1. FLUOROSCOPY
QUALITY CONTROL
Rev 2014

2. Error Maintenance
When errors occur in equipment performance, corrective action must occur.
Errors are detected by poor equipment performance or poor-quality outcomes.
Corrections generally are made by service personnel employed by the vendor.

3. (RHB) Acceptance Testing DAILY PG 104 -105
MONITOR BRIGHTNESS
PROTECTIVE DEVICES IN PLACE
TOWER LOCKS WORK
COMPRESSION DEVICE
AUTOMATIC COLLIMATION/SHUTTERS
KVP & MA MONINTORING***
ENTERED INTO A LOG….

4. (RHB) Acceptance Testing semi-annually
Tube housing
12 “ TPD
Filtration
Primary barrier
Collimation shutters
Barrier interlocks
5 min Timer
Measure dose rate ma& kvp
Max Output
TV monitor contrast
Scatter measured
ABD
Focal Spot Size
Waveform
TV & Video signal

5. (RHB) Acceptance Testing semi-annually
Check Aprons Integrity
Monitor Dosimeter Reports
Distortion
TV: Flare (scattered/ reflected light)
Image LAG
Grid alignment/ uniformity
Etc …………………….

6. Fluoro QC Testing Tabletop exposure rates Centering alignment
Collimation
Kvp accuracy & reproducibility
mA accuracy & reproducibility
Exposure time accuracy & reproducibility
Reproducibility of xray output
Half-value layer (filtration)
Representative Skin Entrance Doses

7. Fluoro QC Testing IMAGE INTENSIFICATION SYSTEMS Resolution Focusing
Distorion
Glare
Low-contrast performance
Physical alignment of camer & collimator lens

8. A fluoroscopy system monitored to achieve good image quality
The automatic exposure rate control (AEC) and image quality are important aspects of a fluoroscopy system.
Spatial resolution is measured with a contrast-detail test object is used to measure threshold contrast-detail performance.
Median limiting spatial resolution was
1.41 lp/mm- 1 for image intensifier fields between 18 and 24 cm in diameter. (7-9”)

9. FLUORO OUTPUT
MEASURED WITH TYPE OF PHANTOM?
MONITORED?
RECORDED ?
Fluoroscopic ABC should be evaluated annually

10. kVp & mAs accuracy what you see is what you get…

11. FLUOROSCOPY QUALITY CONTROL: OUTPUT
MONIOTRED – WEEKLY WITH A PHANTOM
7IN LUCITE OF 9” WATER PLACED IN PATH OF BEAM –
OUTPUT RECORDED
(WITH PATIENTS ) DONE DAILY

12. WEAR PROTECTIVE GARMENTS while performing this procedure
WEAR PROTECTIVE GARMENTS while performing this procedure! Activate the fluoro beam and move the fluoro tower as required in order to center the phantom on
Cone down (close) the collimators until only edges of the phantom are visible.

13. Phantom Images
To ensure that film density, contrast, uniformity, and image quality due to the x-ray imaging system and film processor are maintained at optimum levels.
When imaging the phantom for fluoroscopic tests, record the kVp and mA from the meters or displays provided.
Any changes in the kVp or mA values for a constant phantom thickness can indicate problems with the fluoroscopic chain, for example, a loss of image intensifier/TV gain.

14. Digital fluoro resolution test

15. Wet Laser Imager
Daily/weekly QC:
Monitor each film printed to ensure that it is free from artifacts and matches monitor or desired quality.
Print a test pattern from the PACS, or some printers have a built-in test pattern that can be printed by depressing a button on the printer.

16. PACS QC Activities
ACR also suggests that all of the following tests be carried out with a SMPTE (Society of Motion Pictures and Television Engineers) test pattern to ensure continuity of measurement
What does this monitor? (2)

17. CONSISTENCY IS THE KEY
After each link (x-ray unit, video monitor, laser film printer, processor, darkroom, etc.) in the imaging chain is optimized,
a working QA program will provide warning flags to the QA program coordinator when something goes awry.
the test or tests must be repeated to verify the results, then corrective action must be taken.
The coordinator must be capable of identifying problems and willing to resolve them as they occur, or the QA program will not provide the intended benefits.

18. Equipment Warm-up DAILY
Each day during the x-ray generator warm-up, and before exposing the first patient to x-rays,
check for indicator malfunction (mA, five-minute timer, etc.) and the mechanical and electrical safety of the x-ray system.
Malfunctions and unsafe conditions (such as frayed wires) must be corrected promptly.

19. Equipment Warm-up DAILY
NOTE: because this procedure necessitates activation of the fluoroscopic tube,
the surveyor should make certain there is something (phantom, cubic water container, etc.) attenuating the useful x-ray beam during operation
and wear appropriate protective equipment (lead apron, gloves, thyroid shield, etc.)

20. FOR DIGITAL SYSTEMS:
Verify that the window and level settings are set to the pre- established levels.
Adjust room lighting conditions to those used clinically.
Observe the mesh patterns, line pairs or other test objects under fluoroscopy

21. Test Frequency – Weekly
Laser Film Printer Quality Control - SMPTE Test Pattern
Video Monitor Setup =Must be performed on EACH video monitor (operator’s console, physician’s console, etc.) so that the grays on the monitors all appear similar.
Laser Printer Setup
1. Send the SMPTE test pattern to the laser film printer using the largest most commonly used image format (1 on 1 or 4 on 1).
2. Process film if applicable.
3. With the film on a view box and the same image on the monitor, visually compare the film gray scale densities on the film to those on the monitor.

