• World Neurosurg · Oct 2022

    Prelemniscal Radiations as a target for the treatment of Parkinson's disease. Individual variations in the stereotactic location of fiber components: A probabilistic tractography study.

    • Francisco Velasco-Campos, Mauricio Esqueda-Liquidano, Ernesto Roldan-Valadez, José Damián Carrillo-Ruiz, José Luis Navarro-Olvera, and Gustavo Aguado-Carrillo.
    • Unit for Stereotactic and Functional Neurosurgery, General Hospital of Mexico, Mexico City, Mexico.
    • World Neurosurg. 2022 Oct 1; 166: e345e352e345-e352.

    ObjectivePrelemniscal radiation (Raprl) lesions and deep brain stimulation effectively control motor symptoms of Parkinson disease, but individual variations in the stereotactic location of its fiber components constitute a significant concern. The objective of this study was to determine individual variations in the stereotactic location of fiber tracts composing Raprl.MethodsRaprl fiber composition was determined in a group of 10 Parkinson patients and 10 matched controls using 3T magnetic resonance imaging, brain imaging processed for diffusion-weighted images, tract density imaging, and constrained spherical deconvolution. The stereotactic position of the point of maximal proximity (PMP), which is the point where the most significant number of fibers is concentrated in the smallest volume in the tractography, was evaluated in the right and left hemispheres of the same person, between individuals and between patients and controls for each tract in coordinates "x," "y," and "z." The stereotactic coordinates at which PMP of all tracts meet were statistically determined, representing the recommended aim for this target.ResultsStereotactic coordinates of the 3 fiber tracts composing Raprl, cerebellar-thalamic-cortical, globus pallidus-peduncle-pontine nucleus, and mesencephalic-orbital frontal cortex, did not vary between right and left hemispheres in the same person and between patients and controls. In contrast, PMP variability between individuals was significant, mainly for the mesencephalic-orbitofrontal tract. Therefore, probabilistic tractography can better determine individual variations to plan electrode trajectories.ConclusionsIndividual PMP variations for fiber tracts in Raprl, identified by probabilistic tractography, provide a platform for planning the stereotactic approach to conform volumes for deep brain stimulation and lesions.Copyright © 2022 Elsevier Inc. All rights reserved.

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