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HIFU Trial for Treating Essential Tremor Under Way

The Ohio State University Wexner Medical Center is one of six locations nationally studying the safety and effectiveness of using high-intensity focused ultrasound (HIFU) to treat patients suffering from essential tremor as part of a multicenter FDA clinical trial.

Nationwide, 50 patients whose tremors cannot be controlled with medication will be treated with the Exablate Neuro by InSightec, which uses MR-guided focused ultrasound to treat tissue deep in the brain without incisions or radiation. The clinical trial is scheduled to conclude in December 2016. Other centers involved in the research are Brigham and Women’s Hospital in Boston; Stanford Medical Center in Stanford, California; Swedish Medical Center in Seattle; University of Maryland Medical System in Baltimore; and University of Virginia in Charlottesville, Virginia. This minimally invasive treatment is already approved for use in Europe.

“This is brain surgery without cutting the skin,” says neurosurgeon Ali Rezai, MD, principal investigator at Ohio State’s Wexner Medical Center and director of the Center for Neuromodulation at Ohio State’s Neurological Institute, via press release. “This is a highly innovative technology, also known as HIFU. It allows us to deliver more than 1,000 ultrasound waves under MRI guidance to converge precisely on a pinpoint area of the brain to stop the tremor during a single treatment session.”

Essential tremor is the most common movement disorder, affecting about 10 million people in the United States, and millions more worldwide, according to the International Essential Tremor Foundation. It’s a progressive and debilitating neurological condition that causes a rhythmic trembling of the hands, head, voice, legs, or trunk.

Current treatment options include medications that aren’t always effective or deep brain stimulation (DBS), says Ohio State neurosurgeon Vibhor Krishna, MD, who performed these surgeries when he was working in Toronto.

“This therapy is very precise,” Krishna says via the release. “Effective surgical therapies can mean a difference between living independently and living with significant disability. So working through these research studies, we’re trying to establish that this is an effective treatment for these patients to improve their quality of life in terms of personal life, professional life, and social life. Being able to take care of themselves; simple things we take for granted.”

In September, Ohio resident Stephen Palovchik, 71, became the first patient treated with this technology at Wexner Medical Center. His tremors started when he was in high school, and became progressively so bad that he had trouble putting a key into a door lock or writing on the blackboard. He struggled to sign checks, eat, or brush his teeth.

“My father had it and my grandfather had it,” Palovchik says in the press release. “The medical community calls it benign essential tremors, but if you have it, it’s not a benign condition. I saw my father’s life end, and I said, ‘I don’t want my life to end that way.’ I’ll be forever indebted to the doctors and the university for being the first patient to try this here.”

​During the four-hour surgery in the intraoperative MRI-surgical suite, Palovchik was awake and gave real-time feedback to the team of neurosurgeons, neuroradiologists, neurologists, and nurses. His feedback helped the team determine the exact brain cells to target with 1,024 beams of ultrasound focused on one spot deep in the brain that controls involuntary movements.

“Individual ultrasound beams pass through the scalp, skull, and brain tissue without causing any harm, but at the target, the multiple beams converge to a precise focal point [to create heat at that point]. This is a permanent treatment in which some brain cells causing the tremor are burned away. The patient has immediate results when surgery is done: the tremors are gone,” Krishna says.

Palovchik is pleased with how well he can now sign checks, feed himself, and brush his teeth without assistance, calling the treatment “a gift from heaven.”

“It’s made a big difference in the tremor I had in my right hand,” Palovchik says. “It’s virtually gone.”

The technology is a new treatment option for older patients who are not good candidates for traditional DBS pacemaker surgery in which tiny electrodes are surgically implanted into the brain and connected to a small pacemakerlike device that has been implanted into the chest wall, Krishna says. The pacemaker delivers electrical signals that regulate abnormal brain activity, alleviating disabling symptoms, such as tremors, and restoring function.

“If these good results are sustained over time, then focused ultrasound therapy will become a more routine therapy for the future,” Rezai says. “In addition to treating essential tremor, we hope to use this technology in the future for Parkinson’s disease, depression, obsessive compulsive disorder, and epilepsy.”