Neuroanatomic analysis depends on the reconstruction of complete cell shapes. High-throughput reconstruction of neural circuits, or connectomics, using volume electron microscopy requires dense staining of all cells, which leads even experts to make annotation errors. Currently, reconstruction speed rather than acquisition speed limits the determination of neural wiring diagrams. We developed a method for fast and reliable reconstruction of densely labeled data sets. Our approach, based on manually skeletonizing each neurite redundantly (multiple times) with a visualization-annotation software tool called KNOSSOS, is ˜50-fold faster than volume labeling. Errors are detected and eliminated by a redundant-skeleton consensus procedure (RESCOP)...
Recent successes in deep learning have started to impact neuroscience. Of particular significance ar...
Neuronal circuit mapping using electron microscopy demands laborious proofreading or reconciliation ...
The nervous system is characterized by extremely complex cell-to-cell interactions which primarily o...
Neuroanatomic analysis depends on the reconstruction of complete cell shapes. High-throughput recons...
Neuroanatomic analysis depends on the reconstruction of complete cell shapes. High−throughput recons...
SummaryProgress in electron microscopy-based high-resolution connectomics is limited by data analysi...
Mapping neuroanatomy, in the pursuit of linking hypothesized computational models consistent with ob...
The connectivity architecture of neuronal circuits is essential to understand how brains work, yet o...
Neuronal circuit mapping using electron microscopy demands laborious proofreading or reconciliation ...
Electron microscopy is the only currently available technique with a resolution adequate to identify...
Neuronal networks are high-dimensional graphs that are packed into three-dimensional nervous tissue ...
The last decade has seen a rapid increase in the number of tools to acquire volume electron microsco...
Reconstruction of neural circuits from volume electron microscopy data requires the tracing of cells...
The goal of fully decoding how the brain works requires a detailed wiring diagram of the brain netwo...
Journal ArticleComplete mapping of neuronal networks requires data acquisition at synaptic resoluti...
Recent successes in deep learning have started to impact neuroscience. Of particular significance ar...
Neuronal circuit mapping using electron microscopy demands laborious proofreading or reconciliation ...
The nervous system is characterized by extremely complex cell-to-cell interactions which primarily o...
Neuroanatomic analysis depends on the reconstruction of complete cell shapes. High-throughput recons...
Neuroanatomic analysis depends on the reconstruction of complete cell shapes. High−throughput recons...
SummaryProgress in electron microscopy-based high-resolution connectomics is limited by data analysi...
Mapping neuroanatomy, in the pursuit of linking hypothesized computational models consistent with ob...
The connectivity architecture of neuronal circuits is essential to understand how brains work, yet o...
Neuronal circuit mapping using electron microscopy demands laborious proofreading or reconciliation ...
Electron microscopy is the only currently available technique with a resolution adequate to identify...
Neuronal networks are high-dimensional graphs that are packed into three-dimensional nervous tissue ...
The last decade has seen a rapid increase in the number of tools to acquire volume electron microsco...
Reconstruction of neural circuits from volume electron microscopy data requires the tracing of cells...
The goal of fully decoding how the brain works requires a detailed wiring diagram of the brain netwo...
Journal ArticleComplete mapping of neuronal networks requires data acquisition at synaptic resoluti...
Recent successes in deep learning have started to impact neuroscience. Of particular significance ar...
Neuronal circuit mapping using electron microscopy demands laborious proofreading or reconciliation ...
The nervous system is characterized by extremely complex cell-to-cell interactions which primarily o...