22. SMPTE Test Pattern ? The spatial resolution (linearity)
Society of Motion Picture and Television Engineers
The spatial resolution (linearity)
and aliasing (distortion) of your monitor
are within acceptable limits if the high contrast bar patterns in the test image are distinct as simple patterns of black and white pairs.

23. Monitor Quality
Often the monitor is the weakest link in the digital imaging chain.
The monitor has a direct effect on the quality of the image that is presented to the radiologist for reading or to the referring physician for review.
Not every computer that is used to view images can have the highest-quality monitor available because of the expense.
Monitor Resolution? Conventional vs Digital?

24. Monitor Quality
Radiologist’s workstation has highest-quality monitor, usually 2K or 3K for computed radiography or digital radiography, 1K or 2K for cross-sectional images, and up to 4K for mammography.
Megapixel measurement may be used to determine the appropriate monitor.
Generally, physician’s review workstations and technologist’s QC workstations have high-quality commercial monitors.
Resolution is usually 1K.
525 for old conventional fluoro units

25. VIGNETTING PINCUSION EFFECT The center has the best resolution/detail
Veiling glare and pincushion distortion increase with age on an image intensifier.

26. Veiling glare
Internal scatter radiation in the form of x-rays, electrons, and particularly light can reduce the contrast of image-intensifier tubes through a process called veiling glare

27. DICOM gray scale function window level and width function
A photometer to a monitor screen in a check of the monitor's conformance with the DICOM Grayscale Standard Display Function.

28. Equipment Visual Checklist Form
All foot and hand switches designed to energize the fluoroscopic tube should be tested to ensure that x-ray production is terminated as soon as the switch is released.
If switches have multiple positions (example: high level control) each position should be tested.
The table, image intensifier, and tube, as applicable, should move smoothly and freely without requiring excessive force.
Check all of the locks and centering detents on the tower and table for adequate function.
Check all switches, lights and meters on the table, control panel and image intensifier for appropriate function. (i.e. lights should light, meters should move).

29. Equipment Visual Checklist Form
Lead drapes should be affixed to the image intensifier (under table systems) and have no cracks
Bucky moves smoothly along the track and its locking mechanism is functioning.
Bucky slot during fluoroscopy is working as designed.

30. Equipment Visual Checklist Form
If the unit is a portable c-arm, it must be equipped with a spacer on the tube to prevent the patient from being closer than 30 cm to the tube’s target. This spacer must always be used unless it interferes with a sterile field as during surgery.
It must not be possible to activate the x-ray tube unless the entire fluoroscopic beam is intercepted by the image receptor.
On systems where the image intensifier can be placed in a park position, do so and step on the pedal to assure that this interlock is functioning.
Verify that all of the indicators on the control panel are functioning.
Check that the fluoro timer emits an audible signal or terminates the exposure after 5 minutes.

31. Lead Aprons - annually
Examine the integrity of the personnel shielding devices to ensure optimal protection to the patient when positioned properly.
NOTE: Lead aprons should never be folded. Cracks in the lead lining can develop at the fold, reducing the useful life of the apron.
Do not assume that brand new aprons, gloves, etc. contain no defects.
New aprons, gloves, etc. should be examined under x- ray immediately upon arrival and returned to supplier if defects are found.

32. Proper storage for apron
Hang or lay flat
Clean with a damp cloth
Cannot be laundered
DO NOT FOLD

33. Fluoroscopic Systems Intensifier viewing system resolution
Intensifier viewing system contrast
TV monitors and recorders
Automatic brightness control
Fluoroscopic ABC should be evaluated _____?
LEAD APRONS - CRACKS

34. Output ?, Scatter, Leakage ?
Check shielding

35. OVERFRAMING – Pt dose beam alignment
Reduce exposure to the patient from misaligned fluoroscopic image intensifier systems, the portion of the field that falls outside the visible area of the image receptor does not contribute to the useful fluoroscopic image and can result in unnecessary exposure to the patient. If corrective measures are required, this device will provide a measurement of optimum beam alignment.
Collimation check
An ESE of approximately 200 mR may be assumed for a cassette spot film.
An ESE of approximately 100 mR may be assumed for a photofluorospot.

36. System Training
Each department also has a list of skills that are tested and retrained each year.
PACS skills should also be included in this annual training.
A training record should be kept for each employee to show proof of the skills in which the employee has been trained.

37. KEEP I.I. CLOSE TO PATIENT

38. Fluoroscopy Quality Control
Exposure rate
Normal fluoro: ESE ≤ 10 R/min
Interventional fluoro: ESE ≤ 20 R/min
Cineradiography: unlimited exposure rates
Spot-film exposures
Cassette ESE approx. 200 mR per spot
Photofluorospot ESE approx. 100 mR per spot
Automatic brightness control (ABC)
Evaluate annually
APRON CHECK for cracks …………………..

39. Hand held fluoro device ?