Research Brings Hope for a Brighter Tomorrow, and World Without Essential Tremor

We sometimes take for granted the vast history of medical research and its impact on human ailments and diseases. Most people have heard of polio and tuberculosis, which today are easily preventable with a vaccine. Organ transplants extend life for many and the pacemaker regulates the heart’s rhythm for people with irregular heartbeats. Physicians can remove cataracts and cancerous tumors, and use artificial insemination to help couples conceive.  And surgical options for essential tremor (ET), including focused ultrasound and deep brain stimulation, have enhanced the quality of life for thousands. None of these would be possible without medical research.

The International Essential Tremor Foundation (IETF) knows through continued medical research, there will one day be improved treatments and possibly a cure for essential tremor. So each year, we continue to fund research projects to address the nosology, etiology, pathogenesis and other topics relevant to essential tremor. Through promoting and awarding research grants, we also know we can stimulate inquiry into essential tremor (ET) by leading scientists.

IETF Research Appeal Graphic 2019

July is a time when we focus on essential tremor research and work to raise money for research grants. Since 2001, the IETF has dedicated more than $800,000 toward essential tremor research and we are not done yet.

This year, we presented a $25,000 research grant to Dr. Adrian Handforth with The Veterans Affairs Greater Los Angeles Healthcare System. His research project is titled, Evaluation of an a6ßy2 GABA Receptor-Specific Drug as Potential Therapy. It will explore the potential of developing a drug that mimics how low doses of alcohol can suppress the effects of tremor, but with more selectivity of molecular targets to try to avoid adverse effects found with other medications used for management of essential tremor.

Please consider supporting our “Shine a Light on Essential Tremor Research Campaign” this month. Watch for a special letter in your mailbox outlining how you can help. Or go online and make a donation.

Research provides hope for all of us, and means a better and brighter future for the next generation. Perhaps our scholarship recipient, Deirdre, summarized it best when she said:

New and ongoing research for ET gives hope to us young people. Even though our conditions may worsen over time, there are also so many ways that modern medicine can help us live our lives normally and we all need to work toward that goal together.”

Surgical Treatment of Essential Tremor

(This is an article that Dr. Arif Dalvi wrote for our May issue of Tremor Talk magazine. It’s just a sampling of the stories we include in each issue. Annual donors to the IETF receive Tremor Talk magazine in the mail three times per year.)

By Arif Dalvi, MD, MBA
Director of the Comprehensive Movement Disorders Program
Palm Beach Neuroscience Institute 

Background
Many patients with essential tremor (ET) get relief with medications. However, some patients, despite trying multiple medications, have a disabling tremor affecting activities such as eating, writing or using tools. Severe tremor also leads to social embarrassment and isolation. Surgical options can significantly improve quality of life in such patients.

Surgical treatment for ET goes back many decades. Abnormal circuits in a deep brain structure called the thalamus misfire sending signals to the muscles causing a tremor. In the 1970s, Irving Cooper, a neurosurgeon from Columbia University in New York, introduced the idea of making a lesion (similar to a small stroke) in the thalamus to suppress these tremor circuits. However, long term experience shows tremor relief from this method called thalamotomy may wear off in a few years. Patients with tremor in both hands need a thalamotomy on both sides of the brain, leading to higher risk of complications including difficulty with speech compared with a lesion only on one side.

The Birth of DBS
To find the best target the patient undergoes brain mapping while awake. The area within the thalamus is given a test dose of electrical stimulation to see if the tremor subsides. Alim Benabid, a neurosurgeon from Grenoble in France, realized stimulation on a constant basis could provide long-term control of tremor. He developed a brain pacemaker connected to a wire in the brain targeting the thalamus and the idea of deep brain stimulation (DBS) was born. This is the most established surgical technique for control of tremor. DBS was approved by the FDA in 1997 for ET and is covered by Medicare and many private insurers for appropriate patients.

DBS has the advantage of not requiring a stroke-like lesion in the brain. Unlike with a misplaced thalamotomy, side effects can usually be reversed by turning the pacemaker off. Both sides of the brain can be targeted without inducing the kind of complications seen when thalamotomy is done on both sides. DBS settings can be gradually increased over the years if the tremor gets worse. The battery for the DBS pacemaker requires replacement every three to five years. It must be kept in mind that there is approximately a two percent risk of a brain bleed with initial electrode placement.

DBS results depend on accurate placement of the electrode. New types of electrodes allow electrical stimulus to be directed in different directions. These directional electrodes allow for good tremor control while minimizing side effects even without perfect placement. DBS technology continues to improve with directional electrodes, smaller and longer lasting pacemakers, and rechargeable batteries being some of the innovations.

MRI-Focused Ultrasound
MRI-Focused Ultrasound (MRI-FUS) is the most recent surgical option. High energy ultrasound waves are targeted to the thalamus with high-quality MRI imaging. The ultrasound beam makes a lesion like a thalamotomy. The procedure is done on an awake patient in an MRI suite. A lighter test dose is applied to see if tremor improves. If there are no side effects, a full intensity dose is applied. MRI-FUS does not require a burr hole in the skull or electrodes and pacemakers within the body. In this sense, it is “noninvasive,” but a misplaced lesion can still result in permanent side effects. Small numbers of patients with ET have undergone this procedure, usually with favorable results. How these patients will fare in the longer term remains to be seen.

Surgical option choices for severe tremor should be made under the guidance of a movement disorders neurologist highly experienced with these procedures.