Breathe, walk and chew : the neural challenge. Part 1 / edited by Jean-Pierre Gossard, Réjean Dubuc, Arlette Kolta.

Contributor(s): Gossard, Jean-Pierre [editor.] | Dubuc, Réjean [editor.] | Kolta, Arlette [editor.]
Material type: TextTextSeries: Progress in brain research: v. 187.Publisher: Amsterdam ; Boston : Elsevier, 2010Edition: 1st edDescription: 1 online resource (xii, 230 pages) : illustrationsContent type: text Media type: computer Carrier type: online resourceISBN: 9780444536235; 044453623X; 9780444536136; 0444536132; 1282955446; 9781282955448; 9786612955440; 6612955449Subject(s): Brain | Decision making | Neurobiology | Cognitive science | Mind and body | Nervous System | Nervous System -- physiopathology | Motor Skills -- physiology | Decision Making | MEDICAL -- Neuroscience | PSYCHOLOGY -- Neuropsychology | Brain | Cognitive science | Decision making | Mind and body | Neurobiology | ademhaling | respiration | lopen | walking | voortbeweging | locomotion | beweging | movement | neurale netwerken | neural networks | biologische ontwikkeling | biological development | hormonale controle | hormonal control | genetica | genetics | neurofysiologie | neurophysiology | neurobiologie | neurobiology | neurowetenschap | neuroscience | Neurophysiology | Medicine (General) | Neurofysiologie | Geneeskunde (algemeen)Genre/Form: Electronic books. | Electronic books. Additional physical formats: Print version:: Breathe, walk and chew.DDC classification: 612.8/2 LOC classification: QP376 | .P7eb v.187Online resources: Click here to access online
Contents:
pt. 1. Section 1. Genetic factors determining the functional organization of neural circuits controlling rhythmic movements -- 1. Once upon a time -- the early concepts of breathing, walking, and chewing -- 2. Genetic dissection of rhythmic motor networks in mice -- 3. Genetic factors determining the functional organization of neural circuits controlling rhythmic movements -- 4. Development of motor rhythms in zebrafish embryos -- 5. Limb, respiratory, and masticatory muscle compartmentalization -- 6. Spinal interneurons providing input to the final common path during locomotion -- 7. Beyond connectivity of locomotor circuitry-ionic and modulatory mechanisms.
pt. 2. Section 3. Modulation of rhythmic movements -- 2. The spinal generation of phases and cycle duration -- 3. Networks within networks: The neuronal control of breathing -- 4. Supraspinal control of locomotion: The mesencephalic locomotor region -- 5. Face sensorimotor cortex: Its role and neuroplasticity in the control of orofacial movements -- 6. Motor planning of locomotor adaptations on the basis of vision: The role of the posterior parietal cortex -- 7. Interindividual variability and its implications for locomotor adaptation following peripheral nerve and/or spinal -- 8. Challenging the adaptive capacity of rhythmic movement control: From denervation to force field adaptation -- 9. Face sensorimotor cortex neuroplasticity associated with intraoral alterations -- 10. A hierarchical perspective on rhythm generation for locomotor control -- 11. Novel mechanism for hyperreflexia and spasticity -- 12. Modulation of rhythmic movement: Control of coordination -- Section 4. Perspectives -- 14. Looking forward to breathing -- 15. Chew before you swallow -- 16. Spinal plasticity in the recovery of locomotion.
Summary: Breathe, Walk, and Chew.
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Includes bibliographical references and index.

Print version record.

pt. 1. Section 1. Genetic factors determining the functional organization of neural circuits controlling rhythmic movements -- 1. Once upon a time -- the early concepts of breathing, walking, and chewing -- 2. Genetic dissection of rhythmic motor networks in mice -- 3. Genetic factors determining the functional organization of neural circuits controlling rhythmic movements -- 4. Development of motor rhythms in zebrafish embryos -- 5. Limb, respiratory, and masticatory muscle compartmentalization -- 6. Spinal interneurons providing input to the final common path during locomotion -- 7. Beyond connectivity of locomotor circuitry-ionic and modulatory mechanisms.

pt. 2. Section 3. Modulation of rhythmic movements -- 2. The spinal generation of phases and cycle duration -- 3. Networks within networks: The neuronal control of breathing -- 4. Supraspinal control of locomotion: The mesencephalic locomotor region -- 5. Face sensorimotor cortex: Its role and neuroplasticity in the control of orofacial movements -- 6. Motor planning of locomotor adaptations on the basis of vision: The role of the posterior parietal cortex -- 7. Interindividual variability and its implications for locomotor adaptation following peripheral nerve and/or spinal -- 8. Challenging the adaptive capacity of rhythmic movement control: From denervation to force field adaptation -- 9. Face sensorimotor cortex neuroplasticity associated with intraoral alterations -- 10. A hierarchical perspective on rhythm generation for locomotor control -- 11. Novel mechanism for hyperreflexia and spasticity -- 12. Modulation of rhythmic movement: Control of coordination -- Section 4. Perspectives -- 14. Looking forward to breathing -- 15. Chew before you swallow -- 16. Spinal plasticity in the recovery of locomotion.

Breathe, Walk, and Chew.

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