Emilie Chan-Seng scite author profile

We report a higher rate of precision with robotic as compared to the FH technique. Providing assistance by permanently monitoring the patient's movements, this image-guided tool helps more accurately pinpoint the pedicle entry point and control the trajectory. Limitations of the study include its small sized and non-randomized sample. Nevertheless, these preliminary results are encouraging for the development of new robotic techniques for spinal surgery.

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Spinal cord injury induces astroglial conversion towards neuronal lineage

Noristani

Sabourin

Boukhaddaoui

et al. 2016

Mol Neurodegeneration

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BackgroundNeurons have intrinsic capability to regenerate after lesion, though not spontaneously. Spinal cord injury (SCI) causes permanent neurological impairments partly due to formation of a glial scar that is composed of astrocytes and microglia. Astrocytes play both beneficial and detrimental roles on axonal re-growth, however, their precise role after SCI is currently under debate.MethodsWe analyzed molecular changes in astrocytes at multiple stages after two SCI severities using cell-specific transcriptomic analyses.ResultsWe demonstrate that astrocyte response after injury depends on both time after injury and lesion severity. We then establish that injury induces an autologous astroglial transdifferentiation where over 10 % of astrocytes express classical neuronal progenitor markers including βIII-tubulin and doublecortin with typical immature neuronal morphology. Lineage tracing confirmed that the origin of these astrocytes is resident mature, rather than newly formed astrocytes. Astrocyte-derived neuronal progenitors subsequently express GABAergic, but not glutamatergic-specific markers. Furthermore, we have identified the neural stem cell marker fibroblast growth factor receptor 4 (Fgfr4) as a potential autologous modulator of astrocytic transdifferentiation following SCI. Finally, we establish that astroglial transdifferentiation into neuronal progenitors starts as early as 72 h and continues to a lower degrees up to 6 weeks post-lesion.ConclusionWe thus demonstrate for the first time autologous injury-induced astroglial conversion towards neuronal lineage that may represent a therapeutic strategy to replace neuronal loss and improve functional outcomes after central nervous system injury.Electronic supplementary materialThe online version of this article (doi:10.1186/s13024-016-0133-0) contains supplementary material, which is available to authorized users.

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Cervical spine injuries from diving accident: A 10-year retrospective descriptive study on 64 patients

Chan-Seng

Perrin

Segnarbieux

et al. 2013

Orthopaedics & Traumatology: Surgery & Research

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Emilie Chan-Seng

Robot-assisted spine surgery: feasibility study through a prospective case-matched analysis

Spinal cord injury induces astroglial conversion towards neuronal lineage

Cervical spine injuries from diving accident: A 10-year retrospective descriptive study on 64 patients

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