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Posted: Oct 16, 2012
New NIH grant to advance brain surgery robot development
(Nanowerk News) A research team from the University of Maryland, College Park (UMD) and the University of Maryland, Baltimore (UMB) have been awarded a new $2 million grant from the National Institutes of Health (NIH) to continue developing a small robot that could one day be a huge aid to neurosurgeons in removing difficult-to-reach brain tumors. This NIH grant is one of the first awarded to a joint UMB and UMD research project under the collaboration between these two research powerhouses that is known as University of Maryland: MPowering the State.
Team members Jaydev P. Desai, PhD, associate professor of mechanical engineering at UMD, and Rao Gullapalli, MD, associate professor of diagnostic radiology and nuclear medicine, and J. Marc Simard, MD, professor of neurosurgery, both at the University of Maryland School of Medicine in Baltimore have developed their "Minimally Invasive Neurosurgical Intracranial Robot" (MINIR) prototype over a number of years and demonstrated its feasibility, supported in part by a previous NIH grant. The team has evaluated the device under continuous magnetic resonance imaging (MRI). According to the researchers, work done on the previous NIH grant helped to uncover next level challenges that are the basis of this new NIH project.
The NIH grant will enable the team to develop MINIR-II, a fully MRI-compatible robot and demonstrate its safety and effectiveness. To accomplish this, MINIR-II will need to be under the direct control of the physician, with targeting information obtained exclusively from real-time MRI that uses active targeting methods with sensors embedded within MINIR-II.
"This technology has the potential to revolutionize the treatment and management of patients with difficult to reach intracranial tumors and to have a direct impact on improving their quality of life," says Dr. Desai. "This work is a result of exceptional collaboration over the years, between our two extraordinary institutions."
Brain tumors are among the most feared complications of cancer, occurring in 20 to 40 percent of adult cancer patients. Despite numerous advances in treatment, the prognosis for these patients is poor, with a median survival of 4-8 months. Whether a primary (intrinsic) malignancy, or a secondary (metastatic) malignancy, involvement of the brain in a cancer patient is devastating, because it threatens the very personality and identity of the individual, and is invariably the most likely of all complications to directly and severely affect the quality of life. Currently, the optimal treatment is to remove the tumor(s) through primary surgical resection, then follow with additional therapies such as radiation and chemotherapy.
Unfortunately, in many patients the location of the brain tumor makes it too difficult to remove through primary surgical resection. This is especially true for tumors deeply embedded in the brain that may be difficult to access using conventional neurosurgical techniques. The poor general health of the patient can further complicate the matter.
A fully MRI-compatible MINIR could one day enable neurosurgeons to reach such difficult tumors and greatly improve outcomes for these patients. Furthermore, image-guided robotic surgery avoids the complications associated with brain shifts associated with conventional tumor resections, as the target tumor may move during surgery but will always remain within sight through the exquisite contrast available from real-time MRI.
An early version of MINIR won the 2007 University of Maryland, College Park Invention of the Year award in the Physical Science Category.
Source: University of Maryland
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