Parkinson's Disease Clinical Trial
Official title:
Sub-thalamic Nucleus Stimulation in Parkinson Disease: Comparison of a Two-steps Electrophysiological Approach Under Local and General Anesthesia and a One-step Approach Under General Anesthesia
Deep brain stimulation (DBS) is an established procedure for the symptomatic treatment of
Parkinson's disease. This procedure performed in two steps using electrophysiology. This
study is a prospective, randomized and monocentric study to compare two DBS procedures with
or without electrophysiology.
A better control of targeting and trajectory is necessary before not using electrophysiology,
which is the reference procedure. A new definition of sub thalamic nuclei with new MRI
stereotactic landmarks, the use of surgical robot (Neuromata Renishaw) and the use of
operative imaging (O-arm) could allow the implantation of electrode in sub-thalamic nuclei
without the need of electrophysiology.
Two groups of patients will be followed: a first group of patients with a procedure under
general anesthesia alone without electrophysiological stimulation and a second smaller group
of patients with a first step of electrode implantation under awake surgery with
electrophysiological stimulation followed by a second step under general anesthesia for the
implantation of stimulator.
Clinical results will be assessed at 6 months after implantation.
Deep brain stimulation (DBS) is an established procedure for the symptomatic treatment of
Parkinson's disease. This procedure performed in two steps using electrophysiology (Limousin
et al., 1995) to register the activity of the sub-thalamic nucleus and test the efficacy of
stimulation while the patient is awake. A second procedure is needed a few days later to
implant the stimulation device under general anaesthesia. The duration of the first procedure
is long because of a necessary time of deep stimulation to control the target before
definitive implantation. Firstly, the long time of procedure causes pain for the patient.
Secondly, the time of procedure, and thus of electrophysiology, is correlated with a rate of
device infection of 5 % - 6 % (Hamani et al., 2006; Kenney et al., 2007; Sillay et al., 2008;
Doshi et al., 2011). Thirdly, the introduction of several microelectrodes increases the risk
of operative and postoperative haemorrhages, estimated at 1 % (Kenney et al., 2007; Sansur et
al., 2007; Voges et al., 2007; Bhatia et al., 2008). Moreover, Foltynie et al. (2011)
described 12/79 patients treated under general anaesthesia alone with the same post operative
results than those who were firstly treated under local anaesthesia.
A better control of targeting and trajectory is necessary before not using electrophysiology,
which is the reference procedure. A new definition of sub thalamic nuclei with new MRI
stereotactic landmarks, the use of surgical robot (Neuromata Renishaw) and the use of
operative imaging (O-arm) could allow the implantation of electrode in sub-thalamic nuclei
without the need of electrophysiology. (Caire et al. 2012, In press).
This study is a prospective, randomized and monocentric study. The randomization will be made
according to a ratio 2:1 in favour of the technique without electrophysiology. Two groups of
patients will be followed: a first group of patients with a procedure under general
anesthesia alone without electrophysiological stimulation and a second smaller group of
patients with a first step of electrode implantation under awake surgery with
electrophysiological stimulation followed by a second step under general anesthesia.
After a preoperative assessment, a end-point evaluation at 6 months after implantation will
complete the follow-up.
The stimulation efficacy (UPDRS-3) and the post operative adverse effects will be noticed.
This study will also evaluate the occurrence of a post-traumatic stress disorder (PTSD) in
Parkinson disease patients operated under deep brain stimulation.
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