Publications

Hot news

PUBLICATIONS INTERNATIONALES:

Publications depuis 2005; h index = 27 (Source: ISI web of knowledge).

66- Lee K.Z., Chen R.Y., Vinit S., Liou L.M. (2025) Modulatory effect of respiration triggered trans-spinal magnetic stimulation on diaphragmatic motor-evoked potential following cervical spinal cord contusion in rats. In revision.

65- Adzić Bukvić M., Mansart A., Lee K.Z., Bonay M., Dragić M., Vinit S. (2025) Neuroinflammatory and neurorespiratory modulations by repetitive magnetic stimulation in high level spinal cord injury. Submitted.

64- Chen W., Adam L., Michel-Flutot P., Mansart A., Vinit S., Vivodtzev I. (2025) Unveiling Distinct Neuroimmune Responses in Mouse Models of Cervical Spinal Cord Injury: Hemisection versus Hemicontusion. bioRxiv; doi: https://doi.org/10.1101/2025.08.02.668124.

63- Michel-Flutot P., Vinit S., Mansart A. (2025) Physiopathology of intensive care unit-acquired weakness during sepsis. Médecine/Sciences (Paris), 41(3):253-259.

62- Michel-Flutot P., Mansart A., Vinit S. (2025) Glycolytic metabolism modulation on spinal neuroinflammation and respiratory function following cervical spinal cord injury. Respir Physiol Neurobiol, 332:104383. doi: 10.1016/j.resp.2024.104383.

61- Michel-Flutot P., Mansart A., Vinit S. (2024) Glycolytic metabolism modulation on spinal neuroinflammation and respiratory function following cervical spinal cord injury. bioRxiv 2024.05.14.594105; doi: https://doi.org/10.1101/2024.05.14.594105.

60- Ren M.Y., Liou L.M., Vinit S., Lee K.Z. (2024) Co-activation of the diaphragm, biceps, and thoracic muscles in response to trans-spinal magnetic stimulation in healthy human subjects. Physiological Reports, 12(3):e15941.

59- Lee K.Z., Vinit S. (2024) Modulatory effect of trans-spinal magnetic intermittent theta burst stimulation on diaphragmatic activity following cervical spinal cord contusion in the rat. Spine J, 24(2):352-372.

58- Bourcier C.H., Michel-Flutot P., Emam L., Adam L., Gasser A., Annane D., Vinit S.*, Mansart A.* (2023) ß1-adrenergic blockers preserve motor function by inhibiting the production of extracellular traps during sepsis. Frontiers in Immunology, 14. https://doi.org/10.3389/fimmu.2023.1228374.

57- Perim R.R., Vinit S., Mitchell G.S. (2023) Cervical spinal hemisection effects on spinal tissue oxygenation and long-term facilitation of phrenic, renal and splanchnic sympathetic nerve activity. Experimental Neurology, doi: 10.1016/j.expneurol.2023.114478.

56- Michel-Flutot P., Lane M.A., Lepore A.C., Vinit S. (2023) Respiratory recovery aimed- therapeutical strategies after spinal cord injury: from preclinical models to human. Cells, 12(11) :1519.

55- Michel-Flutot P., Jesus I., Mansart A., Bonay M., Lee K.Z., Aure K., Vinit S. (2022) Evaluation of gastrocnemius motor evoked potentials induced by trans-spinal magnetic stimulation following tibial nerve crush in rats. Biology, 16;11(12):1834.

54- Michel-Flutot P., Bourcier C.H., Emam L., Gasser A., Glatigny S., Vinit S.*, Mansart A.* (2023) Extracellular traps formation following cervical spinal cord injury. European Journal of Neurosciences, doi:10.1111/ejn.15902.

53– Ren M.Y., Liou L.M., Vinit S., Lee K.Z. (2022) Position effect of trans-spinal magnetic stimulation on diaphragmatic motor evoked potential in healthy humans. Journal of Applied Physiology, doi: 10.1152/japplphysiol.00346.2022.

52– Michel-Flutot P., Vinit S. (2022) Spinal cord injury and repetitive magnetic stimulation. Médecine/Sciences (Paris), 38(8-9): 679-685.

51- Michel-Flutot P., Efthimiadi L., Djerbal L., Deramaudt T.B., Bonay M.*, Vinit S.* (2022) AMPK-Nrf2 signaling pathway in phrenic motoneurons following cervical spinal cord injury. Antioxidants, 11(9) 1665.

50- Michel-Flutot P., Mansart A., Fayssoil A., Vinit S. (2023) Effect of C2 spinal cord injury on respiratory and cardiovascular functions in rat. Neural Regeneration Research, 18(2):428-433.

49- Bajjig A., Michel-Flutot P., Migevent T., Cayetanot F., Bodineau L., Vinit S.*, Vivodtzev I.* (2022) Diaphragmatic activity and respiratory function following C3 or C6 unilateral spinal cord contusion in mice. Biology, 11(4):558.

48- Michel-Flutot P., Jesus I., Vanhee V., Bourcier C.H., Emam L., Ouguerroudj A., Lee K.Z., Zholudeva L.V., Lane M.A., Mansart A., Bonay M., Vinit S. (2022) Effects of chronic high frequency rTMS protocol on respiratory neuroplasticity following C2 spinal cord hemisection in rat. Biology, 11(3) :473.

