RELEASE EMBARGOED UNTIL 3:00 PM, EDT, OCT. 3, 2011

Focused ultrasound shows promise as a noninvasive deep brain treatment for essential tremor, a condition that affects millions

Results of first-in-world study could open doors to treating other brain disorders

Newswise — WASHINGTON, DC (October 3, 2011) – In a presentation at the Congress of Neurological Surgeons today, University of Virginia neurosurgeon W. Jeffrey Elias, MD reported that preliminary results of a pilot clinical trial indicate that MR-guided focused ultrasound has the potential to safely and effectively control essential tremor (ET), a common neurological condition that affects 10 million Americans.

Results from the study’s first 10 patients showed a 78 percent improvement in contralateral tremor scores in the hand, as assessed with the Clinical Rating Scale for Tremor (CRST). Patients’ functional activities scores improved by 92 percent, as measured in the ‘Disability’ subsection of the CRST. Outcomes and complications were comparable to other procedures for tremor, including stereotactic thalamotomy and deep brain stimulation.

“So far, this noninvasive treatment has been life-changing for patients,” said Elias, the study’s principal investigator and Director of Stereotactic and Functional Neurosurgery at UVA. “All now have improved ability to use their dominant hand to perform tasks that they couldn’t do before treatment, such as writing legibly, drinking and eating without spilling, and buttoning clothes. It has been exciting to see their immediate improvements.”

The study is using magnetic resonance imaging to guide and monitor the delivery of focused ultrasound to tremor-causing nerve cells in the thalamus, a region deep within the brain known to be an effective target for ET and other movement disorders. The treatment goal is to reduce tremor in a patient’s dominant hand.

Most study participants have had ET for decades, Elias reported. As part of the study’s inclusion criteria, all had previously taken at least two medications that failed to control their tremor. Despite the severity of their disability, patients had opted to cope with symptoms rather than undergo invasive surgical procedures.

Conducted under an FDA-approved protocol, the single-arm, non-randomized, phase 1 study began in February 2011 and is expected to treat 15 patients before concluding. All patients are being followed for three months. If final results prove successful, Elias anticipates launching a larger, pivotal trial to study the overall safety and long-term efficacy of MR-guided focused ultrasound in treating medication-refractory ET.

Funding for the study is being provided by the Focused Ultrasound Surgery Foundation, which is also underwriting a parallel study at the University of Toronto in Canada. Foundation Chairman, Neal Kassell, MD, says the study’s success could lead to other new treatments. “By demonstrating that MR-guided focused ultrasound can treat tissue deep in the brain with great precision and accuracy, we hope to open the door to treating Parkinson's disease, epilepsy and brain tumors. Much work remains to be done, but the path forward is clear,” he observed.

Kassell added, “Because the brain poses more complex technical challenges than other organs, success in treating ET will spur advancements in developing new focused ultrasound therapies for the breast, liver, pancreas and prostate, which are less complicated to treat.”

Currently, MR-guided focused ultrasound is an FDA-approved therapy for uterine fibroids; it is approved in Europe and elsewhere for the treatment of uterine fibroids and pain associated with bone metastasis. Around the world, clinical trials are treating prostate, breast, bone and uterine tumors.

Study detailsThe UVA study marks the first step in determining if MR-guided focused ultrasound is a safe and effective treatment for ET and if it offers potential benefits beyond current surgical options. The study has enrolled patients who are 18 to 80 years old and who have taken at least two medications that do not control their tremor. Participants, who are followed for three months after treatment, receive assessments for general health, neurological status and tremor measurements. The study is also tracking data about device or procedure-related side effects that occur within three months of treatment.

Study treatments are performed using the ExAblate Neuro, an investigational device manufactured by InSightec, Ltd. The device consists of a specially designed table with a helmet-like unit that contains phased array focused ultrasound transducers. Treatments are planned with the precision of MR imaging and then monitored with MR thermography, which provides real-time tracking of focused ultrasound delivery. The entire process is noninvasive and does not involve ionizing radiation.

During the study, a series of focused ultrasound pulses are administered through a patient’s intact scalp and skull to a precisely targeted spot in the thalamus. Patients receive no anesthesia and remain awake, providing feedback to clinicians after each pulse. Under the UVA study protocol, only one side of the brain is being treated – known as a unilateral thalamotomy – resulting in single hand tremor control.

All study treatments have been performed at the state-of-the-art UVA Focused Ultrasound Center, which was established by a public-private partnership of UVA, the Commonwealth of Virginia, the Focused Ultrasound Surgery Foundation and InSightec, Ltd.

About the Focused Ultrasound Surgery FoundationThe Focused Ultrasound Surgery Foundation is a nonprofit organization dedicated to improving the lives of millions of people worldwide by accelerating the development and adoption of one of modern medicine’s most promising and game-changing therapeutic technologies, noninvasive magnetic resonance-guided focused ultrasound (FUS). Developed to its full potential, FUS could revolutionize treatments for many of today’s most serious and debilitating conditions.

To achieve its mission, the Foundation hosts symposia and thought-leader workshops, funds preclinical and clinical research, supports the establishment of FUS Centers of Excellence, promotes patient awareness and education, and serves as the nexus of a collaborative research network consisting of sites and investigators around the world. The Foundation’s work is made possible by contributions from individuals, foundations and corporations. For complete information, visit www.fusfoundation.org.