Michelle Paff1, Alexandre Boutet1, Jürgen Germann1, Gavin J B Elias1, Clement T Chow1, Aaron Loh1, Walter Kucharczyk1, Alfonso Fasano1, Michael L Schwartz1, Andres M Lozano1. 1. University Health Network (MP, AB, JG, GJBE, CTC, AL, WK, AML), Toronto; Joint Department of Medical Imaging (AB, WK), University of Toronto; Edmond J. Safra Program in Parkinson's Disease (AF), Morton and Gloria Shulman Movement Disorders Clinic, Toronto Western Hospital, University Health Network, and Division of Neurology (AF), University of Toronto; Krembil Brain Institute (AF); Division of Neurosurgery (MLS), Sunnybrook Health Sciences Center, University of Toronto; and Division of Neurosurgery (AML), Department of Surgery, Toronto Western Hospital and University of Toronto, Ontario, Canada.
Abstract
OBJECTIVE: Focused ultrasound thalamotomy is an effective treatment for tremor; however, side effects may occur. The purpose of the present study was to investigate the spatial relationship between thalamotomies and specific sensory side effects and their functional connectivity with somatosensory cortex and relationship to the medial lemniscus (ML). METHODS: Sensory adverse effects were categorized into 4 groups based on the location of the disturbance: face/mouth/tongue numbness/paresthesia, hand-only paresthesia, hemibody/limb paresthesia, and dysgeusia. Then, areas of significant risk (ASRs) for each category were defined using voxel-wise mass univariate analysis and overlaid on corresponding odds ratio maps. The ASR associated with the maximum risk was used as a region of interest in a normative functional connectome to determine side effect-specific functional connectivity. Finally, each ASR was overlaid on the ML derived from normative template. RESULTS: Of 103 patients, 17 developed sensory side effects after thalamotomy persisting 3 months after the procedures. Lesions producing sensory side effects extended posteriorly into the principle sensory nucleus of the thalamus or below the thalamus in the ML. The topography of sensory adverse effects followed the known somatotopy of the ML and the sensory nucleus. Functional connectivity patterns between each sensory-specific thalamic seed and the primary somatosensory areas supported the role of the middle insula in processing of gustatory information and in multisensory integration. CONCLUSIONS: Distinct regions in the sensory thalamus and its afferent connections rise to specific sensory disturbances. These findings demonstrate the relationship between the sensory thalamus, ML, and bilateral sensory cortical areas.
OBJECTIVE: Focused ultrasound thalamotomy is an effective treatment for tremor; however, side effects may occur. The purpose of the present study was to investigate the spatial relationship between thalamotomies and specific sensory side effects and their functional connectivity with somatosensory cortex and relationship to the medial lemniscus (ML). METHODS: Sensory adverse effects were categorized into 4 groups based on the location of the disturbance: face/mouth/tongue numbness/paresthesia, hand-only paresthesia, hemibody/limb paresthesia, and dysgeusia. Then, areas of significant risk (ASRs) for each category were defined using voxel-wise mass univariate analysis and overlaid on corresponding odds ratio maps. The ASR associated with the maximum risk was used as a region of interest in a normative functional connectome to determine side effect-specific functional connectivity. Finally, each ASR was overlaid on the ML derived from normative template. RESULTS: Of 103 patients, 17 developed sensory side effects after thalamotomy persisting 3 months after the procedures. Lesions producing sensory side effects extended posteriorly into the principle sensory nucleus of the thalamus or below the thalamus in the ML. The topography of sensory adverse effects followed the known somatotopy of the ML and the sensory nucleus. Functional connectivity patterns between each sensory-specific thalamic seed and the primary somatosensory areas supported the role of the middle insula in processing of gustatory information and in multisensory integration. CONCLUSIONS: Distinct regions in the sensory thalamus and its afferent connections rise to specific sensory disturbances. These findings demonstrate the relationship between the sensory thalamus, ML, and bilateral sensory cortical areas.
Authors: Aaron E Bond; Binit B Shah; Diane S Huss; Robert F Dallapiazza; Amy Warren; Madaline B Harrison; Scott A Sperling; Xin-Qun Wang; Ryder Gwinn; Jennie Witt; Susie Ro; W Jeffrey Elias Journal: JAMA Neurol Date: 2017-12-01 Impact factor: 18.302
Authors: Alexandre Boutet; Manish Ranjan; Jidan Zhong; Jurgen Germann; David Xu; Michael L Schwartz; Nir Lipsman; Kullervo Hynynen; Gabriel A Devenyi; Mallar Chakravarty; Eugen Hlasny; Maheleth Llinas; Christopher S Lozano; Gavin J B Elias; Jason Chan; Ailish Coblentz; Alfonso Fasano; Walter Kucharczyk; Mojgan Hodaie; Andres M Lozano Journal: Brain Date: 2018-12-01 Impact factor: 13.501
Authors: Alfonso Fasano; Maheleth Llinas; Renato P Munhoz; Eugen Hlasny; Walter Kucharczyk; Andres M Lozano Journal: Neurology Date: 2017-07-26 Impact factor: 9.910
Authors: Stephen M Smith; Christian F Beckmann; Jesper Andersson; Edward J Auerbach; Janine Bijsterbosch; Gwenaëlle Douaud; Eugene Duff; David A Feinberg; Ludovica Griffanti; Michael P Harms; Michael Kelly; Timothy Laumann; Karla L Miller; Steen Moeller; Steve Petersen; Jonathan Power; Gholamreza Salimi-Khorshidi; Abraham Z Snyder; An T Vu; Mark W Woolrich; Junqian Xu; Essa Yacoub; Kamil Uğurbil; David C Van Essen; Matthew F Glasser Journal: Neuroimage Date: 2013-05-20 Impact factor: 6.556