Transcranial Ultrasound Therapy of Essential Tremor

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Description

Context: Essential tremor (ET) is the most common movement disorder, with a prevalence of 1-4% of the general population. ET is characterized by a rapid (6 and 12 Hz) attitude tremor with rhythmic oscillations of agonist and antagonist muscle groups. ET most often affects the upper limbs, the head a...

Context: Essential tremor (ET) is the most common movement disorder, with a prevalence of 1-4% of the general population. ET is characterized by a rapid (6 and 12 Hz) attitude tremor with rhythmic oscillations of agonist and antagonist muscle groups. ET most often affects the upper limbs, the head and the voice but may involve the lower limbs in severe forms. The tremor worsens with age: it extends topographically towards the proximal end of the limbs. In severe forms, drug treatment is ineffective and tremor leads to impaired autonomy. ET is due to dysfunction of neural networks including the cerebellum, bulbar olive, red nucleus and thalamus nuclei . At the thalamic level, the ventral intermediate thalamic nucleus (VIM), a relay of the cerebellar pathways, is a key structure. This VIM core receives output channels from the cerebellum and projects massively onto the primary motor cortex, the final effector of movement. In humans, imaging studies have shown the involvement of these cerebellar-thalamo-cortical circuits in the pathophysiology of tremor. When drug treatment is ineffective and tremor is disabling, surgical treatments are considered. Deep brain stimulation is the most used reversible and modulable method consisting in implantation of the electrodes in the VIM. However, patients are often elderly with much comorbidity. Thus, in these patients, the act of invasive neurosurgery (neurostimulation) may be contraindicated (anticoagulation treatment) or risky. Also, the peroperative risks such as hematoma of infection exist, even if they are rare. As an alternative to Deep Brain Stimulation (DBS), radiosurgical thalamotomy was proposed. This method nevertheless has several major disadvantages, such as the use of radioactive sources, the fact that the dose actually delivered during irradiation of the patient cannot be controlled in terms of intensity. On the other hand, the biological effect on the tissues is not immediate and imposes a long waiting time (several months) to evaluate the effectiveness of the treatment. Finally, many cases of radionecrosis have been described with important clinical consequences, although transient in most cases. Given the limitations inherent to deep brain stimulation and gamma knife thalamotomy, a new method of neuromodulation followed by injury without penetration into the brain would represent a considerable therapeutic hope. In addition, in patients in whom treatment is planned, pre-therapeutic neuromodulation would better determine the target of treatment. In this context the ultrasonic therapy method was first successfully tested in 2013.These data suggested that the benefit obtained with unilateral ultrasound treatment allows an improvement in tremor comparable to that obtained with deep-brain stimulation of the VIM without significant side effects. More recent series of studies confirmed these initial results with nine studies involving 160 patients in total. These studies have shown a significant clinical improvement with a rate of complication considered as acceptable by the authors (mostly transient ataxia and hemi-chorea-hemiballism) . However, the number of adverse effects remains still rather high and the method of the lesion targeting remains challenging. Also, sometimes it is difficult to obtain the therapeutic effect. Main objective: The main objective is the evaluation of the efficacy of transcranial ultrasound treatment, ie the efficacy of the VIM lesion produced by HIFU on contralateral upper extremity tremor in the 3-month procedure. The secondary objectives are to evaluate: the interest of neuromodulation in the change of the initially defined target the relevance of the effect of neuromodulation for the prediction of the final clinical effect at 3 and 12 months on controlateral upper extremity tremor at the lesion Clinical and accelerometer-mediated symptomatic effects produced by ultrasound neuromodulation of VIM per-procedure the safety of ultrasound therapy (HIFU) until one year after the constitution of a unilateral lesion of the intermediate ventral nucleus (VIM) of the thalamus. the study of the relationships between precise size and location of the ultrasound-induced lesion and changes in anatomical and functional connectivity and treatment efficacy and side effects. the effectiveness of the VIM lesion produced by HIFU on tremor affecting the contralateral upper extremity the effectiveness of the VIM lesion produced by HIFU on the overall severity of the tremor the effectiveness of HIFU VIM injury on the quality of life of patients with essential tremor the overall clinical impression of the patient in terms of severity and evolution compared to the pre-operative state the effects of HIFU-induced VIM injury on neurological