Spinal cord injury alters the therapeutic potential of olfactory ensheathing cells harvested in an autologous transplantation model – Stem Cell Research & Therapy

Delarue, Q., Brodier, M., Neveu, P., Moncomble, L., Raimond, C., Robac, A., Hugede, A., Blondin, A., Semprez, F., Lecras, P., Riou, G., & Guérout, N.

Involvement of the Endothelial N-Methyl-d-Aspartate Receptor on Vessel-Associated Positioning and Differentiation of Cortical Oligodendrocytes and on Motor Activity – JNeurosci

Beranger, A., Lafenêtre, M., Lacomme, S., Lebon, A., Genty, D., Brosolo, M., Janin, F., Leroy, A., Guérout, N., Vivien, D., Galas, L., Marret, S., Marguet, F., Gontier, E., Gonzalez, B. J., & Lecointre, M. 

Beyond paralysis: Impact of spinal cord injury on brain inflammation and cognitive function through cell therapy – Neural Regeneration Research

Delarue, Q., & Guérout, N.

Brain inflammation and cognitive decline induced by spinal cord injury can be reversed by spinal cord cell transplants – Brain, Behavior, and Immunity

Delarue, Q., Robac, A., Semprez, F., Duclos, C., Pileyre, B., Neveu, P., Raimond, C., Riou, G., Ziane, I., & Guérout, N.

Combined Treatments and Therapies to Cure Spinal Cord Injury – Biomedicines

Guérout, N.

Advances in Spinal Cord Neuromodulation: The Integration of Neuroengineering, Computational Approaches, and Innovative Conceptual Frameworks – Personalized Medicine

Pradat, P. F., Hayon, D., Blancho, S., Neveu, P., Khamaysa, M., & Guérout, N.

The SELENOT mimetic PSELT promotes nerve regeneration by increasing axonal myelination in a facial nerve injury model in female rats – JNR

Pothion, H., Lihrmann, I., Duclos, C., Riou, G., Cartier, D., Boukhzar, L., Lefranc, B., Leprince, J., Guérout, N., Marie, J. P., & Anouar, Y. 

Repetitive Trans Spinal Magnetic Stimulation Improves Functional Recovery and Tissue Repair in Contusive and Penetrating Spinal Cord Injury Models in Rats – Biomedicines

Robac, A., Neveu, P., Hugede, A., Garrido, E., Nicol, L., Delarue, Q., & Guérout, N.

RNA Profiling of Mouse Ependymal Cells after Spinal Cord Injury Identifies the Oncostatin Pathway as a Potential Key Regulator of Spinal Cord Stem Cell Fate – Cells

Chevreau, R., Ghazale, H., Ripoll, C., Chalfouh, C., Delarue, Q., Hemonnot-Girard, A. L., Mamaeva, D., Hirbec, H., Rothhut, B., Wahane, S., Perrin, F. E., Noristani, H. N., Guérout, N., & Hugnot, J. P.

Plasticity of the Injured Spinal Cord – Cells

Guérout, N.

Comparison of the effects of two therapeutic strategies based on olfactory ensheathing cell transplantation and repetitive magnetic stimulation after spinal cord injury in female mice – JNR

Delarue, Q., Robac, A., Massardier, R., Marie, J. P., & Guérout, N.

Spinal cord injury: can we repair spinal cord non-invasively by using magnetic stimulation? – Neural Regeneration Research

Delarue, Q., Chalfouh, C., & Guérout, N. 

Syngeneic Transplantation of Rat Olfactory Stem Cells in a Vein Conduit Improves Facial Movements and Reduces Synkinesis after Facial Nerve Injury – Plastic and Reconstructive Surgery

Bense, F., Montava, M., Duclos, C., Bisson, A., Delarue, Q., Mardion, N. B., Boyer, O., Féron, F., Guérout, N., & Marie, J. P. 

The corepressor CtBP2 is required for proper development of the mouse cerebral cortex – Molecular and Cellular Neuroscience

Karaca, E., Li, X., Lewicki, J., Neofytou, C., Guérout, N., Barnabé-Heider, F., & Hermanson, O.

