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Recent Posts
- An integrated in silico pipeline identifies a novel TF combination that promotes enhanced CST growth following injury
- Spike timing-dependent plasticity in the adult rat with chronic cervical spinal cord contusion
- Effect of PTEN antagonist peptide on the functional motor recovery in rat
- GDF10 promotes axonal regeneration and functional recovery: A novel gene therapy strategy for spinal cord injury
- GTX Medical and NeuroRecovery Technologies to merge
- Candidate Therapy From Quebec for Chronic SCI Being Developed in Parallel by Academics and Companies in Switzerland and the Netherlands
- Moving beyond the glial scar for spinal cord repair
- The Struggle to Make CNS Axons Regenerate: Why Has It Been so Difficult?
- The potential of electric field for promoting neurite guidance in spinal cord injury regeneration strategies
- Extraction and selective activation of muscle synergies through spinal stimulation for SCI
- Early limb unloading elicits long-term motor deficits involving motorneuron hyperexcitability associated with persistent alterations in glutamatergic synaptic plasticity in spinal cord injury
- The effects of a pro-angiogenic, RGD-functionalized, nanofiber composite biomaterial on mesenchymal stem cell-mediated repair of the injured spinal cord
- From wheelchair to walking after spinal cord injury
- ReNetX Bio, Inc. Announces U.S. FDA Authorization to Proceed for IND Application to Treat Patients with Chronic Spinal Cord Injury
- Regeneration of Spinal Cord Connectivity Through Stem Cell Transplantation and Biomaterial Scaffolds
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Revolutionary Robotic Treatment (HAL)For Patients With Spinal Cord Injuries Now Available In United States
New advanced technology available at Brooks Rehabilitation, in partnership with Japan-based Cyberdyne, Inc. Brooks Rehabilitation, an industry leader in post-acute physical rehabilitation, announced today its partnership with Japanese medical and social innovation company, CYBERDYNE, INC., to introduce and make available … Continue reading
IPS cell therapy and Cyberdyne robotic suit will be teaming up in SCI rehabilitation
Nikkei Asian Review – Keio University is joining hands with Cyberdyne to develop treatments for spinal cord injuries that combine induced pluripotent stem cell therapy with the startup’s wearable cybersuit. The project will proceed in two stages starting this year, … Continue reading
