2004). Oral radiology.Principles and interpretation. St. Louis, Mosby.
References:
Thank YouThank YouQuestions?Questions?