Digital Fluoroscopy Imaging System
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Dec 09, 2018
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About This Presentation
Digital Fluoroscopy Imaging System
Muhammad Arif Afridi
Lecturer In Medical Imaging
Email: [email protected]
Slide Content
Digital Fluoroscopy
Muhammad ArifAfridi
Lecturer In Medical Imaging
Email: [email protected]
MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected] 1
Muhammad ArifAfridi
Lecturer In Medical Imaging
Email: [email protected]
MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected] 1
Conventional Fluoroscopy System
2MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
2MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Advantages of DF over conventional fluoroscopy include the speed of image acquisition and post
processing to enhance image contrast.
Digital Fluoroscopy System
3MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
processing to enhance image contrast.
Digital Fluoroscopy System
3MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Digital fluoroscopy is currently most commonly configured as a conventional fluoroscopy system.
The analog video signal is converted to a digital format with an analog-to-digital converter
(ADC).
A computer has been added, as have multiple monitors and a more complex operating console
4MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
The analog video signal is converted to a digital format with an analog-to-digital converter
(ADC).
A computer has been added, as have multiple monitors and a more complex operating console
4MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
A major change from conventional fluoroscopy to DF is the use of a charge-coupled device (CCD)
instead of a TV camera tube.
The sensitive component of a CCD is a layer of crystalline silicon.
The CCD is mounted on the output phosphor of the image-intensifier tube and is coupled
through fiber optics.
The CCD has greater sensitivity to light a lower level of electronic noise than a television camera
tube.
Charge-Coupled Device
5MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
instead of a TV camera tube.
The sensitive component of a CCD is a layer of crystalline silicon.
The CCD is mounted on the output phosphor of the image-intensifier tube and is coupled
through fiber optics.
The CCD has greater sensitivity to light a lower level of electronic noise than a television camera
tube.
Charge-Coupled Device
5MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
The response of the CCD to light is very stable. Warm up of the CCD is not required.
“DF with CCD results in wider dynamic range and better contrast resolution than conventional
fluoroscopy.”
6MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
“DF with CCD results in wider dynamic range and better contrast resolution than conventional
fluoroscopy.”
6MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Manner in which a charge-coupled device can be coupled to the image-
intensifier tube.
7MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
intensifier tube.
7MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
The further improvement of DF imaging is developing the flat panel image receptor (FPIR).
Such an image receptor is composed of cesium iodide (CsI)/amorphous silicon (a-Si) pixels.
The FPIR is much smaller and lighter and is manipulated more easily than an image intensifier.
Flat-panel detectors are more sensitive and faster thanfilm.
Their sensitivity allows a lower dose of radiation for a given picture quality than film.
Flat Panel Image Receptor
8MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Such an image receptor is composed of cesium iodide (CsI)/amorphous silicon (a-Si) pixels.
The FPIR is much smaller and lighter and is manipulated more easily than an image intensifier.
Flat-panel detectors are more sensitive and faster thanfilm.
Their sensitivity allows a lower dose of radiation for a given picture quality than film.
Flat Panel Image Receptor
8MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
As tubes were replaced by CCD, now, CCD will be by FPIRs
FPIR is smaller, lighter and manipulated more easily
It provides easy manipulation of patient, radiologist/radiographer
No cassette is required
9MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
FPIR is smaller, lighter and manipulated more easily
It provides easy manipulation of patient, radiologist/radiographer
No cassette is required
9MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
10MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
IMAGE DISPLAY
11MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
11MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Flat panel display technology is rapidly replacing the cathode ray tube (CRT) in all applications.
Flat panel monitors are easier to view and easier to manipulate, and they provide better images.
Flat Panel Image Display
12MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Flat panel monitors are easier to view and easier to manipulate, and they provide better images.
Flat Panel Image Display
12MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Digital Subtraction Angiography
13MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
13MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
In DF, microcomputers and microprocessors are used
Computers are vital for image quality and speed of image formation
It also determine image matrix size, system dynamic range and image acquisition range, also image
acquisition rate
The output signal from image-intensified digital image receptor is transmitted to an analog-to-digital
converter (ADC)
ADC converts analogsignal into digital signal
8-bit ADC convert the analogsignal into values (0-255)
10-bit ADC is more precise (0-1023)
The output of the ADC is transferred to main memory and is manipulated so that a digital image in matrix
form is stored
In primary memory, data acquisition and transfer is rapid 30 images per second
Introduction
14MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Computers are vital for image quality and speed of image formation
It also determine image matrix size, system dynamic range and image acquisition range, also image
acquisition rate
The output signal from image-intensified digital image receptor is transmitted to an analog-to-digital
converter (ADC)
ADC converts analogsignal into digital signal
8-bit ADC convert the analogsignal into values (0-255)
10-bit ADC is more precise (0-1023)
The output of the ADC is transferred to main memory and is manipulated so that a digital image in matrix
form is stored
In primary memory, data acquisition and transfer is rapid 30 images per second
Introduction
14MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Image formation in DSA
Principal advantage of DF is image subtraction technique
An enhanced visualisation of vasculature as a results from
venous injection of contrast material
Image contrast is improved by subtraction techniques
allowing to view subtracted image during passage of a bolus
of contrast medium
15MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Principal advantage of DF is image subtraction technique
An enhanced visualisation of vasculature as a results from
venous injection of contrast material
Image contrast is improved by subtraction techniques
allowing to view subtracted image during passage of a bolus
of contrast medium
15MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Temporal subtraction is an image processing technique that facilitates the visualization of
pathologic change across serial chest radiographic images acquired from the same patient
Temporal Subtraction
16MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
pathologic change across serial chest radiographic images acquired from the same patient
Temporal Subtraction
16MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Methods of Subtraction
Temporal Subtraction
◦Mostly used technique
◦Referred to a number of computer assisted
techniques
◦It is image taken at one time is subtracted from an
image obtained at a later time
◦When contrast media is introduced, subtracted image
will contain vessels filled with contrast
◦Two methods;
◦Mask mode and the time-interval difference mode (TID)
17MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Temporal Subtraction
◦Mostly used technique
◦Referred to a number of computer assisted
techniques
◦It is image taken at one time is subtracted from an
image obtained at a later time
◦When contrast media is introduced, subtracted image
will contain vessels filled with contrast
◦Two methods;
◦Mask mode and the time-interval difference mode (TID)
17MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Mask mode
Images from a DSA study: (a) Mask Image; (b) Live Image; (c) Mask-Live Image; (d) Live-Mask
Image.
18MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Images from a DSA study: (a) Mask Image; (b) Live Image; (c) Mask-Live Image; (d) Live-Mask
Image.
18MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Mask mode
Patient is positioned under normal fluoroscopic control to ensure region of anatomy is in FOV
Power injector is armed and readied to deliver 30 -50 ml of contrast at rate of 15-20ml/s through venous entry
On arterial, 10-25ml of diluted contrast material at 10-12 ml/s
Imaging system is changed from fluoroscopic mode to DF mode
This requires increase in x-ray tube current 20-100 times
Activation of a programme for pulse image acquisition as well
Injector is fired, after a delay of 4-10 s before bolus of contrast medium reaches anatomical site
An initial x-ray pulsed exposure is made
Image obtained is stored in primary memory
Image is displayed on video monitor, this is the mask image
19MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Patient is positioned under normal fluoroscopic control to ensure region of anatomy is in FOV
Power injector is armed and readied to deliver 30 -50 ml of contrast at rate of 15-20ml/s through venous entry
On arterial, 10-25ml of diluted contrast material at 10-12 ml/s
Imaging system is changed from fluoroscopic mode to DF mode
This requires increase in x-ray tube current 20-100 times
Activation of a programme for pulse image acquisition as well
Injector is fired, after a delay of 4-10 s before bolus of contrast medium reaches anatomical site
An initial x-ray pulsed exposure is made
Image obtained is stored in primary memory
Image is displayed on video monitor, this is the mask image
19MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Mask image is followed by series of additional images
The masked image is subtracted from each other and result is stored in primary memory
At same time, subtracted image is displayed on video monitor
Subtracted images are displayed in real time
Image integration is summing up four to eight images to form single image for improving
contrast resolution
Remasking is possible if patient moved or improper technique
A typical examination requires total of 30 images in additional to mask image
Unacceptable mask images can be caused by noise, motion and technical factors
MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected] 20
The masked image is subtracted from each other and result is stored in primary memory
At same time, subtracted image is displayed on video monitor
Subtracted images are displayed in real time
Image integration is summing up four to eight images to form single image for improving
contrast resolution
Remasking is possible if patient moved or improper technique
A typical examination requires total of 30 images in additional to mask image
Unacceptable mask images can be caused by noise, motion and technical factors
MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected] 20
Time-Interval Difference mode
Images are made from different mask and follow-up frame
In cardiac study, image acquisition begins 5s after injection at the rate of 15 images per second for
4s
Total of 60 images are obtained
These images are identified as image no.1 to no.60
If a TID of four images is selected
First image produced by subtracting frame 1 from frame 5
Second image produced subtracting frame 2 from frame 6
Third image produced subtracting frame 3 from frame 7
And so on……. This is called progressive masking
Such images are free of motion artifacts
MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected] 21
Images are made from different mask and follow-up frame
In cardiac study, image acquisition begins 5s after injection at the rate of 15 images per second for
4s
Total of 60 images are obtained
These images are identified as image no.1 to no.60
If a TID of four images is selected
First image produced by subtracting frame 1 from frame 5
Second image produced subtracting frame 2 from frame 6
Third image produced subtracting frame 3 from frame 7
And so on……. This is called progressive masking
Such images are free of motion artifacts
MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected] 21
Conventional & Digital Fluoroscopy Differ
primarily in the imaging system, i.e., an image intensifier-video camera system versus a digital
imaging chain which may have neither an image intensifier nor video camera. In general, all
other portions of the equipment are similar.
22MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
primarily in the imaging system, i.e., an image intensifier-video camera system versus a digital
imaging chain which may have neither an image intensifier nor video camera. In general, all
other portions of the equipment are similar.
22MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected]
Thank you!
MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected] 23
MUHAMMAD ARIF AFRIDI | LECTURER IN MEDICAL IMAGING | [email protected] 23
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