Presynaptic Inhibition and Neural Control - Rilegato

Contenuti

• A. Lundberg: Introduction
• Part I: Basic Mechanisms of Presynaptic Control
• 1: F.J. Alvarez: Anatomical Basis for Presynaptic Inhibition on Primary Sensory Fibers
• 2: F.J. Alvarez-Leefmans: Chloride Transport, Osmotic Balance and Presynaptic Inhibition
• 3: K. Dunlap: Mechanisms and Physiological Implications of Receptor-Mediated Inhibition of Voltage-Dependent Ca2+ Channels
• 4: S.M. Thompson, M. Capogna and M. Scanziani: Presynaptic Inhibition and Faciliation of Transmitter Release
• 5: L. Vyklicky and H. Urbancová: Primary Afferent Depolarization and Presynaptic Inhibition
• 6: H.R. Lüscher: Control of Action Potential Invasion into Terminal Arborizations
• 7: B. Walmsley and M.J. Nicol: Action Potential Propagation Along Primary Afferents and Presynaptic Inhibition in Clarkes's Column of the Spinal Cord
• 8: D.R. Curtis: Two Types of Inhibition in the Spinal Cord
• 9: S.J. Redman: The Relative Contributions of GABAA and GABB Receptors to Presynaptic Inhibition of Group Ia EPSPs
• 10: H. Hultborn and J. Nielsen: Modulation of Transmitter Release From Ia Afferents by Their Preceding Activity - A 'Post-activation Depression'
• 11: D. Cattaert and F. Clarac: Presynaptic Inhibition of Neuromuscular Transmission in Crayfish
• 12: D.S. Faber and A. Pereda: Regulation of Primary Eighth Nerve Synapses on the Mauthner Cell
• 13: P.D. Wall: Some Unanswered Questions About the Mechanisms and Function of Presynaptic Inhibition
• Part II: Presynaptic Control of Segmental Inputs
• 14: R.E. Burke: Presynaptic Inhibition and the Anatomy of Group Ia Afferents
• 15: L.M. Mendell: Ia Fiber Architecture: Implications for the Functional Role of Presynaptic Inhibition
• 16: Dynamic Aspects of Presynaptic Function in the Developing Mammalian Spinal Cord
• 17: P. Rudomin, I. Jiménez and J. Quevedo: Selectivity of the Presynaptic Control of Synaptic Effectiveness of Group 1 Afferents in the Mammalian Spinal Cord
• 18: D. Zynicki and L. Jami: Presynaptic Inhibition Can Act as a Filter of Input from Tendon Organs during Muscle Contraction
• 19: E. Jankowska and J.S. Riddell: Neuronal Systems Involved in Modulation Synaptic Transmission from Group II Muscle Afferents
• 20: A. El Manira, D. Parker, P. Krieger, M. Wikstrom, and S. Grillner: Presynaptic Inhibition of Synaptic Transmssion from Sensory, Intemeuronal and Supraspinal Neurons to Spinal Target Cells in Lamprey
• 21: E. Pierrot-Deseilligny and S. Meunier: Differential Control of Presynaptic Inhibition of Ia Terminals during Voluntary Movement in Humans
• 22: D. McCrea and M.C. Perrault: PAD and Modulation of Evoked Group II Flexion Reflexes during MLR-Evoked Fictive Locomotion
• 23: S. Rossignol, I. Beloozerova, J.P. Gossard, and R. Dubuc: Presynaptic Mechanisms during Locomotion
• 24: S.J. Shefchyk: Modulation of Excitatory Perineal Reflexes and Sacral Striated Motoneuron during Micturition in the Cat
• 25: W.D. Willis, K.A. Sluka, H. Rees, and K.N. Westlund: A Contribution of Dorsal Root Reflexes to Peripheral Inflammation
• 26: R.F. Schmidt and H.G. Schaible: Modulation of Nociceptive Information at the Presynaptic Terminals of Primary Afferent Fibers
• Bibliography
• Index