The Symposium, organized by the , highlighted many promising new applications of this technology. “The preliminary data and newly initiated studies suggest that focused ultrasound is on the precipice, shifting from an innovative early-stage therapy into a tool poised to disrupt the provision of care for some of medicine’s most vexing conditions,” said Andrew von Eschenbach, M.D., former commissioner of the Food and Drug Administration, former director of the National Cancer Institute and member of the Focused Ultrasound Foundation board of directors.
The Symposium featured a special discussion with former CIA spymaster Tony Mendez, who spoke publicly for the first time about his battle with Parkinson’s disease. Tony and his wife Jonna addressed his Parkinson’s diagnosis, his recent treatment with deep brain stimulation and their hope that focused ultrasound might soon be a non-invasive treatment alternative.
“We come from a technical background – we were the gadget guys – it was all about clandestine technology and solving problems with new devices. If a device didn’t exist, we would invent it and that’s where some of our best stuff came from. We’ve always been interested in new technology and that is why we support the development of new technologies like focused ultrasound so that in the future patients do not have to undergo the trauma of brain surgery,” said Tony Mendez. The Mendezes are members of the .
“We host this Symposium to serve as a crucible for fostering collaboration across the field,” said Neal Kassell, M.D., founder and chairman of the Focused Ultrasound Foundation. “And having more than 400 experts travel from 24 countries to share their research demonstrates the impressive potential of this non-invasive technology to transform the treatment of many serious medical conditions.”
Symposium HighlightsThis year’s Focused Ultrasound Symposium included that utilized varying mechanisms of the technology for a wide range of diseases and conditions. Highlights include:
Brain Disorders
Several studies assessing the potential of focused ultrasound to non-invasively treat neurological and psychiatric disorders were presented, including:
• W. Jeff Elias, M.D., associate professor of neurological surgery at the University of Virginia announced that recruitment has been completed for a study of 72 patients using focused ultrasound to treat essential tremor. This pivotal trial, based on a promising , is being conducted for U.S. regulatory approval, and results are expected in about a year.
• Jin Woo Chang, M.D., professor and chairman, Yonsei University College of Medicine, presented results of a feasibility study on the use of focused ultrasound to treat obsessive-compulsive disorder in patients who have failed medical therapy. Four out of nine patients showed improvement six months after the procedure, which is consistent with invasive surgical procedures. The treatment was generally safe, and the results suggest that using focused ultrasound to place a thermal lesion on the brain may lessen the effects of OCD. Based on these results, Dr. Chang plans to initiate a study examining the technology’s potential to treat depression.
• Javier Fandino, M.D., head of neurosurgery at Kantonsspital Aarau in Switzerland, shared a case report of the world’s first non-invasive thermal ablation of a brain tumor with focused ultrasound. As part of a pilot study of feasibility, a portion of a glioblastoma was successfully ablated. Research sites in the U.S. and Canada are now recruiting patients for other pilot studies of glioblastomas and metastatic .
Cancer
Researchers around the globe are studying the use of focused ultrasound to treat many cancers, including breast, prostate, lung, liver, pancreas and soft tissue tumors. In addition to ablation, there is keen interest in the potential of this technology for targeted drug delivery, immunotherapy and to enhance the effect of existing treatment modalities like radiation therapy.
• Pejman Ghanouni, M.D., Ph.D., assistant professor of radiology at Stanford University School of Medicine presented preliminary results of his feasibility study using focused ultrasound to treat benign and malignant soft tissue tumors of the extremities. Ten patients have been treated so far with an average of 68% tumor ablation. This non-invasive approach avoids surgery with potential side effects that may include injury to skin, nerves and surrounding organs. Dr. Ghanouni believes more technical development and evidence is needed and hopes to collaborate with other centers for a larger trial in the future.
• Joan Vidal-Jove, M.D., Ph.D., University Hospital Mutua Terrassa in Barcelona, presented promising research using focused ultrasound to treat pancreatic cancer. His team treated 43 un-resectable tumors from 2010 to 2014, with 29 stage III and 14 stage IV cancers. The overall local response at 8 weeks was 83%, with 25% complete responders. They achieved a median survival of 16 months, with a range of 6-42 months. • Hidemi Furusawa, M.D. of the Breastopia Clinic in Japan treated 72 patients with early breast cancer using focused ultrasound followed by standard radiation. With a median follow-up of 68 months, there were no distant recurrences and one local invasive recurrence after seven years, suggesting that focused ultrasound has the potential to replace surgery as a local treatment for early breast cancer.
• Elizabeth Repasky, Ph.D., professor in immunology at the Roswell Park Cancer Institute, led discussion among a panel of experts who examined how focused ultrasound can serve as an immune adjuvant that can non-invasively manipulate the tumor microenvironment for enhanced anti-tumor immunity, potentially enabling more effective treatment of a variety of cancers.
Pediatric
• Alessandro Napoli, M.D., Ph.D., Sapienza University of Rome, presented the results of a study investigating the use of focused ultrasound to treat osteoid osteoma – small, painful, benign bone tumors that usually affect children. There was complete clinical response in 27 of 29 patients treated, with a positive trend toward bone restoration. All patients tolerated the treatment well, and there were no adverse events reported.
About Focused Ultrasound
Focused ultrasound is a revolutionary, early-stage therapeutic technology with the potential to transform the treatment of many serious medical disorders. This breakthrough technology uses ultrasonic energy guided by magnetic resonance or ultrasound imaging to treat tissue deep in the body without incisions or radiation. Multiple intersecting beams of ultrasound are directed and concentrated on a target as small as a grain of rice, much like a magnifying glass can focus multiple beams of light on a single point.
Focused ultrasound is currently approved in the U.S. to treat uterine fibroids and bone metastases, and there are a growing number of clinical applications in various stages of research and development around the world, including Parkinson’s disease, essential tremor, neuropathic pain, breast and prostate cancer, and brain tumors.
About the Focused Ultrasound FoundationThe Focused Ultrasound Foundation was created to improve the lives of millions of people worldwide by accelerating the development and adoption of focused ultrasound therapies. The Foundation works to clear the path to global adoption by coordinating and funding research, fostering collaboration among stakeholders, and building awareness of the technology among patients and professionals. The Foundation is dedicated to ensuring that focused ultrasound finds its place as a mainstream therapy for a range of conditions within years, not decades. Since its establishment in 2006, the Foundation has become the largest non-governmental source of funding for focused ultrasound research. More information about the Charlottesville, Virginia-based Foundation can be found at .