Mobile c arm equip and dsa

MOBILE C-ARM EQUIP Digital APPLICATIONS & DSA

MOBILE FLUOROSCOPY C-ARM UNIT - Tube at one end - I.I. at other end TV Monitor control cart separate from unit Uses Digital Fluoroscopy Last Image Hold, Image Enhancement Save for hard copies from disk, Video Photographic Magnification, Subtraction Static (pulsed) and continuous fluoro Maneuverable and Versatile

RADIATION PROTECTION Remember the “Cardinal Rules” FLUOROSCOPIC Minimum source to skin distance = 12” Preferred SSD OF 18”  Distance from tube and patient ↓ Distance from II to the patient 5 min Audible Alarm At least .25mm lead apron to be worn 5 R/min – 10 R/min BOOST – 20 R/min 2.2R/ma @ 80 kVp

RAD PROTECTION RULES OF GOOD PRACTICE -continued Never place your hand or other body part in primary beam Provide gonadal protection for the patient if possible FOR C-ARM – IF BEAM FROM BELOW – PLACE APRON ON TABLE BEFORE PATIENT IS ON TABLE Achieve maximum distance from the patient and tube (stand 90° from the patient- SEE Merrills – pg 212 ) Minimum 6 foot exposure cord for radiography Label and handle cassettes carefully

fluoroscan uMa No Apron Needed?? “ Per manufacturer”

DR & GRID USE Name & Cause of this PROBLEM ??

Angiographic Equipment Single or biplane image intensification A C-arm or U-arm device is preferable the equipment can be rotated rather than the patient when visualization of the catheter is critical simultaneous biplane visualization exposures are needed to reduce the number of injections of contrast required

Bi Plane Digital Angio Equipment Less Time for Procedure Less contrast for patient BUT - Not Less Radiation ALSO Can POST PROCESS And use DSA faster processing time than film No “jammed” films

Digital Fluoroscopy Fluoroscopy is a common technique used by clinical physicians to obtain real time images of moving body parts and internal structures of a patient compared to static radiographic examinations.

Advantages of Digital Fluoro from Conventional Fluoro Post Processing results in ENHANCED Contrast Resolution SPEED OF ACQUISITION 1024 x 10 24 image matrix (1000 lines) System provides better spatial resolution than the 525 line system

Digital Fluoroscopy A digital fluoroscopy system is commonly designed as a conventional one in which the analog video signal is converted to and stored as digital data by an analog to digital converter (ADC) (DAC to print image)

Image digitizer (ADC) This turns the analog TV image into a digital image consisting of pixels the number of which depends on the lines per inch of the TV image The usual pixel numbers in an image are 512 x 512 conventional Digital 1024 x 1024 (high resolution)

DSA Equipment Digital subtraction angiography requires more complex equipment than digital radiography, specifically because it has to manipulate a number of pulsed images and at the same time create a subtracted image using the first pre contrast image as a mask

DF Uses High Voltage generator Tube operates in Radiographic Mode So PULSE programming keeps tube from overheating 1- 10 second image acquisition Generator can switch off/on rapidly = INTERROGATION TIME (ON TIME) Extinction time ( Switched OFF)

Digital Fluoroscopy and Digital Subtraction Angiography ( DSA ) DIGITAL IMAGE DATA PROCESSNG IN DIGITAL FLUOROSCOPY Last Image Hold Gray-scale processing Temporal Frame Averaging Edge Enhancement MORE LINEAR RESPONSE than F/S

Digital radiography principle Clock Memory ADC I Iris t t ANALOGUE SIGNAL DIGITAL SIGNAL

Digital Fluoroscopy- CCD Digital video camera (Charge-couple device) CCD is a solid state device that converts visible light photons to electrons layer of cyrstalline silicon – e’s The electron signal is read pixel by pixel and an image is formed Fast – very little lag time First used by Military

ADC – ANALOG TO DIGITAL CONVERTER TAKE THE ANALOG ELECTRIC SIGNAL CHANGES IT TO A DIGITAL SIGNAL TO MONITOR – BETTER RESOLUTION WITH DIGITAL UNITS

Digital Fluoroscopy Use CCD to generate electronic signal Signal is sent to ADC Allows for post processing and electronic storage and distribution

Video Camera Charged Coupled Devices (CCD) Operate at lower voltages than video tubes More durable than video tubes Semiconducting device Emits electrons in proportion to amount of light striking photoelectric cathode Fast discharge eliminates lag

