The translational landscape in spinal cord injury: focus on neuroplasticity and regeneration

doi:10.1038/s41582-019-0280-3

Review

. 2019 Dec;15(12):732-745.

doi: 10.1038/s41582-019-0280-3. Epub 2019 Nov 14.

The translational landscape in spinal cord injury: focus on neuroplasticity and regeneration

Thomas H Hutson¹, Simone Di Giovanni²

Affiliations

¹ Division of Neuroscience, Department of Brain Sciences, Imperial College London, London, UK.
² Division of Neuroscience, Department of Brain Sciences, Imperial College London, London, UK. s.di-giovanni@imperial.ac.uk.

PMID: 31728042
DOI: 10.1038/s41582-019-0280-3

Review

The translational landscape in spinal cord injury: focus on neuroplasticity and regeneration

Thomas H Hutson et al. Nat Rev Neurol. 2019 Dec.

. 2019 Dec;15(12):732-745.

doi: 10.1038/s41582-019-0280-3. Epub 2019 Nov 14.

Authors

Thomas H Hutson¹, Simone Di Giovanni²

Affiliations

¹ Division of Neuroscience, Department of Brain Sciences, Imperial College London, London, UK.
² Division of Neuroscience, Department of Brain Sciences, Imperial College London, London, UK. s.di-giovanni@imperial.ac.uk.

PMID: 31728042
DOI: 10.1038/s41582-019-0280-3

Abstract

Over the past decade, we have witnessed a flourishing of novel strategies to enhance neuroplasticity and promote axon regeneration following spinal cord injury, and results from preclinical studies suggest that some of these strategies have the potential for clinical translation. Spinal cord injury leads to the disruption of neural circuitry and connectivity, resulting in permanent neurological disability. Recovery of function relies on augmenting neuroplasticity to potentiate sprouting and regeneration of spared and injured axons, to increase the strength of residual connections and to promote the formation of new connections and circuits. Neuroplasticity can be fostered by exploiting four main biological properties: neuronal intrinsic signalling, the neuronal extrinsic environment, the capacity to reconnect the severed spinal cord via neural stem cell grafts, and modulation of neuronal activity. In this Review, we discuss experimental evidence from rodents, nonhuman primates and patients regarding interventions that target each of these four properties. We then highlight the strengths and challenges of individual and combinatorial approaches with respect to clinical translation. We conclude by considering future developments and providing views on how to bridge the gap between preclinical studies and clinical translation.

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References

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[1] Orr, M. B. & Gensel, J. C. Spinal cord injury scarring and inflammation: therapies targeting glial and inflammatory responses. Neurotherapeutics 15, 541–553 (2018). - PubMed - PMC - DOI

[2] Orr, M. B. & Gensel, J. C. Spinal cord injury scarring and inflammation: therapies targeting glial and inflammatory responses. Neurotherapeutics 15, 541–553 (2018). - PubMed - PMC - DOI

[3] Ahuja, C. S., Martin, A. R. & Fehlings, M. Recent advances in managing a spinal cord injury secondary to trauma. F1000Res. 5, 1017 (2016). - DOI

[4] Ahuja, C. S., Martin, A. R. & Fehlings, M. Recent advances in managing a spinal cord injury secondary to trauma. F1000Res. 5, 1017 (2016). - DOI

[5] Krucoff, M. O., Rahimpour, S., Slutzky, M. W., Edgerton, V. R. & Turner, D. A. Enhancing nervous system recovery through neurobiologics, neural interface training, and neurorehabilitation. Front. Neurosci. 10, 584 (2016). - PubMed - PMC - DOI

[6] Krucoff, M. O., Rahimpour, S., Slutzky, M. W., Edgerton, V. R. & Turner, D. A. Enhancing nervous system recovery through neurobiologics, neural interface training, and neurorehabilitation. Front. Neurosci. 10, 584 (2016). - PubMed - PMC - DOI

[7] Taccola, G., Sayenko, D., Gad, P., Gerasimenko, Y. & Edgerton, V. R. And yet it moves: recovery of volitional control after spinal cord injury. Prog. Neurobiol. 160, 64–81 (2018). - PubMed - PMC - DOI

[8] Taccola, G., Sayenko, D., Gad, P., Gerasimenko, Y. & Edgerton, V. R. And yet it moves: recovery of volitional control after spinal cord injury. Prog. Neurobiol. 160, 64–81 (2018). - PubMed - PMC - DOI

[9] Sofroniew, M. V. Dissecting spinal cord regeneration. Nature 557, 343–350 (2018). - PubMed

[10] Sofroniew, M. V. Dissecting spinal cord regeneration. Nature 557, 343–350 (2018). - PubMed

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The translational landscape in spinal cord injury: focus on neuroplasticity and regeneration

Affiliations

The translational landscape in spinal cord injury: focus on neuroplasticity and regeneration

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