The Experts below are selected from a list of 3 Experts worldwide ranked by ideXlab platform
Henrik Jörntell - One of the best experts on this subject based on the ideXlab platform.
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The information provided by the Spinocerebellar and spinoreticulocerebellar mossy fibers derives from the spinal interneuron circuitry.
2013Co-Authors: Anton Spanne, Henrik JörntellAbstract:The vermis and pars intermedia of the cerebellum receives a substantial part of their mossy fiber inputs from the SCT/SRCT pathways [19]. The SCT/SRCT pathways consist of spinal interneuron projections either directly as mossy fibers (Rostral Spinocerebellar Tract, RSCT), via a relay in the lateral reticular nucleus of the brainstem (spino-reticulo cerebellar path, SRCT), or via relay cells located in the spinal cord (ventral and dorsal Spinocerebellar Tracts, VSCT and DSCT) [19]. These spinal interneurons can project directly to alpha-motorneurons and likely form an integral part of the spinal motor circuitry, by conveying sensory feedback and motor commands to the motor nuclei of the spinal cord [99].
Anton Spanne - One of the best experts on this subject based on the ideXlab platform.
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The information provided by the Spinocerebellar and spinoreticulocerebellar mossy fibers derives from the spinal interneuron circuitry.
2013Co-Authors: Anton Spanne, Henrik JörntellAbstract:The vermis and pars intermedia of the cerebellum receives a substantial part of their mossy fiber inputs from the SCT/SRCT pathways [19]. The SCT/SRCT pathways consist of spinal interneuron projections either directly as mossy fibers (Rostral Spinocerebellar Tract, RSCT), via a relay in the lateral reticular nucleus of the brainstem (spino-reticulo cerebellar path, SRCT), or via relay cells located in the spinal cord (ventral and dorsal Spinocerebellar Tracts, VSCT and DSCT) [19]. These spinal interneurons can project directly to alpha-motorneurons and likely form an integral part of the spinal motor circuitry, by conveying sensory feedback and motor commands to the motor nuclei of the spinal cord [99].