Remote – over the table tube

Newer Digital Fluoroscopy Image intensifier output screen coupled to TFTs TFT photodiodes are connected to each pixel element Resolution limited in favor of radiation exposure concerns Direct capture of x-ray (flat–panel detector) a-silicon a-selenium

Digital – CCD using cesium iodide Exit x-rays interact with CsI scintillation phosphor to produce light The light interact with the a-Si to produce a signal The TFT stores the signal until readout, one pixel at a time

CsI phosphor light detected by the AMA (active matrix array) of silicon photodiodes

Direct or Indirect Capture TFT IN -DIRECT – CsI phoshor coated on a-Si photodiode = light when exposed High DQE = lower dose DIRECT - a- Se (selenium) creats electron holes – no light spread = better spatial resolution

Modern Digital Fluoro System under table tubes

Digital Subtraction Angiography DSA uses an II/TV system combined with a high speed image processor in a digital angiographic system.

Digital Subtraction Angiography (DSA) Performed for diagnostic and therapeutic purposes of vessel visualization in the body.

Digital Subtraction Angiography (DSA) DSA refers to a technique which compares two images of a region of the body before and after a contrast medium has been injected into the body for the purpose of studying blood vessels.

DSA In traditional angiography, we acquire images of blood vessels on films by exposing the area of interest with time-controlled x-ray energy while injecting contrast medium into the blood vessels. The images thus obtained would also record other structure besides blood vessels as the x-ray beam passes through the body. In order to remove these distracting structures to see the vessels better, we need to acquire a mask images for subtraction.

DSA continued The mask image is simply an image of the same area without contrast administration. So, using manual darkroom technique, clear pictures of blood vessels are obtained by taking away the overlying background. In DSA , the images are acquired in digital format through the computer. With the help of the computer, all images would be recorded into the computer and subtracted automatically. As a result, we can have a near-instantaneous film show of the blood vessels alone after x-ray.

Digital Imaging Concepts FUNDAMENTALS Binary numbers Pixels Gray levels

Pixels and Matrix Pixel: The smallest element of a digital image Matrix: A two dimensional series of square boxes composed of pixels Digital fluoroscopy uses 512x512 – 1024x1024 pixels

Comparison of a clinical image at different matrix sizes 16x16 32x32 64x64 128x128 256x256 512x512

Gray Levels in Digital Fluoroscopy ADC samples the analog video signal exiting the video camera tube and converts the value of the video signal to a binary number for processing and storage

Comparison of a clinical image at different bit depths - gray levels 256 gray levels (8bits) 16 gray levels (4bits) 8 gray levels (3bits) 4 gray levels (2bits)

Last Image Hold The last frame acquired before stopping x-ray acquisition is continuously displayed

Use of Road Mapping with Clinical Images .

Digital Subtraction Angiography (DSA) Pre-contrast image Pos-contrast image Subtracted image

DIGITAL ADVANTAGE -Edge Enhancement Original Image Blurred Image Subtracted Image Edge-Enhanced image (Edge-enhanced image = [original image - blurred version] + original image.)

Mask Pixel Shift Subtracted image with the subtraction mask image is shifted several pixels

DSA MISREGISTRATION – CAUSED BY PATIENT MOTION – CAUSES BLURRING OF IMAGE RE-REGISTATION MAY BE ABLE TO FIX THIS MY SHIFTING PIXELS SEE PG 416 Bushong

CINE Equipment Cine radiography . Fluoroscopy unit with TV monitor: Single or biplane fluoroscopy units are available. Video equipment – DIGITAL RECORDING Other image recording devices: Images can be acquired and stored in a digital format (postprocessing). This is the fundamental principle of DSA.

Cinefluorgraphy aka CINE 35 or 16 mm roll film (movie film) 35 mm ↑ patient dose / 16 mm – higher quality images produced 30 f/sec in US – (60 frames / sec) THIS MODALITY = HIGHEST PATIENT DOSE (10X greater than fluoro) (VS SINGLE EX DOSE IS ↓)

Cine Cinefluorography is used most often in cardiology and neuroradiology. The procedure uses a movie camera to record the image from the image intensifier. These units cause the greatest patient doses of all diagnostic radiographic procedures, although they provide very high image quality. The high patient dose results from the length of the procedure and relatively high inherent dose rate. For this reason special care must be taken to ensure that patients are exposed at minimum acceptable levels . Patient exposure can be minimized in a number of ways. The most obvious means of limiting exposure is to limit the time the beam is on. CINE - 2mR per frame (60f/sec) 400 mr per “look”

DIGITAL HAS REPLACED CINE What type of camera tube was used for CINE? And Why?

Mobile c arm equip and dsa

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