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Book Categories |
1 | Introduction | 1 |
2 | Biophysical models of the membrane potential and ionic currents | 8 |
3 | Electrophysiological properties of thalamic relay neurons | 39 |
4 | Electrophysiological properties of thalamic reticular neurons | 89 |
5 | Biophysical models of synaptic interactions | 125 |
6 | Spindle oscillations in thalamic circuits | 164 |
7 | Spindle oscillations in the thalamocortical system | 228 |
8 | Thalamocortical mechanisms for spike-and-wave epileptic seizures | 294 |
9 | A physiological role for sleep oscillations | 347 |
App. A | Ionic bases of the membrane potential | 392 |
App. B | Optimized algorithms for simulating synaptic currents | 401 |
App. C: Data available on the Internet | 404 | |
References | 406 | |
Index | 443 |
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Add Thalamocortical assemblies, During sleep, the mammalian brain generates an orderly progression of low frequency oscillations. The nature of these oscillations changes as the brain moves from sleep onset into deep sleep. Although readily measured and recorded, the underlying neural m, Thalamocortical assemblies to the inventory that you are selling on WonderClubX
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Add Thalamocortical assemblies, During sleep, the mammalian brain generates an orderly progression of low frequency oscillations. The nature of these oscillations changes as the brain moves from sleep onset into deep sleep. Although readily measured and recorded, the underlying neural m, Thalamocortical assemblies to your collection on WonderClub |