El papel de la tractografía en la localización del núcleo ventralis intermedius del tálamo y el haz dentatorrubrotalámico en el tratamiento del temblor / The role of tractography in the localization of the Vim nucleus of the thalamus and the dentato-rubro-thalamic tract for the treatment of tremor

Introducción: La diana habitual empleada para el tratamiento quirúrgico del temblor es el núcleo ventralis intermedius (Vim) del tálamo. Su localización es compleja, ya que no se puede visualizar con métodos de imagen convencionales, por lo que para el procedimiento quirúrgico se toman clásicamente medidas indirectas y se correlacionan con la clínica y neurofisiología intraoperatorias. Sin embargo, procedimientos ablativos actuales como la talamotomía por gamma-knife o por ultrasonidos (MRgFUS) hacen que sea preciso buscar otras alternativas para su localización. El objetivo del presente trabajo es comparar la localización indirecta del Vim mediante técnica esterotáctica con la realizada directamente por tractografía para el tratamiento del temblor.DiscusiónLa definición citoarquitectónica más empleada del Vim es la del atlas de Schaltenbrand-Wahren. Existe un límite claro entre el tálamo motor y el sensitivo; las neuronas del Vim responden a movimientos pasivos articulares y su actividad es sincrónica con el temblor periférico. Las coordenadas estereotácticas del Vim más frecuentemente utilizadas se basan en mediciones indirectas respecto a la línea intercomisural y el III ventrículo, las cuales dependen de variaciones interindividuales. Estudios recientes han propuesto el haz dentatorrubrotalámico como una diana óptima para el control del temblor, postulando que se asocia a una mejoría clínica; sin embargo, esto no ha sido corroborado por otros autores.ConclusionesLa visualización de la vía cerebelorrubrotalámica por tractografía puede ayudar a definir la localización del Vim. Esta técnica tiene limitaciones inherentes y sería necesaria una estandarización del método para lograr resultados más precisos. La posible mayor utilidad de la diana por tractografía, directa, sobre la indirecta queda por demostrar a largo plazo en pacientes con temblor. (AU)

Introduction: The ventralis intermedius (Vim) nucleus of the thalamus is the usual surgical target for tremor. However, locating the structure may be difficult as it is not visible with conventional imaging methods; therefore, surgical procedures typically use indirect calculations correlated with clinical and intraoperative neurophysiological findings. Current ablative surgical procedures such as Gamma-Knife thalamotomy and magnetic resonance-guided focused ultrasound require new alternatives for locating the Vim nucleus. In this review, we compare Vim nucleus location for the treatment of tremor using stereotactic procedures versus direct location by means of tractography.DiscussionThe most widely used cytoarchitectonic definition of the Vim nucleus is that established by Schaltenbrand and Wahren. There is a well-defined limit between the motor and the sensory thalamus; Vim neurons respond to passive joint movements and are synchronous with peripheral tremor. The most frequently used stereotactic coordinates for the Vim nucleus are based on indirect calculations referencing the mid-commissural line and third ventricle, which vary between patients. Recent studies suggest that the dentato-rubro-thalamic tract is an optimal target for controlling tremor, citing a clinical improvement; however, this has not yet been corroborated.ConclusionsVisualisation of the cerebello-rubro-thalamic pathway by tractography may help in locating the Vim nucleus. The technique has several limitations, and the method requires standardisation to obtain more precise results. The utility of direct targeting by tractography over indirect targeting for patients with tremor remains to be demonstrated in the long-term. (AU)

The role of tractography in the localization of the Vim nucleus of the thalamus and the dentato-rubro-thalamic tract for the treatment of tremor. / El papel de la tractografía en la localización del núcleo ventralis intermedius del tálamo y el haz dentatorrubrotalámico en el tratamiento del temblor.

INTRODUCTION: The ventralis intermedius (Vim) nucleus of the thalamus is the usual surgical target for tremor. However, locating the structure may be difficult as it is not visible with conventional imaging methods; therefore, surgical procedures typically use indirect calculations correlated with clinical and intraoperative neurophysiological findings. Current ablative surgical procedures such as Gamma-Knife thalamotomy and magnetic resonance-guided focused ultrasound require new alternatives for locating the Vim nucleus. In this review, we compare Vim nucleus location for the treatment of tremor using stereotactic procedures versus direct location by means of tractography. DISCUSSION: The most widely used cytoarchitectonic definition of the Vim nucleus is that established by Schaltenbrand and Wahren. There is a well-defined limit between the motor and the sensory thalamus; Vim neurons respond to passive joint movements and are synchronous with peripheral tremor. The most frequently used stereotactic coordinates for the Vim nucleus are based on indirect calculations referencing the mid-commissural line and third ventricle, which vary between patients. Recent studies suggest that the dentato-rubro-thalamic tract is an optimal target for controlling tremor, citing a clinical improvement; however, this has not yet been corroborated. CONCLUSIONS: Visualisation of the cerebello-rubro-thalamic pathway by tractography may help in locating the Vim nucleus. The technique has several limitations, and the method requires standardisation to obtain more precise results. The utility of direct targeting by tractography over indirect targeting for patients with tremor remains to be demonstrated in the long-term.

The role of tractography in the localisation of the Vim nucleus of the thalamus and the dentatorubrothalamic tract for the treatment of tremor.

INTRODUCTION: The ventralis intermedius (VIM) nucleus of the thalamus is the usual surgical target for tremor. However, locating the structure may be difficult as it is not visible with conventional imaging methods; therefore, surgical procedures typically use indirect calculations correlated with clinical and intraoperative neurophysiological findings. Current ablative surgical procedures such as Gamma-Knife thalamotomy and magnetic resonance-guided focused ultrasound require new alternatives for locating the VIM nucleus. In this review, we compare VIM nucleus location for the treatment of tremor using stereotactic procedures versus direct location by means of tractography. DISCUSSION: The most widely used cytoarchitectonic definition of the VIM nucleus is that established by Schaltenbrand and Wahren. There is a well-defined limit between the motor and the sensory thalamus; VIM neurons respond to passive joint movements and are synchronous with peripheral tremor. The most frequently used stereotactic coordinates for the VIM nucleus are based on indirect calculations referencing the mid-commissural line and third ventricle, which vary between patients. Recent studies suggest that the dentato-rubro-thalamic tract is an optimal target for controlling tremor, citing a clinical improvement; however, this has not yet been corroborated. CONCLUSIONS: Visualisation of the cerebello-rubro-thalamic pathway by tractography may help in locating the VIM nucleus. The technique has several limitations, and the method requires standardisation to obtain more precise results. The utility of direct targeting by tractography over indirect targeting for patients with tremor remains to be demonstrated in the long-term.