47- Lee K.Z., Liou L.M., Vinit S., Ren M.Y. (2022) Rostral-caudal effect of cervical magnetic stimulation on the diaphragm motor evoked potential following cervical spinal cord contusion in the rat. J Neurotrauma. doi: 10.1089/neu.2021.0403.

46- Randelman M., Zholudeva L.V., Vinit S., Lane M.A. (2021) Respiratory training and plasticity after cervical spinal cord injury. Frontiers in Cellular Neurosciences. doi: 10.3389/fncel.2021.700821.

45- Michel-Flutot P., Zholudeva L.V., Randelman M.L., Deramaudt T.B., Mansart A., Alvarez J.C., Lee K.Z., Petitjean M., Bonay M., Lane M.A., Vinit S. (2021) High frequency rTMS promotes long lasting phrenic motoneuron excitability via GABAergic networks. Respiratory Physiology and Neurobiology, 292:103704.

44- Lee K.Z., Liou L.M., Vinit S. (2021) Diaphragm motor evoked potential induced by cervical magnetic stimulation following cervical spinal cord contusion in the rat. J Neurotrauma, 10.1089/neu.2021.0080.

43- Lin M.T., Vinit S., Lee K.Z. (2021) Functional role of carbon dioxide on intermittent hypoxia induced respiratory response following mid-cervical contusion in the rat. Experimental Neurology, 339:113610.

42- Jesus I., Michel-Flutot P., Deramaudt T.B., Paucard A., Vanhee V., Vinit S., Bonay M. (2021) Effects of low intensity exercise on muscle plasticity in a mouse model of incomplete cervical spinal cord injury. Scientific Reports, 11(1):112.

41- Fayssoil A., Michel-Flutot P., Lofaso F., Carlier R., El Hajjam M., Vinit S., Mansart A. (2021) Analyze of inspiratory and expiratory muscles using ultrasound in rats: an innovative, repetitive and non-invasive tool to study respiratory function. Respiratory Physiology and Neurobiology, 285:103596.

40- Michel-Flutot P., Mansart A., Deramaudt T.B., Lee K.Z., Bonay M., Vinit S. (2021) Permanent diaphragmatic deficits in a mouse model of partial incomplete cervical spinal cord injury. Respiratory Physiology and Neurobiology, 284:103568.

39- Ali M., Bonay M., Vinit S., Deramaudt T.B. (2020) Effects of 5 natural and synthetic activators of Nrf2 on inflammation, oxidative stress, M1/M2 polarization, and bactericidal activity in an in vitro model of bacteria infected macrophages. PLoS One, 15(6):e0234484.

38- Deramaudt T.B., Ali M., Vinit S., Bonay M. (2019) Sulforaphane impedes Staphylococcus aureus survival in THP1-derived macrophages through Nrf2 signaling and ERK-dependent apoptosis. International Journal of Molecular Medicine, 45(6) :1927-1941.

37- Wu M., Vinit S., Chen C., Lee K.Z. (2019) 5-HT7 receptor inhibition enhances respiratory recovery following daily acute intermittent hypoxia in rats with chronic mid-cervical spinal cord contusion. Neurorehabilitation and Neural Repair, 34(4):333-343.

36- Wen M., Wu M., Vinit S., Lee K.Z. (2019) Modulation of serotonin and adenosine 2A receptors on intermittent hypoxia-induced respiratory recovery following mid-cervical contusion in the rat. Journal of Neurotrauma, doi: 10.1089/neu.2018.6371.

35- Fayssoil A., Behin A., Ogna A., Mompoint D., Amthor H., Clair B., Laforet P., Mansart A., Prigent H., Orlikowski D., Stojkovic T., Vinit S., Carlier R., Eymard B., Lofaso F., Annane D. (2018) Diaphragm: Pathophysiology and Ultrasound Imaging in Neuromuscular Disorders. Journal of neuromuscular disorders, 5(1):1-10.

34- MacFarlane P.M., Vinit S., Mitchell G.S. (2018) Enhancement of phrenic long-term facilitation following repetitive acute intermittent hypoxia is blocked by inhibition of glycolytic flux with 2-deoxyglucose. Am J Physiol Regul Integr Comp Physiol, 314(1):R135-R144.

33- Darlot F., Vinit S., Matarazzo V., Kastner A. (2017) Sustained cell body reactivity and loss of NeuN in a subset of axotomized bulbospinal neurons after a chronic high cervical spinal cord injury. European Journal of Neurosciences, 46(11):2729-2745.

32- Dougherty B.J., Terada J., Springborn S.R., Vinit S., MacFarlane P.M., Mitchell G.S. (2017) Daily acute intermittent hypoxia improves breathing function with acute and chronic spinal injury via distinct mechanisms. Respiratory Physiology and Neurobiology, S1569-9048(16)30309-3.

31- Hormigo K.M., Zholudeva L.V., Spruance V.M., Marchenko V., Côté M.P., Vinit S., Giszter S.F., Bezdudnaya T., Lane M.A. (2017) Enhancing neural activity to drive respiratory plasticity following cervical spinal cord injury. Experimental Neurology, 287(2): 276-287.

