|
|
ÀÛ¼ºÀÏ : 17-05-04 23:27
|
ViewRay Receives FDA 510(k) Clearance for MRIdian Linac
|
|
|
±Û¾´ÀÌ :
ÃÖ°í°ü¸®ÀÚ
 Á¶È¸ : 738
|
CLEVELAND, February 27, 2017 — ViewRay, Inc. (Nasdaq: VRAY) announced today that the company received 510(k) clearance from the U.S. Food and Drug Administration (FDA) to market the MRIdian Linac system, the company¡¯s next generation linear accelerator-based MRI-guided radiation therapy system.
¡°FDA clearance of the MRIdian Linac is a transformative milestone for ViewRay,¡± said Chris A. Raanes, president and chief executive officer of ViewRay. ¡°We believe that availability of the world¡¯s first commercial system to combine MRI for soft-tissue visualization and a compact linear accelerator will lead to a new standard of care in radiation oncology. Clinical experience with ViewRay¡¯s first generation MRIdian System has demonstrated the benefits of on-table adaptive therapy and real-time MRI guidance, as clinicians are seeing for the first time how much tumors and organs move and change shape during the course of treatment.¡±
The first two MRIdian Linac systems in the United States are expected to be installed at Henry Ford Hospital in Detroit and Barnes-Jewish Hospital at Washington University in St. Louis.
¡°Radiation oncologists have long awaited the availability of a clinical system that integrates MR-imaging with linac radiation delivery, as this is a major breakthrough in improving the efficacy of radiation therapy for patients,¡± said Benjamin Movsas, M.D., chairman of Radiation Oncology at the Henry Ford Cancer Institute in Michigan. ¡°At the Henry Ford Cancer Institute, we¡¯re proud to be among the first centers to offer treatment with MRIdian Linac. The ability to see what¡¯s happening inside the body while the patient is undergoing radiation therapy and ensure the radiation continually remains on target is a huge leap forward and will help us to improve patient outcomes.¡±
¡°With MRI-guided radiation therapy, we¡¯re able to watch the movement of tumors and organs in the body as radiation is being delivered and adapt the dose of radiation in real-time, to help ensure the maximum dose reaches the tumor and that surrounding healthy tissue is spared,¡± said Sasa Mutic, Ph.D., director of Radiation Oncology Physics at Washington University School of Medicine. ¡°This technology helps us treat tumors such those in the lung, liver and pancreas where increased precision is important due to nearby organs and other critical structures.¡±
|
|
|
HOME > HanBeam Tech
