Breathe, walk and chew : the neural challenge. Part 1 /
Άλλοι συγγραφείς: | , , |
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Μορφή: | Ηλ. βιβλίο |
Γλώσσα: | English |
Έκδοση: |
Amsterdam ; Boston :
Elsevier,
2010.
|
Έκδοση: | 1st ed. |
Σειρά: | Progress in brain research ;
v. 187. |
Θέματα: | |
Διαθέσιμο Online: | Full Text via HEAL-Link |
Πίνακας περιεχομένων:
- 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.