Evidence from preclinical and clinical research suggest that neuromodulation technologies can facilitate the sublesional spinal networks, isolated from supraspinal commands after spinal cord injury (SCI), by reestablishing the levels of excitability and enabling descending motor signals via residual connections. Herein, we evaluate available evidence that sublesional and supralesional spinal circuits could form a translesional spinal network after SCI. We further discuss evidence of translesional network reorganization after SCI in the presence of sensory inputs during motor training. In this review, we evaluate potential mechanisms that underlie translesional circuitry reorganization during neuromodulation and rehabilitation in order to enable motor functions after SCI. We discuss the potential of neuromodulation technologies to engage various components that comprise the translesional network, their functional recovery after SCI, and the implications of the concept of translesional network in development of future neuromodulation, rehabilitation, and neuroprosthetics technologies.

Department of Neurologic Surgery Mayo Clinic Rochester MN USA

Department of Neurology Mayo Clinic Rochester MN USA

Department of Neurosurgery University Hospital Hradec Kralove Charles University Faculty of Medicine in Hradec Kralove Czech Republic

Department of Physical Medicine and Rehabilitation Mayo Clinic Rochester MN USA

Department of Physiology and Biomedical Engineering Mayo Clinic Rochester MN USA

Institute of Experimental Medicine Czech Academy of Sciences Prague Czech Republic

Kazan Federal University Kazan Russia

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