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Optical Imaging Technique Could Improve Breast-Conserving Surgery Results

Photonics.com
Jun 2017
LONDON, June 7, 2017 — Use of Cerenkov luminescence imaging (CLI) could provide a more accurate technique for assessing resection margins during breast-conserving surgery, a primary treatment for early-stage breast cancer. CLI combines optical and molecular imaging by detecting light emitted by a PET radiotracer F-18-fluorodeoxyglucose (F-18-FDG). CLI’s high-resolution and small-sized imaging equipment make it a promising technology for assessing tumor margins during breast tumor surgery.

“Currently, approximately one in five women who undergo breast-conserving surgery, also known as lumpectomy, require repeat surgery due to inadequate excision of the tumor during the initial surgical procedure,” said Arnie D. Purushotham, M.D., professor at King's College London.

“By accurately assessing tumor resection margins intraoperatively with CLI, surgeons may be able to completely clear the cancer with a single operation, thereby reducing the number of breast cancer patients requiring a second, or even third, surgical procedure. Ultimately this could lead to improved patient care and reduced health care costs if confirmed in larger clinical studies.”

This in-human study included 22 patients with invasive breast cancer. F-18-FDG was injected 45 to 60 minutes before surgery. Immediately after the excision of tumors, specimens were imaged intraoperatively in an investigational CLI imaging system. The first 10 patients were used to optimize the imaging protocol; the remaining 12 were included in the analysis dataset. Ten of the 12 patients had an elevated tumor radiance on CLI. Sentinel lymph nodes were successfully detected and biopsied in all patients.

A randomized controlled trial will evaluate the impact of the F-18-FDG CLI technique on re-excision rates. 

Cerenkov Luminescence Imaging for breast conservation surgery, King's College London.

This is a Cerenkov image (A); Gray-scale photographic image overlaid with Cerenkov signal (B). An increased signal from the tumor is visible (white arrows); mean radiance is 871 ± 131 photons/s/cm2/sr, mean TBR is 3.22. Both surgeons measured the posterior margin (outlined in blue) as 2 mm (small arrow); a cavity shaving would have been performed if the image had been available intraoperatively. The medial margin (outlined in green) measured >5 mm by both surgeons. Pathology ink prevented assessing the lateral margin; a phosphorescent signal is visible (open arrows). Specimen radiography image (C). The absence of one surgical clip to mark the anterior margin, and the odd position of the superior margin clip (white arrow), prevented reliable margin assessment. Combined histopathology image from two adjacent pathology slides (D) on which the posterior margin (bottom of image) and part of the primary tumor are visible (open arrows). The distance from the posterior margin measured 3 mm microscopically (double arrow). The medial margin is >5 mm (not present in image). Courtesy of A.D. Purushotham, M.D., King's College London, U.K.

The research was published in The Journal of Nuclear Medicine (doi: 10.2967/jnumed.116.181032).

 


Research & TechnologyeducationEuropeimagingopticsbiophotonicsmedicalmedicineCerenkov luminescence imagingluminescence imagingbreast-conserving surgery

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