by Lisa Chamoff
, Contributing Reporter | July 09, 2018
From the July 2018 issue of HealthCare Business News magazine
MBI Biopsy system
Dilon, which manufactures molecular breast imaging systems, recently released a biopsy accessory for its Discovery NM750b dual head MBI system.
Pjerin Luli, vice president of U.S. sales and clinical education at Dilon, said the MBI biopsy system can locate lesions that are not detected with other modalities.
“How do you biopsy lesions not seen on ultrasound?” Luli said.
With this new technology, you can make the transition to digital without breaking the bank. Ultra High Resolution Radiography and Fluoroscopy. Enjoy the high DQE of CMOS technology. No additional wiring or training required. Click here to request pricing!
Luli said Dilon’s MBI product stands out from the competition by offering the ability to perform biopsy and also using air to cool its detectors instead of water. The system also offers a detector with a larger field of view, Luli said.
The company is planning its first installation of its first MBI system with biopsy in July 2018.
In May, Faxitron’s Vision CT became the first FDA-approved clinical CT system 3D specimen radiography, according to the company.
The Vision CT is designed to provide easily navigable, true 3D data and rendering of the specimen, in addition to immediate traditional orthogonal images, said Donogh O’Driscoll, Faxitron’s chief operating officer. As a result, it enables enhanced margin assessment and drives the potential for improved surgical outcomes.
The compact mobile system is used in the operating room for quick excised specimen margin assessment during surgery. Wait times when sending a specimen to radiology can be 15 to 30 minutes during surgery, O’Driscoll said.
O’Driscoll said the company “brought specimens into the 3D world” with the launch of the VisionCT. The system can reconstruct the whole specimen volume — up to 512 frames — in under four minutes in addition to providing traditional orthogonal images in under 30 seconds, which means surgeons can move through the specimen in slices, with the goal of reducing re-incision rates and callbacks, according to O’Driscoll.
“They can interrogate the specimen to a far deeper level,” O’Driscoll said. “It’s far better to provide as much detail as possible and put that in the hands of physicians to make the ultimate call for better patient outcomes.
“Abnormalities in breast tissue are often caught at earlier stages now, thanks to advancements in imaging and breast screening. So there is a parallel need for ongoing advancements when assessing and confirming margin status during surgery,” O’Driscoll said. “With VisionCT, providers can now obtain a clearer, more detailed view of breast specimen margin status than ever before, helping to achieve better surgical outcomes. For decades we’ve been committed to pioneering new technologies that contribute to a higher standard of care for patients and we are proud that our legacy continues with the launch of this innovative new system.”