30- Vinit S., Petitjean M. (2016) Novel role for transcranial magnetic stimulation to study post-traumatic respiratory neuroplasticity. Neural Regeneration Research, 11(7):1073-1074.

29- Vinit S., Keomani E., Deramaudt T.B., Bonay M., Petitjean M. (2016) Reorganization of respiratory descending pathways following cervical spinal partial section investigated by transcranial magnetic stimulation in the rat. PLoS One, 11(2): e0148180. doi:10.1371/journal.pone.0148180.

28- Navarrete-Opazo A., Vinit S., Dougherty B.J., Mitchell G.S. (2015) Daily acute intermittent hypoxia elicits functional recovery of diaphragm and inspiratory intercostal muscle activity after acute cervical spinal injury. Experimental Neurology, 266:1-10.

27- Nichols N.L., Vinit S., Bauernschmidt L., Allen L.L., Morgan N., Mitchell G.S. (2014) Respiratory function in a novel model of motor neuron disease: intrapleural CTB-saporin selectively kills respiratory motor neurons. Experimental Neurology, 267:18-29.

26- Bonay M., Vinit S. (2014) New perspectives for investigating respiratory failure induced by cervical spinal cord injury. Neural Regeneration Research, 9(22): 1949-1951.

25- Vinit S., Keomani E., Deramaudt T., Spruance V., Bezdudnaya T., Lane M.A., Bonay M., Petitjean M. (2014) Interdisciplinary approaches of transcranial magnetic stimulation applied to a respiratory neuronal circuitry model, PLoS One, 9(11):e113251, doi: 10.1371/0113251.

24- Navarrete Opazo A., Vinit S., Mitchell G.S. (2014) Adenosine 2A receptor inhibition enhances intermittent hypoxia-induced diaphragm but not intercostal long-term facilitation, Journal of Neurotrauma, 31(24):1975-84.

23- Keomani E., Deramaudt T., Petitjean M., Bonay M., Lofaso F., Vinit S. (2014) A murine model of cervical spinal cord injury to study post-lesional respiratory neuroplasticity. Journal of Visualized Experiment (87), e51235, doi: 10.3791/51235.

22-Huxtable A.G., MacFarlane P.M., Vinit S., Nichols N.L., Dale E.A., Mitchell G. S. (2014) Adrenergic α1 receptor activation is sufficient, but not necessary for phrenic long-term facilitation. Journal of applied physiology, 116(11): 1345-52.

21-MacFarlane P.M., Vinit S., Mitchell G.S. (2014) Spinal nNOS regulates phrenic motor facilitation by a 5-HT2B receptor- and NADPH oxidase-dependent mechanism. Neuroscience, 269: 67-78.

20- Smith S.M.C., Mitchell G.S., Friedle S.A., Sibigtroth C.M., Vinit S., Watters J.J. (2013) Hypoxia Attenuates Purinergic P2X Receptor-Induced Inflammatory Gene Expression in Brainstem Microglia. Hypoxia (Auckl.), 1(1):1-11.

19- Huxtable A.G., Smith S.M., Vinit S., Watters J.J., Mitchell G. S. (2013) Systemic LPS induces spinal inflammatory gene expression and impairs phrenic long-term facilitation following acute intermittent hypoxia. Journal of Applied Physiology, 114(7): 879-887.

18- Lovett-Barr M.R., Satriotomo I., Muir G., Wilkerson J.E.R., Hoffman M.S., Vinit S., Mitchell G.S. (2012) Repetitive intermittent hypoxia induces respiratory and somatic motor recovery following chronic cervical spinal injury. Journal of Neuroscience, 32(11): 3591-3600.

17- Vinit S. (2012) Cervical spinal cord injuries and respiratory insufficiency: A revolutionary treatment? Médecine Science (Paris), 28(1): 33-36.

16- Huxtable A.G., Vinit S., Windelborn J.A., Crader S., Guenther C.G., Watters J.J., Mitchell G.S. (2011) Systemic inflammation impairs respiratory chemoreflexes and plasticity. Respiratory Physiology and Neurobiology, 178(3):482-489.

15- Golder F.J., Fuller D.D., Lovett-Barr M.R., Vinit S., Resnick D.K., Mitchell G.S. (2011) Breathing patterns after mid-cervical spinal contusion in rats. Experimental Neurology, 231(1):97-103.

14- Vinit S., Windelborn J.A., Mitchell G.S. (2011) Lipopolysaccharide reduces phrenic long-term facilitation following acute intermittent hypoxia in rats. Respiratory Physiology and Neurobiology, 176:130-135.

13- MacFarlane P.M., Vinit S., Mitchell G.S. (2011). Serotonin 2A and 2B receptor induced phrenic motor facilitation: differential requirement for NADPH oxidase activity. Neuroscience, 178:45-55.

12- Vinit S., Darlot F., Aoulaiche H., Boulenguez P., Kastner A. (2011) Distinct expression of c-Jun and HSP27 in axotomized and spared bulbospinal neurons after cervical spinal cord injury. Journal of Molecular Neuroscience, 45:119-133.

11- Guenther C.H., Vinit S., Windelborn J.A., Behan M., Mitchell G.S. (2010) Atypical PKC expression in phrenic motor neurons of the rat. Neuroscience, 169(2):787-793.