functions in a global manner the effects of HIFU-induced VIM injury on cognitive functions the effects of the VIM lesion produced by HIFU on gait and balance The study of the structural and functional modifications induced by VIM lesion using structural and functional MRI and its link with therapeutic efficacy. neuroanatomical changes and anatomical and functional connectivity The objective of ancillary study: - MRI analysis in diffusion spectroscopy: The investigators team will test the modification of GABAergic and glutamatergic systems of the cerebellum and striatum in TE patients before and after treatment using a newly developed spectroscopic MRI sequence at the neuroimaging center of research of the ICM (CENIR). This new sequence makes it possible to measure the higher-resolution signal in smaller voxels precisely located in the putamen and the cerebellar cortex containing the representation of the limbs. This sequence also makes it possible to obtain a better signal with respect to the noise than the conventional sequences. The investigators team will determine whether the detection of GABA / glutamate abnormalities specific to each region makes it possible to follow the evolution of the patients before and after the ultrasound treatment. Main steps of work Before the initiation of the ultrasound treatment, the Insightec system will be installed on the Siemens PRISMA MRI at the ICM, CENIR. Adaptation of the Insightec system to the Siemens environment will be performed by the Langevin Institute team, Insightec engineers, and ICM team. The MRI sequences, which are essential for the treatment, will be optimized and adapted to this new environment by concentrating in particular on (i) the correction of the distortions related to the introduction of the probe, and (ii) on the improvement of the spatial resolution. This preliminary work will be done on the phantom and healthy controls for anatomical and temperature sequence optimization. Fifteen patients with ET will be included in the study. The inclusion and evaluation of patients will take place between 2 months and 2 weeks before the inclusion visit. This visit will verify the inclusion and non-inclusion criteria and provide the information and consent form to the subject. An assessment of the severity of tremor will be made using the CRST scale and electromyographic recordings of the upper limb coupled to functional MRI. A multimodal MRI scan will be performed for the targeting of the area of interest. Several targeting methods will be performed to have an optimal definition of the target anatomical area. In anatomical sequences, in addition to traditional statistical methods , stereotaxic targeting will be carried out using the three-dimensional and deformable histological atlas of basal ganglia. This atlas allows adapting to the anatomical characteristics of each patient to specifically locate its VIM core. Several methods based on diffusion MRI tractography will also be tested: (i) targeting of the dentato-rubro-thalamic (DRT) pathway connecting the cerebellum to the motor cortex via VIM ; (ii) parcellation of the thalamus using cortical connectivity and (iii) use of the adjacent pathways of the VIM (ML and PT), the VIM being between these pathways. Functional MRI-based methods will also be tested using functional activation MRI to locate the network whose activity is synchronous with tremor electromyographic activity according to a previously developed method. Patients will be hospitalized in the neurosurgery department for a period of 24 hours. The stereotactic frame will be fixed on the subject's head in the neurosurgery department of the Pitie? Salpe?trie?re under local anesthesia. The CT scan will be performed. Then, the patient will be transferred to CENIR at the ICM. The treatment will take place after placing the focused ultrasound helmet on the MRI bed and installing the subject in the MRI with the helmet. In the first step, the previously defined targets will be tested using neuro-modulation allowing a transient effect (a few minutes). For each target, the investigators team will determine (i) its level of efficiency through the CRST clinical scale and electromyographic activity of the upper limbs (with electrodes compatible with the MRI environment) and (ii) the absence of side effects (in particular, absence of ipsilateral dystonia, absence of dysarthria, cerebellar ataxia, oculomotor disturbances or sensitivity disorders). In a second step, a final lesion of very small size (1.5x1.5x5mm3) will be performed on the chosen target following the neuro-modulation. The ablation procedure will be controlled by thermal MR sequences. The visits of the clinical control, including the MRI will take place on D1, D7, M1, M2, M3, M6, M12 and M24. The visits will include general physical examination, collection of current treatments, collection of adverse effects / events, measurement of the severity of tremor: CRST scale, quality of life measurement: Short Form (36) Health Survey : SF-36, assessment of gait and balance: Gait and Balance Scale: GABS, evaluation of cognitive functions, multimodal MRI.

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