Your search keyword '"Sami Obaid"' showing total 3 results

1. High-resolution cortical parcellation based on conserved brain landmarks for localization of multimodal data to the nearest centimeter

Author

Hari McGrath, Hitten P. Zaveri, Evan Collins, Tamara Jafar, Omar Chishti, Sami Obaid, Alexander Ksendzovsky, Kun Wu, Xenophon Papademetris, and Dennis D. Spencer

Subjects

Medicine, Science

Abstract

Abstract Precise cortical brain localization presents an important challenge in the literature. Brain atlases provide data-guided parcellation based on functional and structural brain metrics, and each atlas has its own unique benefits for localization. We offer a parcellation guided by intracranial electroencephalography, a technique which has historically provided pioneering advances in our understanding of brain structure–function relationships. We used a consensus boundary mapping approach combining anatomical designations in Duvernoy’s Atlas of the Human Brain, a widely recognized textbook of human brain anatomy, with the anatomy of the MNI152 template and the magnetic resonance imaging scans of an epilepsy surgery cohort. The Yale Brain Atlas consists of 690 one-square centimeter parcels based around conserved anatomical features and each with a unique identifier to communicate anatomically unambiguous localization. We report on the methodology we used to create the Atlas along with the findings of a neuroimaging study assessing the accuracy and clinical usefulness of cortical localization using the Atlas. We also share our vision for the Atlas as a tool in the clinical and research neurosciences, where it may facilitate precise localization of data on the cortex, accurate description of anatomical locations, and modern data science approaches using standardized brain regions.

Published

2022

2. Subcortical structural connectivity of insular subregions

Author

Isabelle Rouleau, Alan Tucholka, Jimmy Ghaziri, Jean-Christophe Houde, Guillaume Gilbert, Sami Obaid, Dang Khoa Nguyen, Gabriel Girard, Maxime Descoteaux, and Olivier Boucher

Subjects

0301 basic medicine, Adult, Male, Thalamus, Caudate nucleus, lcsh:Medicine, Insular cortex, Amygdala, Hippocampus, Basal Ganglia, 03 medical and health sciences, Young Adult, 0302 clinical medicine, Neural Pathways, medicine, Connectome, Humans, lcsh:Science, Cerebral Cortex, Multidisciplinary, Putamen, lcsh:R, Magnetic Resonance Imaging, Healthy Volunteers, 030104 developmental biology, medicine.anatomical_structure, Female, lcsh:Q, Psychology, Neuroscience, Insula, 030217 neurology & neurosurgery, Tractography

Abstract

Hidden beneath the Sylvian fissure and sometimes considered as the fifth lobe of the brain, the insula plays a multi-modal role from its strategic location. Previous structural studies have reported cortico-cortical connections with the frontal, temporal, parietal and occipital lobes, but only a few have looked at its connections with subcortical structures. The insular cortex plays a role in a wide range of functions including processing of visceral and somatosensory inputs, olfaction, audition, language, motivation, craving, addiction and emotions such as pain, empathy and disgust. These functions implicate numerous subcortical structures, as suggested by various functional studies. Based on these premises, we explored the structural connectivity of insular ROIs with the thalamus, amygdala, hippocampus, putamen, globus pallidus, caudate nucleus and nucleus accumbens. More precisely, we were interested in unraveling the specific areas of the insula connected to these subcortical structures. By using state-of-the-art HARDI tractography algorithm, we explored here the subcortical connectivity of the insula.

Published

2018

3. A new method using Raman spectroscopy for in vivo targeted brain cancer tissue biopsy

Author

Fabien Picot, Joannie Desroches, Dominique Trudel, Sami Obaid, Brian C. Wilson, Kirk Urmey, Kevin Petrecca, Marie-Christine Guiot, Michael Jermyn, Michael Pinto, Marie-Andrée Tremblay, Eric Marple, Frederic Leblond, and Gilles Soulez

Subjects

Adult, Male, medicine.medical_specialty, Swine, Biopsy, lcsh:Medicine, Spectrum Analysis, Raman, Article, 03 medical and health sciences, 0302 clinical medicine, In vivo, medicine, Animals, Humans, Sampling (medicine), Stage (cooking), lcsh:Science, Aged, Multidisciplinary, medicine.diagnostic_test, Brain Neoplasms, business.industry, Brain biopsy, lcsh:R, Cancer, Middle Aged, medicine.disease, 3. Good health, 030220 oncology & carcinogenesis, Cancer cell, lcsh:Q, Female, Radiology, Molecular imaging, business, 030217 neurology & neurosurgery

Abstract

Modern cancer diagnosis requires histological, molecular, and genomic tumor analyses. Tumor sampling is often achieved using a targeted needle biopsy approach. Targeting errors and cancer heterogeneity causing inaccurate sampling are important limitations of this blind technique leading to non-diagnostic or poor quality samples, and the need for repeated biopsies pose elevated patient risk. An optical technology that can analyze the molecular nature of the tissue prior to harvesting could improve cancer targeting and mitigate patient risk. Here we report on the design, development, and validation of an in situ intraoperative, label-free, cancer detection system based on high wavenumber Raman spectroscopy. This optical detection device was engineered into a commercially available biopsy system allowing tumor analysis prior to tissue harvesting without disrupting workflow. Using a dual validation approach we show that high wavenumber Raman spectroscopy can detect human dense cancer with >60% cancer cells in situ during surgery with a sensitivity and specificity of 80% and 90%, respectively. We also demonstrate for the first time the use of this system in a swine brain biopsy model. These studies set the stage for the clinical translation of this optical molecular imaging method for high yield and safe targeted biopsy.

Published

2018