10- Dale-Nagle E., Hoffman M., MacFarlane P.M., Satriotomo I., Lovett-Barr M.R., Vinit S., Mitchell G.S. (2010). Spinal plasticity following intermittent hypoxia: Implications for spinal injury. Annals of the New York Academy of Sciences, 1198:252-9.

9- Vinit S., Lovett-Barr M.R., Mitchell G.S. (2009). Intermittent hypoxia induces functional recovery following cervical spinal injury. Respiratory Physiology and Neurobiology, Invited review, 169(2):210-7.

8- Vinit S., Kastner A. (2009) Descending bulbospinal pathways and recovery of respiratory motor function following SCI. Respiratory Physiology and Neurobiology, Invited review, 169(2):115-22.

7- Vinit S., Darlot F., Stamegna J.C., Gauthier P., Kastner A. (2009). Effect of cervical spinal cord hemisection on the expression of axon growth markers. Neurosciences Letters, 462(3):276-280.

6- Vinit S., Darlot F., Stamegna J.C., Sanchez P., Gauthier P., Kastner A. (2008) Long-term reorganization of respiratory pathways after partial cervical spinal cord injury. European Journal of Neuroscience, 27(4) :897-908.

5- Vinit S., Stamegna J.C., Boulenguez P., Gauthier P., Kastner A. (2007). Restorative respiratory pathways after partial cervical spinal cord injury: role of ipsilateral phrenic afferents. European Journal of Neuroscience, 25(12):3551-60.

4- Boulenguez P., Gestreau C., Vinit S., Stamegna J.C., Kastner A., Gauthier P. (2007). Specific and artifactual labeling in the spinal cord and medulla after injection of different monosynaptic retrograde tracers into the diaphragm. Neuroscience Letters, 417(2):206-11.

3- Vinit S., Gauthier P., Stamegna J.C., Kastner A. (2006). High cervical lateral spinal cord injury results in long-term ipsilateral hemidiaphragm paralysis. Journal of Neurotrauma, 23(7): 1137-1146.

2- Gauthier P., Baussart B., Stamegna J.C., Tadié M., Vinit S. (2006). Recovered diaphragm autonomy after laryngeal innervation and spinal drive loss. Neurobiology of disease 24(1): 53-66.

1- Vinit S., Boulenguez P., Efthimiadi L., Stamegna J.C., Gauthier P., Kastner A. (2005). Axotomized bulbospinal neurons express c-Jun after cervical spinal cord injury. Neuroreport, 16(14): 1535-1539.

COMMUNICATIONS SCIENTIFIQUES :

Organisation de symposium et de congrès:

6- (2025) 9th congress Serbian Neuroscience Society, Belgrade, Serbia, 6-8 octobre 2025. Membre du comité scientifique et Chairman du “Symposium II Neuroplasticity Under Influence: Pharmacological and Stimulation-Based Modulation” (Co-chair : M. Dragić).

5- (2025) 47th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), Copenhagen, Denmark, 14-17 juillet 2025. (Minisymposia, 4 speakers on “Perspectives on Trans-Spinal Magnetic Stimulation on diagnosis and repair of spinal neural networks”).

4- (2025) Congrès annuel de la Société de Physiologie et Biologie Intégrative (SPBI). 2-4 juillet, UFR des Sciences, Versailles. Membre du comité d’organisation local.

3- (2025) 6th International Brain Stimulation Conference, 23-26 February, Kobe, Japan. Chairman d’un Fast-track symposium (4 speakers on: “Neuromodulation and traumatic injury: Insights from in vitro to in vivo preclinical models”).

2- (2015 - en cours) Organisation des séminaires « invités externes » de l’U1179 End:icap, UFR Simone Veil - Santé, UVSQ.

1- (2007-2012) Participation à l’organisation logistique du Kemp Station Respiratory Retreat Symposium annuel, Lake Tomahawk, Minocqua, WI, USA (Organisateur : Pr. G.S. Mitchell).

28 communications orales (dont 15 en tant qu’invité).

28- (2025) Modulation of respiratory neurocircuitry by rTMS in experimental spinal cord trauma. 9th congress Serbian Neuroscience Society, Belgrade, Serbia, 6-8 October. (Invited speaker).

27- (2025) rTMS-Driven Respiratory Neuroplasticity: A Breakthrough in Spinal Cord Injury Recovery. 47th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC), Copenhagen, Denmark, 14-17 July. (Invited speaker).

26- (2025) rTMS induces respiratory neuroplasticity in a preclinical model of spinal cord injury. 6th International Brain Stimulation Conference, 23-26 February, Kobe, Japan. (Chairman of the session). https://www.sciencedirect.com/science/article/pii/S1935861X24004236

25- (2024) rTMS application on neurorespiratory network following spinal cord injury. University of Belgrade, Department of Biology, Serbia. (Invited speaker).

24- (2023) Physiopathology and Therapeutics following spinal cord injury. University of Belgrade, Department of Biology, Serbia. (Invited speaker).

23- (2022) rTMS et neuromodulation du réseau neurorespiratoire après trauma cervical de la moelle épinière chez le rat. Sorbonne Université, UMRS 1158 INSERM. (Invited speaker).

