Jens Schouenborg
Titel
professor
Organisation
046-2227752
Jens [dot] Schouenborg [at] med [dot] lu [dot] se
Publikationer (hämtat ur Lunds universitets publikationsdatabas)
författare
- 2013
- 2012
- Computationally efficient simulation of extracellular recordings with multielectrode arrays
- Minimizing data transfer with sustained performance in wireless brain–machine interfaces
- Multiple implants do not aggravate the tissue reaction in rat brain.
- Spike-Feature Based Estimation of Electrode Position in Extracellular Neural Recordings
- 2011
- A Novel Framework for Storage, Analysis and Integration through Mediation of Large-scale Electrophysiological Data
- A polymer based electrode array for recordings in the cerebellum
- Altered nociceptive C fibre input to primary somatosensory cortex in an animal model of hyperalgesia.
- Authenticity, depression, and deep brain stimulation
- Beyond Blind Optimism and Unfounded Fears: Deep Brain Stimulation for Treatment Resistant Depression
- Biocompatible multichannel electrodes for long-term neurophysiological studies and clinical therapy-Novel concepts and design
- Cortical resonance around 80 Hz is linked to dyskinesia after levodopa treatment in a rodent model of Parkinson’s disease
- Cortical single units recorded by a novel nanowire based electrode
- Implant size and fixation mode strongly influence tissue reactions in the CNS.
- Mechanisms underlying cortical resonance in levodopa-induced dyskinesia
- Nanowire based electrodes for in vivo neuronal signal recordings
- Preface
- 2010
- Electrodes based on nanowires for neuronal signal recording
- Gelatin/glycerol coating to preserve mechanically compliant nanowire electrodes from damage during brain implantation
- Gelatine / glycerol coating to preserve mechanically compliant nanowire electrodes from damage during brain implantation
- Gelatine-embedded electrodes-a novel biocompatible vehicle allowing implantation of highly flexible microelectrodes.
- Nanowire based electrodes for neuronal signal recording
- Nanowire based electrodes for neuronal signal recording
- Statistical modelling of spike libraries for simulation of extracellular recordings in the cerebellum
- 2009
- Flexible multi electrode brain-machine interface for recording in the cerebellum.
- Nanowire Biocompatibility in the Brain - Looking for a Needle in a 3D Stack.
- Porous silicon as a potential electrode material in a nerve repair setting: Tissue reactions.
- Spike library based simulator for extracellular single unit neuronal signals
- Spontaneous movements: Effect of denervation and relation to the adaptation of nociceptive withdrawal reflexes in the rat.
- 2008
- Action-based body maps in the spinal cord emerge from a transitory floating organization.
- Action-based sensory encoding in spinal sensorimotor circuits
- Brain tissue response to nanowires implanted into the rat striatum
- Implementation of a telemetry system for neurophysiological signals.
- Interactions between gallium phosphide nanowires and neurons: towards implantable nanoelectrodes
- Soft tissue reactions evoked by implanted gallium phosphide.
- Spatial encoding in spinal sensorimotor circuits differs in different wild type mice strains
- 2005
- 2004
- 2003
- Developmental learning in a pain-related system: Evidence for a cross-modality mechanism
- Developmental learning in a pain-related system: evidence for a cross-modality mechanism.
- Heat nociception is severely reduced in a mutant mouse deficient for the L1 adhesion molecule.
- Long term depression of human nociceptive skin senses induced by thin fibre stimulation.
- Somatosensory imprinting in spinal reflex modules.
- Spinal NMDA-receptor dependent amplification of nociceptive transmission to rat primary somatosensory cortex (SI).
- Spontaneous muscle twitches during sleep guide spinal self-organization.
- 2002
- Common principles of sensory encoding in spinal reflex modules and cerebellar climbing fibres.
- Modular organisation and spinal somatosensory imprinting
- Spinal Sensorimotor Transformation: Relation between Cutaneous Somatotopy and a Reflex Network.
- Spinal sensorimotor transformation: Relation between cutaneous somatotopy and a reflex network
- What, indeed, do climbing fibers signal? Some cerebellar microcomplexes appear to monitor the activity in spinal nociceptive withdrawal reflex modules
- 2001
- 1999
- 1992
- 1991
