Show pageBacklinksCite current pageExport to PDFBack to top This page is read only. You can view the source, but not change it. Ask your administrator if you think this is wrong. Stereotactic [[laser ablation]] and [[neurostimulator]] placement represent an evolution in staged surgical [[intervention]] for [[epilepsy]]. As this practice evolves, optimal targeting will require standardized [[outcome]] measures that compare [[electrode]] [[lead]] or laser source with postprocedural changes in [[seizure]] frequency. Miller et al., proposed and presented a novel [[stereotactic]] [[coordinate system]] based on mesial temporal anatomical [[landmark]]s to facilitate the [[planning]] and delineation of outcomes based on extent of ablation or region of stimulation within mesial temporal structures. The body of the [[hippocampus]] contains a natural axis, approximated by the interface of [[cornu ammonis]] area 4 and the [[dentate gyrus]]. The [[uncal recess]] of the [[lateral ventricle]] acts as a landmark to characterize the anterior-posterior extent of this axis. Several volumetric rotations are quantified for alignment with the mesial temporal coordinate system. First, the brain volume is rotated to align with standard [[anterior commissure]]-[[posterior commissure]] (AC-PC) space. Then, it is rotated through the axial and sagittal angles that the hippocampal axis makes with the AC-PC line. Using this coordinate system, customized [[MATLAB]] software was developed to allow for intuitive standardization of targeting and interpretation. The angle between the AC-PC line and the hippocampal axis was found to be approximately 20°-30° when viewed sagittally and approximately 5°-10° when viewed axially. Implanted electrodes can then be identified from CT in this space, and [[laser]] tip position and burn geometry can be calculated based on the intraoperative and postoperative MRI. With the advent of stereotactic surgery for mesial temporal targets, a mesial temporal stereotactic system is introduced that may facilitate operative planning, improve surgical outcomes, and standardize outcome assessment ((Miller KJ, Halpern CH, Sedrak MF, Duncan JA, Grant GA. A novel mesial temporal stereotactic coordinate system. J Neurosurg. 2018 Jan 1:1-9. doi: 10.3171/2017.7.JNS162267. [Epub ahead of print] PubMed PMID: 29372873. )). uncal_recess.txt Last modified: 2024/06/07 03:00by 127.0.0.1