22- (2019) Repetitive transcranial magnetic stimulation (rTMS) elicits long lasting phrenic motoneuron excitability increase in the rat: Possible treatment for respiratory insufficiency? Experimental Biology, Orlando, USA. (Invited speaker).

21- (2019) Phrenic motoneurons and magnetic stimulations: is that a good combination for improving respiratory insufficiency following C2 hemisection? University of Florida, McKnight Brain Institute, Center for Respiratory Research and Rehabilitation, Gainesville, USA. (Invited speaker).

20- (2019) Repetitive magnetic stimulations increase phrenic motoneuron excitability following C2 hemisection in rats. Drexel School of Medicine, Marion Murray Spinal cord research center, Philadelphia, USA. (Invited speaker).

19- (2016) Amie : Hypoxie intermittente et plasticité neuronale. Le congrès du sommeil, Strasbourg, France. (Invited speaker).

18- (2015) TMS and respiratory spinal cord plasticity. Drexel School of Medicine, Spinal cord research center, Philadelphia, USA. (Invited speaker).

17- (2014) Implication de la voie de signalisation Nrf2 dans la neuroplasticité respiratoire en réponse à un traumatisme cervical de la moelle épinière. J2R, Bordeaux, France. (Invited speaker).

16- (2014) Stimulation magnétique et neuromodulation respiratoire: la physiologie...pas l'ésotérisme. Conférences Simone Veil, UFR des Sciences de la Santé – Simone Veil, UVSQ, France.

15- (2013) Plasticité fonctionnelle de l’activité respiratoire lors de différentes pathologies. Conférences Simone Veil, UFR des Sciences de la Santé – Simone Veil, UVSQ, France.

14- (2012) Pre-clinical model of a murine cervical spinal cord injury, PresUniversud, Paris, France.

13- (2012) Cervical Spinal Cord Injuries, Intermittent Hypoxia and Respiratory Plasticity: What a Wonderful Mix!!! School of Veterinary Medicine, Madison, USA.

12- (2012) What we can learn about respiratory motor output from cervical injuries? Department of Neurosciences, Case Western Reserve University, Cleveland, USA. (Invited speaker).

11- (2011) Is intermittent hypoxia an adequate treatment to enhance respiratory recovery following a spinal cord injury? School of Veterinary Medicine, Madison, USA.

10- (2010) Respiratory plasticity following a cervical spinal cord injury. University of Florida, Gainesville, USA. (Invited speaker).

9- (2009) Intermittent hypoxia: a new treatment for inducing spinal plasticity following spinal injury? Pôle 3C, Université de Provence, Marseille, France.

8- (2009) Intermittent hypoxia induces functional recovery following cervical spinal injury. Institut Fédératif Jean Roche, Université Paul Cézanne, Marseille, France.

7- (2009) AIH Three Times a Week Enhances Phrenic Long Term Facilitation. Kemp Station Respiratory retreat Symposium, USA.

6- (2009) dAIH restores phrenic long-term facilitation contralateral to cervical spinal injury. Experimental Biology, New Orleans, USA. (Invited speaker).

5- (2008) Respiratory plasticity after a high cervical spinal cord injury. School of Veterinary Medicine, Madison, USA.

4- (2008) Are microglia involved in pLTF? Kemp Station Respiratory retreat Symposium, USA.

3- (2007) Is microglial activation necessary for phrenic long term facilitation following acute intermittent hypoxia? Université Paul Cézanne, Marseille, France.

2- (2007) Post-lesional respiratory plasticity after a high cervical spinal cord injury. Kemp Station Respiratory retreat Symposium, USA.

1- (2005) Post-lesional neuroplasticity in the respiratory network after cervical spinal cord injury: functional and molecular characterization. Symposium on multidimensional aspects of neuroplasticity, 8-9 December, Pôle 3C, Marseille, France.

36 communications affichées publiées et 21 non publiées dans des congrès internationaux.

Publiées :

36- Chen W., Ngoma L., Vinit S., Vivodtzev I. (2025) Effect of repetitive magnetic stimulation on respiratory function after cervical spinal cord injury. Revue des Maladies Respiratoires, 42 (4) : 223-224.

35 - Vinit S., Michel-Flutot P., Mansart A. (2024) 2-Deoxy-D-glucose as a potential therapeutic agent for reducing neuroinflammation, Immunology 2024, Chicago, USA.

34- Adam L., Bourcier C., Emam L., Vinit S., Mansart A. (2024) Modulation of neuromuscular function through extracellular traps in septic shock models. The Journal of Immunology, Volume 212, Issue 1_Supplement. https://doi.org/10.4049/jimmunol.212.supp.0345.4873.

33- Vinit S., Michel-Flutot P., Jesus I., Bonay M., Auré K., Lee K.Z., Mansart A. (2023) Evaluation of gastrocnemius motor evoked potentials induced by trans-spinal magnetic stimulation following tibial nerve crush in rats. American Physiology Summit, Long Beach, USA.

32- Bourcier C.H., Michel-Flutot P., Emam L., Adam L., Gasser A., Vinit S., Mansart A. (2023) β1-adrenergic blockers preserve motor function by inhibiting the production of extracellular traps. American Physiology Summit, Long Beach, USA.

