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Coauthors
Laurent Juvin Institut de Neurosciences Cognitives et Intégratives d’Aquitaine (INCIA), Université de Bordeaux, France
1 protocol

Angelo Nicolosi Institut de Neurosciences Cognitives et Intégratives d’Aquitaine (INCIA), Université de Bordeaux, France
1 protocol

Jean-Patrick Le Gal Institut de Neurosciences Cognitives et Intégratives d’Aquitaine (INCIA), Université de Bordeaux, France
1 protocol

Didier Morin
  • Institut de Neurosciences Cognitives et Intégratives d’Aquitaine (INCIA), Université de Bordeaux, France
  • 1 Author merit

Education

Ph.D in Neuroscience, University of Aix-Marseille, France, 1992

Current position

Professor, Aquitaine Institute of Integrative and Cognitive Neurosciences, University of Bordeaux, France
Director of Studies, Department of Health, Safety & Environment, Institute of Technology of Bordeaux, France

Publications (since 2005)

  1. Le Gal, J. P., Juvin, L., Cardoit, L. and Morin, D. (2016). Bimodal Respiratory-Locomotor Neurons in the Neonatal Rat Spinal Cord. J Neurosci 36(3): 926-937.

  2. Nicolosi, A., Juvin, L., Jaillet-Bartholome, C., Thoby-Brisson, M. and Morin, D. (2015). Effets des nanoparticules d’oxyde de zinc sur l’activité respiratoire centrale chez le rat nouveau-né. Revue des Maladies Respiratoires 32: A151-A152.
  3. Le Gal, J. P., Juvin, L., Cardoit, L., Thoby-Brisson, M. and Morin, D. (2014). Remote control of respiratory neural network by spinal locomotor generators. PLoS One 9(2): e89670.

  4. Giraudin, A., Le Bon-Jego, M., Cabirol, M. J., Simmers, J. and Morin, D. (2012). Spinal and pontine relay pathways mediating respiratory rhythm entrainment by limb proprioceptive inputs in the neonatal rat. J Neurosci 32(34): 11841-11853.

  5. Juvin, L., Le Gal, J. P., Simmers, J. and Morin, D. (2012). Cervicolumbar coordination in mammalian quadrupedal locomotion: role of spinal thoracic circuitry and limb sensory inputs. J Neurosci 32(3): 953-965.
  6. Giraudin, A., Cabirol-Pol, M. J., Simmers, J. and Morin, D. (2008). Intercostal and abdominal respiratory motoneurons in the neonatal rat spinal cord: spatiotemporal organization and responses to limb afferent stimulation. J Neurophysiol 99(5): 2626-2640.
  7. Juvin, L., Simmers, J. and Morin, D. (2007). Locomotor rhythmogenesis in the isolated rat spinal cord: a phase-coupled set of symmetrical flexion extension oscillators. J Physiol 583(Pt 1): 115-128.
  8. Falgairolle, M., de Seze, M., Juvin, L., Morin, D. and Cazalets, J. R. (2006). Coordinated network functioning in the spinal cord: an evolutionary perspective. J Physiol Paris 100(5-6): 304-316.
  9. Eldridge, F. L., Morin, D., Romaniuk, J. R., Yamashiro, S., Potts, J. T., Ichiyama, R. M., Bell, H., Phillipson, E. A., Killian, K. J., Jones, N. L. and Nattie, E. (2006). Supraspinal locomotor centers do/do not contribute significantly to the hyperpnea of dynamic exercise in humans. J Appl Physiol (1985) 100(5): 1743-1747.
  10. Juvin, L., Simmers, J. and Morin, D. (2005). Propriospinal circuitry underlying interlimb coordination in mammalian quadrupedal locomotion. J Neurosci 25(25): 6025-6035.
  11. Juvin, L. and Morin, D. (2005). Descending respiratory polysynaptic inputs to cervical and thoracic motoneurons diminish during early postnatal maturation in rat spinal cord. Eur J Neurosci 21(3): 808-813.
1 Protocol published
In vitro Brainstem-spinal Cord Preparation from Newborn Rat
Authors:  Jean-Patrick Le Gal, Angelo Nicolosi, Laurent Juvin and Didier Morin, date: 11/20/2016, view: 1993, Q&A: 0
The brainstem-spinal cord preparation of newborn rat contains neural networks able to produce motor output in absence of sensory feedback. These neural structures, commonly called central pattern generators (CPGs), are involved in many vital ...