Filed under: Neurological Surgery , Neurology
St. Jude Medical is reporting that the company's Libra deep brain stimulation devices have been implanted into initial set of European patients to treat Parkinson's disease.
The announcement was made at the European Association of Neurosurgical Societies and the Société Française de Neurochirugie joint annual meeting in Marseille, France.“We have initiated a limited launch of these systems in Europe and have recently completed implants in Austria, Germany and Greece,” said Chris Chavez, president of the St. Jude Medical Neuromodulation Division. “We look forward to expanding the availability of these systems in order to help physicians meet the needs of their patients.”
First implants were performed by Professor François Alesch, M.D., at the Medical University of Vienna, Vienna Austria, Professor Jan Vesper, M.D., at the University of Düsseldorf, Düsseldorf, Germany, and Professor Damianos Sakas, M.D., at the Evangelismos General Hospital, Athens, Greece.
“Deep brain stimulation is a safe surgical treatment for advanced Parkinson’s disease,” said Dr. Alesch, a professor of Stereotactic and Functional Neurosurgery at the Medical University of Vienna. “The availability of the Libra DBS systems allows us to choose the system that best meets the needs of the individual patient.”
“In properly selected patients, deep brain stimulation therapy can provide extremely good results,” said Professor Alfons Schnitzler, M.D., at the University of Düsseldorf. “For these patients, DBS may reduce akinesia, rigidity, tremor and levodopa-induced motor complications resulting in a significant improvement in their quality of life.”The Libra and LibraXP™ neurostimulators are constant current devices and feature the highest battery capacity of any DBS devices in their class, which may maximize the time between device replacement procedures. The systems consist of a neurostimulator – a surgically implanted battery operated device that generates mild electrical pulses – and leads which carry the pulses to a targeted area in the brain. The system functions in a manner similar to a cardiac pacemaker by influencing the irregular nerve signals responsible for the symptoms of Parkinson’s disease. This therapy can be non-invasively adjusted by a clinician to meet individual patient needs.
Flashback: European Union Approves Deep Brain Stimulation Systems for Parkinson's...