31- Mansart A., Adam L., Gasser A., Bourcier C.H., Vinit S., Annane D. (2023) β1-adrenergic blockers provide cardiac protection through extracellular traps inhibition during widespread inflammation. American Physiology Summit, Long Beach, USA.

30- Tiffany M., Bajjig A., Michel-Flutot P., Vinit S., Vivodtzev I. (2023) Acute and chronic changes in diaphragmatic activity and respiratory function following C3 spinal hemi-contusion in mice. Revue des Maladies Respiratoires, 40 : 76.

29- Migevent T., Bajjig A., Michel-Flutot P., Vinit S., Vivodtzev I. (2022) Acute and chronic changes in diaphragmatic activity and respiratory function following C3 spinal hemi-contusion in mice. 22nd Spinal Research Network Meeting, IRST, London.

28- Kastner A., Vinit S., Wanaverbecq N. (2022) Alteration of cerebrospinal fluid-contacting neurons activity after a lateral cervical spinal cord hemisection. FENS Forum 2022, Paris, France.

27- Michel-Flutot P., Mansart A., Bonay M., Vinit S. (2021) Effets d’un protocole chronique de rTMS sur l’activité respiratoire après lésion spinale en C2 chez le rat. Revue des Maladies Respiratoires, 38(6):596.

26- Michel-Flutot P., Deramaudt T.B., Biard M., De Jesus I., Bonay M., Vinit S. (2019) Chronic high frequency repetitive transcranial magnetic stimulation treatment following C2 SCI: respiratory and molecular effects. 21rst Spinal Research Network Meeting, IRST, London.

25- De Jesus I., Vinit S., Deramaudt T.B., Michel-Flutot P., Paucard A., Bonay M. (2019) Moderate training on forced exercise wheel following C2 SCI: Locomotor and respiratory effects in mice. 21rst Spinal Research Network Meeting, IRST, London.

24- Vinit S., Michel-Flutot P., Zholudeva L.V., Randelman M.L., Mansart A., Deramaudt T.B., Lane M.A., Petitjean M., Bonay M. (2019) Repetitive Transcranial Magnetic Stimulation (rTMS) Elicits Long Lasting Phrenic Motoneuron Excitability Increase in the Rat: Possible Treatment for Respiratory Insufficiency? FASEB J., 33 ; Issue 1_supplement.

23- Michel-Flutot P., Fayssoil A., Bonay M., Mansart A., Vinit S. (2019) Evaluation of Respiratory and Cardiovascular Parameters by Ultrasound Echography Following C2 Spinal Cord Hemisection in Rat. FASEB J., 33 ; Issue 1_supplement.

22- Mansart A., Efthimiadi L., Vinit S., Fayssoil A., Annane D. (2019) β1-blockers provide cardioprotection, attenuation of intramyocardial inflammation and leukocyte endothelial transmigration in septic mice. FASEB J., 33 ; Issue 1_supplement. Selected for an oral presentation.

21- Ali M., Deramaudt T.B., Vinit S., Bonay M. (2018) Effects of pharmacological activators of Nrf2 on the antioxidant and anti-inflammatory response in human macrophage. 20th ISANH Redox.

20- Vinit S., Keomani E., Deramaudt T.B., Bonay M., Petitjean M. (2016) Repetitive transcranial magnetic stimulation elicits long lasting phrenic motoneuron excitability increase in a rat model of respiratory neuroplasticity, FEPS, Acta Physiologica 217(S708).

19- Mansart A., Vinit S., (2016) Partial β1-blockade does not worsen the effects of sepsis on ventilation, hepatic and renal clearance, FEPS, Acta Physiologica 217(S708).

18- Vinit S., Keomani E., Deramaudt T.B., Bonay M., Petitjean M. (2015) Mise en évidence par stimulation magnétique transcrânienne d’une réorganisation des voies bulbospinales respiratoires après lésion spinale cervicale chez le rat. Revue des Maladies Respiratoires, in press.

17- Vinit S., Petitjean M., Keomani E., Deramaudt T.B., Bonay M. (2015) Early spinal cord rewiring revealed by transcranial magnetic stimulation following C2 partial injury: Implication of the crossed phrenic pathway. FASEB J. 2014, 29:656.1.

16- Petitjean M., Vinit S., Keomani E., Deramaudt T.B., Spruance V.M., Bezdudnaya T., Lane M.A., Bonay M. (2015) Interdisciplinary approaches of transcranial magnetic stimulation applied to a respiratory neuronal circuitry model. FASEB J. 2014, 29:656.2.

15- Deramaudt T.B., Vinit S., Efthimiadi L., Petitjean M., Bonay M. (2015) Evaluation of the Nrf2-mediated anti-oxidative and anti-inflammatory responses in phrenic motoneurons following C2 hemisection in adult rat. FASEB J. 2014, 29 :656.3.

14- Petitjean M., Vinit S., Keomani E., Deramaudt T.B., Spruance V.M., Bezdudnaya T., Lane M.A., Bonay M. (2014) Explorations respiratoires et neuroanatomiques des effets de la stimulation magnétique transcrânienne chez le rat. Revue des Maladies Respiratoires, DOI: 10.1016/j.rmr.2015.02.081.

