High-density diffuse optical tomography (HD-DOT) has been shown to be a promising alternative to fMRI for mapping cortical hemodynamics in young healthy adults. HD-DOT imaging can be more precise when coupled with subject specific head models rather than generic atlas-based head models. While MRI-derived head models are commonly used, in some patient groups including subjects with metal and/or electrical implants, only CT images can be obtained. In this study, we developed a CT-based head modeling pipeline and demonstrated the feasibility of improved mapping of brain responses to tasks compared to a generic atlas-based head-model.
Deep-brain stimulation (DBS) of the ventro-intermediate nucleus of the thalamus (VIM) can provide substantial clinical motor benefit to Essential Tremor (ET) patients. However, the DBS impact on the functional connectivity (FC) of networks is difficult to study using standard neuroimaging modalities either due to limited temporal resolution (PET) or safety concerns from contraindications (fMRI). In this study, we tested the feasibility and sensitivity of High-Density Diffuse Optical Tomography (HD-DOT), which avoids these concerns, for mapping cortical blood flow responses to sensory stimuli and measuring resting state cortical FC in ET patients with VIM DBS OFF vs ON.
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