Successful Unilateral Surgical Approach to Internal Globus Pallidus and Ventral Intermediate Nucleus of the Thalamus in 3 Cases of Myoclonus-Dystonia Syndrome.

Surgical approaches of internal globus pallidus (GPi) and ventral intermediate thalamic nucleus (Vim) have been used to treat different movement disorders. Three subjects with myoclonus-dystonia syndrome were surgically treated, one of them with GPi and Vim stimulation, while radiofrequency ablation of these structures was performed in the other 2 subjects. Surgical approach of both targets was performed simultaneously on each subject. Mean follow-up was of 33.3 months (22-48 months), the Unified Myoclonus Rating Scale action myoclonus (AM), functional tests (FT), patient questionnaire (PQ) sub-scores, and the Unified Dystonia Rating Scale (UDRS) were used during assessments. Improvement in all scales were seen 6 months after surgery (AM: 74%, FT: 60%, PQ: 63%, UDRS: 65%), and this benefit persisted throughout follow-up (AM: 61%, FT:62%, PQ: 65%, UDRS: 86%). No adverse events were noticed. Simultaneous unilateral procedures of GPi and Vim by either stimulation or ablation techniques improve both motor and functional scores in myoclonus-dystonia syndrome.

Morphometric Study of the Internal Globus Pallidus Using the Robert, Barnard, and Brown Staining Method.

BACKGROUND: The globus pallidus internus (Gpi) is a major target in functional neurosurgery. Anatomical studies are crucial for correct planning and good surgical outcomes in this region. The present study described the anatomical coordinates of the Gpi and its relationship with other brain structures and compared the findings with those from previous anatomical studies. METHODS: We obtained 35 coronal and 5 horizontal brain specimens from the Department of Anatomy and stained them using the Robert, Barnard, and Brown technique. After excluding defective samples, 60 nuclei were analyzed by assessing their distances to the anatomical references and the trajectories to these nuclei. RESULTS: The barycenter of the Gpi was identified at the level of the mammillary bodies and 1 cm above the intercommissural plane. Thereafter, the distances to other structures were found. The mean ± standard deviation distance was 15.62 ± 2.66 mm to the wall of the third ventricle and 17.02 ± 2.69 mm to its midline, 4.74 ± 1.12 mm to the optic tract, 2.51 ± 0.8 mm and 13.56 ± 2 mm to the internal and external capsule, and 21.3 ± 2.44 mm to the insular cortex. The cortical point of entry should be located 22.03 ± 4.34 mm to 48.74 ± 4.44 mm from the midline. CONCLUSION: The Gpi has less variability in distance to closer anatomical references, such as the optic tract and internal capsule. Distant locations showed a more inhomogeneous pattern. Anatomical studies such as ours are important for the development of new therapeutic approaches and can be used as a basis for new research involving volumetric and specific group analyses.

The advances of Deep Brain Stimulation (DBS) for treatment of Parkinson's disease (PD)

Advanced Parkinson's disease (PD) is characterized by the presence of motor fluctuations, various degrees of dyskinesia, and disability with functional impact on daily living and independence. Therapeutic management aims to extend levodopa (L-DOPA) benefit while minimizing motor complications and includes, in selected cases, the implementation of drug infusion and surgical techniques. The concept of deep brain stimulation (DBS) for PD was introduced over 20 years ago, but our understanding of the nuances of this procedure continues to improve. This review aims to demonstrate the advances of DBS in the treatment of PD patients. (AU)

Tratamiento quirúrgico de la distonía / Surgical management for dystonia

RESUMEN A pesar de los recientes avances en la comprensión de los circuitos cerebrales involucrados en la distonía, las técnicas quirúrgicas invasivas y no invasivas han fallado en proporcionar un beneficio substancial a los pacientes que sufren de distonía, en comparación con los resultados observados en la enfermedad de Parkinson, no obstante, la lesionectomía, la estimulación cerebral profunda y el ultrasonido enfocado pueden proporcionar mejoría en los casos refractarios al manejo médico.

SUMMARY Despite recent advances in understanding brain circuits involved in dystonia, surgical techniques both invasive and not invasive have fail to provide substantial benefit to patients suffering from dystonia compared to the results seeing in Parkinson's disease, nonetheless, lesionectomy, deep brain stimulation and focused ultrasound can provide relief in medical refractory cases.

Tratamiento quirúrgico de la distonía / Surgical management for dystonia

A pesar de los recientes avances en la comprensión de los circuitos cerebrales involucrados en la distonía, las técnicas quirúrgicas invasivas y no invasivas han fallado en proporcionar un beneficio substancial a los pacientes que sufren de distonía, en comparación con los resultados observados en la enfermedad de Parkinson, no obstante, la lesionectomía, la estimulación cerebral profunda y el ultrasonido enfocado pueden proporcionar mejoría en los casos refractarios al manejo médico.

SUMMARY Despite recent advances in understanding brain circuits involved in dystonia, surgical techniques both invasive and not invasive have fail to provide substantial benefit to patients suffering from dystonia compared to the results seeing in Parkinson's disease, nonetheless, lesionectomy, deep brain stimulation and focused ultrasound can provide relief in medical refractory cases.

Stereotactic radiosurgery for movement disorders.

Initially designed for the treatment of functional brain targets, stereotactic radiosurgery (SRS) has achieved an important role in the management of a wide range of neurosurgical pathologies. The interest in the application of the technique for the treatment of pain, and psychiatric and movement disorders has returned in the beginning of the 1990s, stimulated by the advances in neuroimaging, computerized dosimetry, treatment planning software systems, and the outstanding results of radiosurgery in other brain diseases. Since SRS is a neuroimaging-guided procedure, without the possibility of neurophysiological confirmation of the target, deep brain stimulation (DBS) and radiofrequency procedures are considered the best treatment options for movement-related disorders. Therefore, SRS is an option for patients who are not suitable for an open neurosurgical procedure. SRS thalamotomy provided results in tremor control, comparable to radiofrequency and DBS. The occurrence of unpredictable larger lesions than expected with permanent neurological deficits is a limitation of the procedure. Improvements in SRS technique with dose reduction, use of a single isocenter, and smaller collimators were made to reduce the incidence of this serious complication. Pallidotomies performed with radiosurgery did not achieve the same good results. Even though the development of DBS has supplanted lesioning as the first alternative in movement disorder surgery; SRS might still be the only treatment option for selected patients.