13- Vinit S., Djerbal L., Keomani E., Deramaudt T.B., Petitjean M., Bonay M. (2014) Implication de la voie de signalisation Nrf2 dans la neuroplasticité respiratoire en réponse à un traumatisme cervical de la moelle épinière. Revue des Maladies Respiratoires, DOI: 10.1016/j.rmr.2015.02.023.

12- Watters J.J., Roopra A.S., Bowen K., Vinit S., MacFarlane P., Mitchell (2014) Repetitive acute intermittent hypoxia down-regulates inflammatory gene expression in the rat ventral cervical spinal cord FASEB J. 2014, 28:1091.7.

11- Nichols N.L., Vinit S., Mitchell G.S. (2013) Intrapleural CTB-Saporin selectively kills phrenic motor neurons: a motor neuron disease model. FASEB J. 2013, 27:719.1.

10- Ben Mabrouk F., Vinit S., Mitchell G.S. (2011) C2 hemisection shifts the balance of KCC2 and NKCC1 expression in phrenic motoneurons. FASEB J., 25:651.4.

9- Vinit S., MacFarlane P. M., Satriotomo I., Mitchell G. S. (2010) Enhanced phrenic long-term facilitation following repetitive acute intermittent hypoxia. FASEB J. 2010 24:799.14.

8- MacFarlane P. M., Vinit S., Roopra A., Mitchell G. S. (2010) Enhanced phrenic long-term facilitation following repetitive acute intermittent hypoxia: role of glycolytic flux. FASEB J. 2010 24:799.15.

7- Satriotomo I., Vinit S., Flom A. L., Mitchell G. S. (2010) Repetitive acute intermittent hypoxia increases BDNF and TrkB expression in respiratory motor neurons: dose effects. FASEB J. 2010 24:799.16.

6- Vinit S., Satriotomo I., Mitchell G.S. (2009) Intermittent hypoxias: a new treatment aimed to enhance spinal cord plasticity; Neurorehabilitation and Neural Repair, 23(9):992.

5- Vinit S., Mitchell G.S. (2009) dAIH restores phrenic long-term facilitation contralateral to cervical spinal injury; FASEB J. 2009 23:784.

4- Vinit S., Mitchell G.S. (2008) Are Microglia involved in respiratory plasticity?; FASEB J. 2008 22:1233.1.

3- Vinit S., Boulenguez P., Polentes J., Stamegna J.C., Gauthier P., Kastner A. (2005) Differential c-Jun expression in respiratory and non-respiratory medullary neurons following cervical spinal cord injury; Autonomic Neuroscience: Basic and Clinical, 119 (2); 67-158.

2- Polentes J., Baussart B., Stamegna J.C., Vinit S., Tadié M., Gauthier P. (2005) Unilateral diaphragmatic deficit induced by cervical spinal cord contusion: a new model for analysing post-lesional respiratory plasticity in the adult rat; Autonomic Neuroscience: Basic and Clinical, 119 (2); 67-158.

1- Vinit S., Polentes J., Stamegna J.C., Gauthier P., Kastner A. (2005) Lateral injury of the cervical spinal cord induces permanent hemidiaphragm paralysis; Autonomic Neuroscience: Basic and Clinical, 119 (2); 67-158.

Non-publiées:

21- Michel-Flutot P., Fayssoil A., Bonay M., Mansart A., Vinit S. (2019) Evaluation des paramètres respiratoires et cardiovasculaires par échographie après hémisection spinale cervicale chez le rat. Journée de l’école doctorale 569 Innovation Thérapeutique : du Fondamental à l’Appliqué, France.

20- de Jesus I., Deramaudt T.B., Vinit S., Michel-Flutot P., Ali M., Paucard A., Bonay M. (2019) Mise au point d’un modèle d’entrainement physique chez la souris blessée médullaire. Congrès de la Société de Physiologie et Biologie integrative, Montpellier, France.

19- Vinit S. (2013) Plasticity and functional recovery of respiratory function following high cervical spinal cord injury. Mid-term meeting of the RBUCE-UP European program at conseil regional d’Île de France, Paris, France.

18- Vinit S., Terada J., MacFarlane P.M., Mitchell G.S. (2011) Daily acute intermittent hypoxia restores respiratory plasticity and breathing capacity following cervical injury. Neurorehabilitation and Neural Repair conference, Monterey, USA.

17- Ben Mabrouk F., Vinit S., Mitchell G.S. (2011) Intermittent hypoxia restores the KCC2-NKCC1 balance following C2 hemisection; Society for Neurosciences, Washington D.C., USA.

16- MacFarlane P.M., Vinit S., Mitchell G.S., Roopra A., Flom A. (2010) Differential expression of phrenic and hypoglossal metaplasticity among two inbred colonies of Lewis rats: effects of repetitive intermittent hypoxia and 2-deoxyglucose; Society for neurosciences, San Diego, USA.

15- Vinit S., MacFarlane P.M., Mitchell G.S. (2010) Phrenic and hypoglossal long term facilitation differs among colonies of LEWIS rats; Society for neurosciences, San Diego, USA.

14- Vinit S., Mitchell G.S. (2009) Lipopolysaccharides blocks phrenic long-term facilitation following acute intermittent hypoxia in rats; Cellular and network functions in the spinal cord, University of Wisconsin-Madison, USA.

