Gantry-Free Cone-Beam CT Offers More Flexibility for Elbow Imaging

Gantry-Free CBCT vs. 2D Radiography

The combined use of gantry-free cone-beam CT (CBCT) and large flat-panel detectors has emerged as an effective alternative for imaging the appendicular skeleton. In fact, studies have shown that gantry-free CBCT can offer a substantial dose reduction over gantry-based multidetector CT (MDCT) without penalizing image quality.

But what about its use with acute elbow trauma?

To answer this question, Dr. Kunz led a study on the diagnostic performance of gantry-free CBCT versus two-dimensional radiography in adults and children with acute elbow trauma.

The study, published in Radiology, used an ultra-high resolution CBCT scan mode based on a radiography system with two telescopic arms mounted on ceiling rails (see image below). One arm carries the X-ray tube, while the other holds a large flat panel detector. Simultaneous arm movement along predefined trajectories allows for three-dimensional projection data acquisition.

“The system’s use of a comfortable tableside armrest means the elbow can be placed in a flexed position at 90° abduction, essentially eliminating joint mobility or cast fixation as a limiting factor,” Dr. Kunz said.   

High-Quality Images, Lower Dosage

In the retrospective study, elbow fractures in 23 patients with positioning difficulty in gantry-based CT were diagnosed with higher sensitivity using the gantry-free CBCT than what was achieved using traditional two-dimensional radiography.

“Not only did this CBCT system eliminate the positioning challenges associated with gantry-based CT, it also provided remarkably high-quality images,” Dr. Kunz noted.

In addition, the gantry-free CBCT offered superior dose efficiency, the result of the twin robotic system’s unique acquisition geometry.

“Instead of symmetric intervals between tube and patient and patient and detector, the two telescopic arms facilitate an asymmetric source-to-image distance with low magnification,” Dr. Kunz explained.

One concern Dr. Kunz had was that the CBCT system’s longer acquisition time (14 seconds compared to the five second scan time of a gantry CT) could result in increased motion artifacts and inferior image quality. However, because the system allows the elbow to be scanned in a comfortable, flexed 90° position, patient movement was not an issue.

The Freedom of Positioning

Allowing for a much larger degree of freedom in patient positioning, the University Hospital Würzburg is now using gantry-free cone-beam CT systems instead of conventional gantry-based systems on a regular basis—not only for the elbow, but also for the wrist, hand and, in some cases, the foot.

In a related study, Dr. Kunz also demonstrated that imaging of the appendicular skeleton using the gantry-free CBCT system in the presence of potentially image-impairing metal implants is feasible.

“The investigated gantry-free cone-beam CT promises to alleviate the most common challenges to imaging the appendicular skeleton without compromising image quality, radiation dose or patient comfort,” Dr. Kunz said.

For More Information

Access the Radiology study, “Twin Robotic Gantry-Free Cone-Beam CT in Acute Elbow Trauma.”

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