Neuropathology

Disease states and neuropathology often have debilitating consequences for the sufferer’s daily life. We are devoted to improving the treatment of these illnesses, and providing greater insight into their causes, symptom origins and potential alternative treatment strategies.

 

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{id=49311751778, createdAt=1624436162419, 1='{type=string, value=Akinetic mutism reversed by inferior parietal lobule repetitive theta burst stimulation}', 2='{type=list, value=[{id=13, name='fMRI', order=0}, {id=17, name='Mental Illness', order=4}, {id=21, name='Infinitome', order=8}, {id=22, name='Quicktome', order=9}]}', 3='{type=string, value=https://www.o8t.com/hubfs/Clinical%20Papers/Akinetic%20mutism%20reversed%20by%20inferior%20parietal%20lobule%20repetitive%20theta%20burst%20stimulation.pdf}', 4='{type=image, value=Image{width=435, height=320, url='https://www.o8t.com/hubfs/ResearchPageImage_25.jpg'}}', 5='{type=string, value= Transcranial magnetic stimulation is a noninvasive treatment used to modulate cortical excitability. Its use over the last two decades has expanded, ranging from psychiatric disorders to traumatic brain injury and poststroke rehabilitation.}', 7='{type=list, value=[{id=8, name='Neuropathology', order=1}]}', 8='{type=number, value=1617667200000}', 9='{type=number, value=0}'}

Akinetic mutism reversed by inferior parietal lobule repetitive theta burst stimulation

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{id=48433492153, createdAt=1622940635132, 1='{type=string, value=Targeting location relates to treatment response in active but not sham rTMS stimulation}', 2='{type=list, value=[{id=13, name='fMRI', order=0}, {id=14, name='DTI', order=1}, {id=17, name='Mental Illness', order=4}, {id=18, name='Connectomics', order=5}, {id=19, name='Machine-learning', order=6}, {id=21, name='Infinitome', order=8}]}', 3='{type=string, value=https://www.o8t.com/hubfs/Clinical%20Papers/Targeting%20Location%20Relates%20to%20Treatment%20Response%20in%20Active%20but%20not%20Sham%20rTMS%20Stimulation.pdf}', 4='{type=image, value=Image{width=435, height=320, url='https://www.o8t.com/hubfs/ResearchPageImage_22.jpg'}}', 5='{type=string, value=Precise targeting of brain functional networks is believed critical for treatment efficacy ofrTMS (repetitive pulse transcranial magnetic stimulation) in treatment resistant major depression.Objective:To use imaging data from a“failed”clinical trial of rTMS in Veterans to test whether treatmentresponse was associated with rTMS coil location in active but not sham stimulation, and compare fMRIfunctional connectivity between those stimulation locations.}', 7='{type=list, value=[{id=8, name='Neuropathology', order=1}]}', 8='{type=number, value=1617235200000}', 9='{type=number, value=0}'}

Targeting location relates to treatment response in active but not sham rTMS stimulation

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{id=48099538354, createdAt=1622360971939, 1='{type=string, value=Application of structural and functional connectome mismatch for classification and individualized therapy for alzheimer disease}', 2='{type=list, value=[{id=13, name='fMRI', order=0}, {id=14, name='DTI', order=1}, {id=17, name='Mental Illness', order=4}, {id=18, name='Connectomics', order=5}, {id=19, name='Machine-learning', order=6}, {id=21, name='Infinitome', order=8}]}', 3='{type=string, value=https://www.o8t.com/hubfs/Clinical%20Papers/Application%20of%20structural%20and%20functional%20connectome%20mismatch%20for%20classification%20and%20individualized%20therapy%20for%20alzheimer%20disease.pdf}', 4='{type=image, value=Image{width=435, height=320, url='https://www.o8t.com/hubfs/ResearchPageImage_17.jpg'}}', 5='{type=string, value=While machine learning approaches to analyzing Alzheimer disease connectome neuroimaging data have been studied, many have limited ability to provide insight in individual patterns of disease and lack the ability to provide actionable information about where in the brain a specific patient’s disease is located. We studied a cohort of patients with Alzheimer disease who underwent resting state functional magnetic resonance imaging and diffusion tractography imaging.}', 7='{type=list, value=[{id=8, name='Neuropathology', order=1}]}', 8='{type=number, value=1606089600000}', 9='{type=number, value=0}'}

Application of structural and functional connectome mismatch for classification and individualized therapy for alzheimer disease

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{id=48099191201, createdAt=1622361118629, 1='{type=string, value=Common Disconnections in Glioma Surgery: An Anatomic Description}', 2='{type=list, value=[{id=15, name='Neurosurgery', order=2}, {id=16, name='Brain Tumor', order=3}]}', 3='{type=string, value=https://www.o8t.com/hubfs/Clinical%20Papers/Common%20disconnections%20in%20glioma%20surgery.pdf}', 4='{type=image, value=Image{width=435, height=320, url='https://www.o8t.com/hubfs/ResearchPageImage_16.jpg'}}', 5='{type=string, value=Within the surgical treatment of glioma, extended survival is predicated upon extent of resection which is limited by proximity and/or invasion of eloquent structures. Diffusion tensor imaging (DTI) tractography is a very useful tool for guiding supramaximal surgical resection while preserving eloquence. }', 7='{type=list, value=[{id=8, name='Neuropathology', order=1}]}', 8='{type=number, value=1508112000000}', 9='{type=number, value=0}'}

Common Disconnections in Glioma Surgery: An Anatomic Description

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