13- Vinit S., Mitchell G.S. (2008) Lipopolysaccharide reduces phrenic long-term facilitation following acute intermittent hypoxia in rats; Society for neurosciences, Washington D.C., USA.

12- Kastner A., Vinit S., Stamegna J. C., Boulenguez P., Gauthier P. (2006) Distinct respiratory pathways control short and long-term post-lesionnal neuroplasticity after cervical spinal cord injury; 5th forum of european neuroscience, Vienne, Austria.

11- Vinit S., Stamegna J.C., Polentes J., Kastner A., Gauthier P. (2005) Lateral injury of the cervical spinal cord induces long-term hemidiaphragm paralysis; Neurorecovery, 6th international congress IRME, Paris.

10- Vinit S., Boulenguez P., Polentes J., Stamegna J.C., Gauthier P., Kastner A. (2005) High cervical spinal cord injury induces differential c-Jun expression in various populations of medullary respiratory and non-respiratory neurons; Neurorecovery, 6th international congress IRME, Paris.

9- Baussart B., Polentes J., Stamegna J.C., Vinit S., Tadié M., Gauthier P. (2005) High cervical spinal cord contusion: a model inducing a persistent unilateral respiratory diaphragmatic deficit in the adult rat; Neurorecovery, 6th international congress IRME, Paris.

8- Vinit S. (2005) Medullary respiratory and non-respiratory neurons express c-jun following cervical spinal cord injury. XIIIèmes Colloque de l’école doctorale des sciences de la vie et de la santé. Faculté de médecine La Timone, Marseille.

7- Vinit S., Boulenguez P., Polentes J., Stamegna J.C., Gauthier P., Kastner A. (2005) Induction of c-jun in medullary neurons following cervical spinal cord injury; 7ème Colloque de la société des Neurosciences Françaises, Lille.

6- Gauthier P., Vinit S., Stamegna J.C., Kastner A. (2005) Permanent hemidiaphragm paralysis after section of the lateral area of the cervical spinal cord; 7ème Colloque de la société des Neurosciences Françaises, Lille.

5- Polentes J., Baussart B., Stamegna J.C., Vinit S., Tadié M., Gauthier P. (2005) Persistent unilateral respiratory deficit in the adult rat after cervical contusion: a new model of high spinal cord injury; 7ème Colloque de la société des Neurosciences Françaises, Lille.

4- Baussart B., Polentes J., Stamegna J.C., Vinit S., Gauthier P., Tadié M. (2005) A model of high cervical spinal cord contusion inducing a persistent unilateral respiratory deficit in the adult rat; 3èmes Journées Françaises de Neurochirurgie (SFNC) and 56th Annual Meeting of the German Society of Neurosurgery (DGNC), Strasbourg. 3rd Prize Poster SFNC & DGNC.

3- Vinit S., Boulenguez P., Stamegna J.C., Gauthier P., Kastner A. (2005) C-Jun expression in the respiratory neurons following a spinal cord injury; Sixièmes journées scientifiques de l’IFR Jean Roche, Faculté de Médecine Nord, Marseille.

2- Vinit S., Boulenguez P., Polentes J., Stamegna J.C., Gauthier P., Kastner A. (2004) Respiratory plasticity after spinal cord injury and functional restoration with OEC transplantation. 14ème rendez-vous scientifique de l’ARSEP: Conférence François Lhermitte, Paris.

1- Vinit S., Polentes J., Stamegna J.C., Gauthier P., Kastner A. (2003) Respiratory restoration following olfactory ensheathing cells transplantation. 13ème rendez-vous scientifique de l’ARSEP: Conférence François Lhermitte, Paris.

BREVET

1- Methods for treating respiratory failure afflicted with cervical spinal cord injury. WO2015135933-A1. Bonay M., Deramaudt T.D., Keomani E., Petitjean M., Vinit S.

CHAPITRE D’OUVRAGE :

1- (2022) Pathophysiology of Spinal Cord Injury (SCI). ISBN 978-3-0365-5888-2 (Hbk); ISBN 978-3-0365-5887-5 (PDF). https://doi.org/10.3390/books978-3-0365-5887-5.

COMMUNICATIONS TOUT PUBLIC :

28- (2024) Site institutionnel de l’Université Paris-Saclay.

https://www.universite-paris-saclay.fr/actualites/subventions-legs-poix-cinq-laureates-issus-de-la-communaute-de-luniversite-paris-saclay

27- (2024) Site institutionnel de l’UFR Simone Veil – Santé, UVSQ.

https://www.sante.uvsq.fr/subventions-legs-poix-2024-pour-luvsq

26- (2024) Site institutionnel de l’Université de Versailles St Quentin en Yvelines.

https://www.uvsq.fr/subventions-legs-poix-2024-pour-luvsq

25- (2023) Site institutionnel de l’UFR Simone Veil – Santé, UVSQ.

https://www.sante.uvsq.fr/stephane-vinit-obtient-un-phc

24- (2023) Site institutionnel de l’Université de Versailles St Quentin en Yvelines.

https://www.uvsq.fr/stephane-vinit-obtient-un-phc

23- (2023) Life Sciences Department, Université Paris-Saclay.