Boston Scientific launches GUIDEâ„¢ XT System for Visualization of Deep Brain Stimulation in Europe
Boston Scientific launches GUIDEâ„¢ XT System for Visualization of Deep Brain Stimulation in Europe |
[26-September-2018] |
EDINBURGH, Scotland, Sept. 26, 2018 /PRNewswire/ -- Boston Scientific Corporation (NYSE: BSX) today announced the launch of the GUIDE™ XT System for visualization of Deep Brain Stimulation (DBS) in Europe. The GUIDE XT System is the first DBS visualization system built for directionality that utilizes patient specific anatomy and stimulation field modeling. This technology provides physicians with 3-D image planning capability and when used in conjunction with the Vercise™ DBS Systems, enables physicians to personalize and optimize DBS treatment. DBS treats movement disorder symptoms in patients with Parkinson's Disease, dystonia or essential tremor. The procedure stimulates a targeted region of the brain through implanted leads that are powered by a device called an implantable pulse generator (IPG). The GUIDE XT System automatically detects the location of the leads, implanted by a neurosurgeon, in the imaging of the brain. Following the implant, a clinician programs a patient's device and the GUIDE XT System can be used to help visualize the stimulation field and efficiently determine the most appropriate settings for each patient. "Current practice for DBS programming can involve multiple visits and hours of trial and error to identify the right stimulation settings," said Prof. Dr. Jens Volkmann, director and chairman of the Department of Neurology at the University Hospital of Wurzburg, Germany. "Unlike visualization systems that use a generic atlas, the GUIDE XT System enables us to visualize the lead placement in the patient's brain. By simulating and visualizing different stimulation settings, it is much easier to decide upon initial programming which is likely to yield beneficial results in a given patient." "Direct visualization of pertinent structures within an individual patient's brain is very important in DBS. This is the 'gold standard' when planning the surgical trajectory for lead implantation," explained Professor Ludvic Zrinzo, Head of the UCL Unit of Functional Neurosurgery, Queen Square, London. "GUIDE XT integrates surgical planning with radiological verification of lead placement, promising a smoother workflow and allowing surgeons to better assist their clinical colleagues when they program DBS parameters for each patient." A study found that overall programming time with the first-generation GUIDE System was significantly shorter than traditional programming time (n=10, p<0.0001).1 Shorter programming time is beneficial for both physicians and patients as it can eliminate the need for additional appointments and reduce prolonged periods of time adjusting the stimulation settings which can be stressful and tiring. "The GUIDE XT System is designed to take the complexity out of DBS programming, providing physicians with individualized and supplemental information which could lead to better patient outcomes." said Maulik Nanavaty, senior vice president and president, Neuromodulation, Boston Scientific. "Boston Scientific is dedicated to providing advanced solutions and meaningful innovations to help clinicians improve the lives of patients through personalized therapy." Since receiving CE Mark for the Vercise DBS System in 2012, Boston Scientific has introduced a steady pace of innovation in the field of DBS including the launch of the Vercise Gevia™ DBS System* in 2017, which features the Cartesia™ Directional Lead** to provide rechargeable, magnetic resonance (MR) conditional system2 with directionality. The company also launched the Vercise DBS System in the United States late last year. GUIDE XT** was developed in partnership with Brainlab AG, a software-driven medical technology company that helps improve patient treatment planning and surgical navigation. The exclusive collaboration between Brainlab and Boston Scientific provides a comprehensive portfolio covering all key elements of Deep Brain Stimulation (DBS) therapy for patients and physicians. About Boston Scientific Cautionary Statement Regarding Forward-Looking Statements Factors that may cause such differences include, among other things: future economic, competitive, reimbursement and regulatory conditions; new product introductions; demographic trends; the closing and integration of acquisitions; intellectual property; litigation; financial market conditions; and future business decisions made by us and our competitors. All of these factors are difficult or impossible to predict accurately and many of them are beyond our control. For a further list and description of these and other important risks and uncertainties that may affect our future operations, see Part I, Item 1A – Risk Factors in our most recent Annual Report on Form 10-K filed with the Securities and Exchange Commission, which we may update in Part II, Item 1A – Risk Factors in Quarterly Reports on Form 10-Q we have filed or will file hereafter. We disclaim any intention or obligation to publicly update or revise any forward-looking statements to reflect any change in our expectations or in events, conditions or circumstances on which those expectations may be based, or that may affect the likelihood that actual results will differ from those contained in the forward-looking statements. This cautionary statement is applicable to all forward-looking statements contained in this document. CONTACTS Rosie Ireland Susie Lisa, CFA 1 Pavese et al. Traditional trial-and-error versus neuroanatomical-3D-image software-assisted deep brain stimulation programming in patients with Parkinson's disease, 2017 WSSFN Conference, Berlin.
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Company Codes: NYSE:BSX |
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