Inhibition of ADAMTS-4 Expression in Olfactory Ensheathing Cells Enhances Recovery after Transplantation within Spinal Cord Injury – Journal of Neurotrauma

Delarue, Q., Mayeur, A., Chalfouh, C., Honoré, A., Duclos, C., Di Giovanni, M., Li, X., Salaun, M., Dampierre, J., Vaudry, D., Marie, J. P., & Guérout, N.

In vivo pathogenicity of IgG from patients with anti-SRP or anti-HMGCR autoantibodies in immune-mediated necrotising myopathy – Annals of the Rheumatic Diseases

Bergua, C., Chiavelli, H., Allenbach, Y., Arouche-Delaperche, L., Arnoult, C., Bourdenet, G., Jean, L., Zoubairi, R., Guérout, N., Mahler, M., Benveniste, O., Drouot, L., & Boyer, O. 

Dual innervation may occur in a partially denervated muscle – Muscle & Nerve

Obongo, R., Bon-Mardion, N., Duclos, C., Strunski, V., Guérout, N., & Marie, J. P. 

FoxJ1 regulates spinal cord development and is required for the maintenance of spinal cord stem cell potential – Experimental Cell Research

Li, X., Floriddia, E. M., Toskas, K., Chalfouh, C., Honore, A., Aumont, A., Vallières, N., Lacroix, S., Fernandes, K. J. L., Guérout, N., & Barnabé-Heider, F.

Regenerative Potential of Ependymal Cells for Spinal Cord Injuries Over Time – EBioMedicine

Li, X., Floriddia, E. M., Toskas, K., Fernandes, K. J. L., Guérout, N., & Barnabé-Heider, F.

Transplantation of olfactory ensheathing cells to evaluate functional recovery after peripheral nerve injury – Journal of Visualized Experiments

Guérout, N., Paviot, A., Bon-Mardion, N., Honoré, A., Obongo, R., Duclos, C., & Marie, J. P. 

Cell fate control in the developing central nervous system – Experimental Cell Research

Guérout, N., Li, X., & Barnabé-Heider, F. 

Potential of olfactory ensheathing cells from different sources for spinal cord repair – PLOS One

Mayeur, A., Duclos, C., Honoré, A., Gauberti, M., Drouot, L., do Rego, J. C., Bon-Mardion, N., Jean, L., Vérin, E., Emery, E., Lemarchant, S., Vivien, D., Boyer, O., Marie, J. P., & Guérout, N.

Isolation, characterization, and genetic profiling of subpopulations of olfactory ensheathing cells from the olfactory bulb – Glia

Honoré, A., Le Corre, S., Derambure, C., Normand, R., Duclos, C., Boyer, O., Marie, J. P., & Guérout, N.

Co-transplantation of olfactory ensheathing cells from mucosa and bulb origin enhances functional recovery after peripheral nerve lesion – PLOS One

Guérout, N., Paviot, A., Bon-Mardion, N., Duclos, C., Genty, D., Jean, L., Boyer, O., & Marie, J. P. 

Although olfactory ensheathing cells have remarkable potential to sustain nerve regeneration, they cannot be applied to a severe vagus nerve section/resection model – Muscle & Nerve

Paviot, A., Bon-Mardion, N., Duclos, C., Marie, J. P., & Guérout, N. 

Olfactory ensheathing cells in a rat model of laryngeal reinnervation – Annals of Otology, Rhinology & Laryngology

de Corgnol, A. C., Guérout, N., Duclos, C., Vérin, E., & Marie, J. P.

Transplantation of olfactory ensheathing cells promotes axonal regeneration and functional recovery of peripheral nerve lesion in rats – Muscle & Nerve

Guérout, N., Duclos, C., Drouot, L., Abramovici, O., Bon-Mardion, N., Lacoume, Y., Jean, L., Boyer, O., & Marie, J. P. 

Efficiency of laryngeal motor nerve repair is greater with bulbar than with mucosal olfactory ensheathing cells – Neurobiology of Disease

Paviot, A., Guérout, N., Bon-Mardion, N., Duclos, C., Jean, L., Boyer, O., & Marie, J. P. 

Comparative gene expression profiling of olfactory ensheathing cells from olfactory bulb and olfactory mucosa – Glia

Guérout, N., Derambure, C., Drouot, L., Bon-Mardion, N., Duclos, C., Boyer, O., & Marie, J. P.