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Gastroenterology
Novel visualization by SpyGlass System may reduce repeat ERCP procedures
By Boston Scientific
May 25, 2006 - 12:53:00 PM

Boston Scientific Corporation announced favorable results from an investigator initiated first human use experience and bench simulation study of its SpyGlassT Direct Visualization System for single-operator duodenoscope assisted cholangiopancreatoscopy (SODAC). Highlighting these and other new information about the SpyGlass System at DDW, researchers reported that direct visualization with SpyGlass altered their diagnosis or treatment strategy with most patients who had been previously examined with ERCP (Endoscopic Retrograde Cholangio-Pancreotography).

ERCP is a specialized endoscopic procedure that is performed with fluoroscopy and contrast injection to examine and treat conditions of the bile ducts and pancreas, such as removing gallstones, opening obstructed bile ducts, and obtaining biopsies in suspected tumors. Conventional ERCP is hindered by the flat, two-dimensional, black and white image rendered by fluoroscopy, which can make it difficult to determine where to obtain tissue samples and potentially lead to an inaccurate or inconclusive clinical diagnosis. As a result, gastrointestinal endoscopists may need to conduct additional testing or even repeat the entire ERCP procedure. Data shows that up to 30 percent of diagnostic ERCPs are inconclusive, potentially creating the need for additional testing.

"Direct visualization significantly improves the chances of accurately diagnosing and treating a patient in one procedure, thus achieving the full potential of ERCP," said lead investigator Yang K. Chen, M.D., Division of Gastroenterology & Hepatology, University of Colorado at Denver and Health Sciences Center. "Bench simulation and animal testing showed that the SpyGlass System was effective for access, direct visualization and biopsy in all bile duct quadrants. In addition, SpyGlass can be performed by a single operator, unlike conventional systems which require two operators."



To overcome the imaging limitations of conventional ERCP, the SpyGlass System utilizes a miniature 6,000-pixel fiber optic SpyGlass probe that attaches to the camera head. The probe is inserted through a single-use access and delivery catheter that can be steered in four directions to access and inspect all four quadrants of the treatment area. The SpyGlass System attaches directly to a standard duodenal scope.

According to investigator and DDW co-presenter Douglas Pleskow, M.D., Co-Director, Endoscopy and Director of the Colon Cancer Center, Beth Israel Deaconess Medical Center, Boston, Massachusetts, "We used the SpyGlassT System to examine and treat 22 patients. The group included patients with suspected malignancy, bile duct strictures, retained bile duct stones that had failed conventional ERCP treatment, and cystic lesions of the bile duct. The use of SpyGlass altered the initial ERCP impression and ultimately changed patient treatment strategy in most patients. SpyGlass examination with or without biopsy was accomplished without technical difficulty in 20 of the 22 cases. Additionally, SpyGlass findings changed patient management in 19 of the 22 cases."

"These studies indicate that the SpyGlass Direct Visualization System has the potential to redefine how ERCP is performed and to potentially help physicians obtain a more accurate diagnosis quickly," said Steve Moreci, Boston Scientific Senior Vice President and Group President, Endosurgery. "Gastroenterologists collaborated with Boston Scientific to successfully integrate a single-operator visualization technology with access and therapeutic devices. We will continue to refine SpyGlass System technology and support its initial deployment at selected, leading medical centers. We look forward to formally making the system more broadly available to the GI community sometime next year."

An estimated 445,000 ERCP procedures are performed in the United States each year. Although ERCP was initially a diagnostic procedure, the vast majority of cases now include therapeutic intervention performed with endoscopic accessory devices such as biopsy forceps, stone retrieval baskets and probes that administer electrohydraulic lithotripsy to break up biliary stones. The SpyGlass System will allow a single physician to perform both diagnostic and therapeutic procedures under direct vision.

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