in particular magnetic resonance imaging (MRI), has provided a window into brain structure and function, offering versatile contrasts to assess its multiscale organization1. Multimodal imaging increasingly capitalizes on sequences sensitive to brain microstructure, ...
Magnetic resonance imaging (MRI) is currently performed with scanners operating at field strengths ranging from 0.02 to 4.0 T [1–5]. Multiple manufacturers now supply open design MRI systems that operate predominately at field strengths below 0.5 T. Iss
This was the best experience I have ever had. Having had a previous stage 3 brain injury 8 years ago and asthma, I have developed severe claustrophobia and impulse control. I would have never had an MRI done had it not been for Washington Open MRI. You guys are the BEST. My experience...
Analysis of neuroscientific data. Examples: analysis of MRI/fMRI imaging data, invasive intracranial electrode recordings from a mouse running in a maze or performing a task, calcium-sensitive fluorescent dye imaging data, human EEG data, computer-vision analysis of post-mortem histology stains, stati...
From Cajal's publication in 18881 the cerebellum has been subject to investigations seeking to correlate brain microanatomy with function2. Magnetic resonance imaging (MRI) is the current standard for in vivo studies, while functional MRI (fMRI) and diffusion tensor sub-modalities enable the ...
With our Upright MRI, there is no confining, oppressive tunnel. And far less noise. Our new Upright MRI images any part of the body, including joints, spine and brain, in the weight-bearing(or other position) most reflective of the conditions to be diagnosed. Thus, diagnosis is more accur...
Overall, our embodied brain model could open new avenues for exploring the effects of sensorimotor experiences on cortical learning situated in complex interactions between the body, environment and nervous system. Methods Extracting cortical connectivity. Brain MRI data for 15 preterm infants (males...
iElectrodes is an open-source Matlab toolbox to localize intracranial electrodes from MRI and CT images. Atlas and brain surfaces can be easily loaded for anatomical labeling. The toolbox is capable of working with ECoG (subdural grids and strips) and SEEG (depth) electrodes. Follow Neural mech...
Curated list of open-access databases with human structural MRI data. Feel free to make additions/updates via pull requests! For an overview of benefits and considerations related to using open-access data for brain morphology research, see Madan (2017) Front Hum Neurosci [10.3389/fnhum.2017.00405...
iElectrodes is an open-source Matlab toolbox to localize intracranial electrodes from MRI and CT images. Atlas and brain surfaces can be easily loaded for anatomical labeling. The toolbox is capable of working with ECoG (subdural grids and strips) and SEEG (depth) electrodes. Follow Neural mech...