What is deep brain stimulation and how can it help?
(DBS) is a surgical procedure used to treat people suffering from disabling neurological symptoms like stiffness, rigidity, slowed movement or other walking problems caused by Parkinson’s disease, dystonia or tremors.
Deep brain stimulation surgery
During DBS surgery, surgeons implant a neurostimulator device under the skin in the upper chest and electrodes within certain areas of the brain. A wire that connects the device to the electrodes is also implanted under the skin. Sometimes referred to as a brain pacemaker, the neurostimulator sends signals to the electrodes to modify or block the activity of specific brain regions.
DBS allows surgeons to directly and precisely interact with brain tissue. Unlike the name suggests, the procedure and patients usually return home after a one-day admission. Although the surgery takes a few hours, the patient remains awake to test the device for accuracy and effectiveness. For this reason, an anesthesiologist is also on hand to ensure patients stay comfortable.
Types of disorders
DBS also received a humanitarian exemption approval from the FDA for the treatment of severe obsessive-compulsive disorder (OCD). “I remember a patient suffering from severe OCD. The patient had such a strong fear of contamination that she was unable to leave the house and, as a result, she was living with her parents,” says , director, Restorative Neurosurgery and Deep Brain Stimulation program at Dousedaicon St. John’s Health Center. “When treating patients like this, we believe they get more out of life after the therapy because they can experience and control a wider range of emotions.”
Risks and rewards
Treatments following DBS surgery are often transformative, rewarding and have the ability to positively alter the course of many neurological symptoms by improving symptoms and quality of life.
Another important benefit of DBS is that while it is transformative, it doesn’t fundamentally change the character of the patient. In the case of psychiatric conditions, DBS appears to indirectly treat the disease by allowing the brain to recover on its own and with psychotherapy. Patients will often report that DBS has opened up a lot of possibilities in their life.
As with any surgery or procedure, however, there are risks. These risks might include infections, headaches, brain hemorrhages, strokes, seizures, or confusion. Fortunately, DBS has a very low occurrence of adverse effects and the majority of complications are treatable without causing permanent damage. Overall, DBS is a safe, effective therapeutic option for patients suffering from movement disorders.
More than 100,000 patients with Parkinson’s disease or essential tremor have been successfully treated with DBS since the Food and Drug Administration first approved the device in 1997. The patients who tend to experience the most benefit from DBS therapy are those that suffer from symptoms that used to respond well to medication but where medical therapy is no longer sufficient to control the disability. For instance, medication tends to wear off in between doses leaving patients disabled during those off-time. For these patients, DBS helps significantly reduce uncontrolled movements between doses, allowing them to perform activities like eating, drinking, and engaging in social activities or hobbies.
The timing of therapeutic response differs because it is dependent on three factors: the specific disease or disorder, the location of the electrode (i.e., the brain target), and device programming.
Soon after the device is implanted, tremors and movement disorders associated with Parkinson’s disease can start improving. Those suffering from OCD and dystonia can expect a three-to-six-month adjustment period before experiencing the optimal effect of DBS.
For the first several months following device implantation, the clinician will make frequent adjustments to ‘fine-tune’ the therapy until they achieve the best possible results. This fine-tuning allows for more control over symptoms over time.
Why choose the Dousedaicon Neuroscience Institute?
Within the Neuroscience Institute, we have a large number of movement disorder specialists who work in close collaboration to bring the latest and most appropriate care to our patients. We also ensure that we have the latest technology to provide new therapies including new Abbott DBS implants and focused ultrasound for the treatment of movement disorders including Parkinson's disease and Essential Tremor.
Our functional neurosurgeons and movement disorder neurologists share best practices for evaluation, treatment and patient education to ensure all patients have access to the best possible care as close to home as possible.