Full brain tractography with artistic color. This is a full brain tracking coming from a super-resolution reconstruction of 0.6 cubic mm. Front view.
Sagittal, side view. Left - picture of a human brain dissection by a neuroanatomist, Right - reconstructed fibers by tractography
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Full brain tractography with artistic color. This is a full brain tracking coming from a super-resolution reconstruction of 0.6 cubic mm. Front view
3d illustration of a Brain tractography
Brain connections, digital 3d artwork illustration
Brain connections, digital 3d artwork illustration
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Brain connections, digital 3d artwork illustration
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Sagittal, axial, coronal views of a full brain human connections. The images are colored by fiber density
Asperger Syndrom Illustration of Diffusion Spectrum Magnetic Resonance Imaging (DSI) Tractography of Crossing Fibers.
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
The fiber tracts involved in aging. The splenium and genu of the corpus callosum, the fornix and the cingulum bundle. Human subject
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Fibers crossing in the corpus callosum of a rat's brain
3D illustration of a human brain, titled as DTI - Diffusion Tensor Imaging.
Corpus callosum, left-right connections, in a Parkinson's brain
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Asperger Syndrom Illustration of Diffusion Spectrum Magnetic Resonance Imaging (DSI) Tractography of Crossing Fibers. Atypical brain
Brain connections, digital 3d artwork illustration
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Brain connections, digital 3d artwork illustration
Axial view of rat brain connectivity. The corpus callosum is seen, anterior commisures and connections into the gray matter. Images are 300 microns
Full human brain fibers. Side view with fibers coming from the spinal cord and cerebellum. The darker the color, the denser the fibers
3D Illustration of human brain nerve tracts based on magnetic resonance imaging (MRI) data.
Cortical spinal tract, major bundle in the motor system, and thalamus in blue surface, in a Parkinson's brain
3D Illustration of human brain nerve tracts based on magnetic resonance imaging (MRI) data.
Coronal view of rat brain connectivity. Top view. Images reconstructed at 300 microns isotropic
Diffusion MRI, also referred to as diffusion tensor imaging or DTI, of the human brain
Connections between putamen and frontal lobe in a Parkinson's patient brain
Top view of a cortical mesh, colored with diffusion orientation in Red-Green-Blue (Left-Right, Front-Back, Inferior-Superior) and the tumor cavity showing a hole
Side view of the motor tract, the corticospinal tract
The cingulum bundle in a Parkinson's brain
Connections between the substancia nigra and the thalamus in a Parkinson's brain
3D Illustration of human brain nerve tracts based on magnetic resonance imaging (MRI) data.
Motor tracts part of the motor system of a Parkinson's database. Red areas along the tract highlight regions that are significantly different from healthy controls
Coronal view of a human brain in Parkinson's disease. Yellow surface is the caudate and blue/green areas highlight fibers of the motor system
Side view of the corpus callosum fibers. The largest structure connecting left and right hemisphere
Brain tumor case. Anatomical T1 image, motor functional activation sites, segmented tumor in red and tumor fiber tracts around the tumor
Coronal view of a human brain in Parkinson's disease. Blue/green areas highlight fibers of the motor system and the red area is the substancia nigra
Coronal view of a human brain in Parkinson's disease. Blue/green areas highlight fibers of the motor system
Coronal view of a human brain in Parkinson's disease. Yellow surface is the thalamus and blue/green areas highlight fibers of the motor system
Top view of the fronto-occipittal connections, connecting frontal and occipital (vision) lobe
Connections between the substancia nigra and the putamen in a Parkinson's disease
Fiber tracts of the human spinal cord in a small region of interest
The corpus callosum of a rat brain, in axial plane
The cortical spinal tract, the motor tract, left and right, in a human subject
Cortical spinal tract, major bundle in the motor system, in a Parkinson's brain