
Physiology of Neurons
Thanks to tremendous technical advances in molecular biology and cellular imaging, following those in electrophysiology, there is now a deep understanding of the physiology of nerve cells and their synaptic interconnections. The complexity of the brain emerges from the communication and interaction between billions of these elements. Physiology of Neurons explores systematically and didactically the details of neuronal physiology, covering membrane biophysics, receptor physiology, sensory transduction, and synaptic transmission along with its selective pharmacology.
Readers of the book will be fully equipped to understand the functions and possibilities of the key units of the brain’s parallel computations.
Thanks to tremendous technical advances in molecular biology and cellular imaging, following those in electrophysiology, there is now a deep understanding of the physiology of nerve cells and their synaptic interconnections. The complexity of the brain emerges from the communication and interaction between billions of these elements. Physiology of Neurons explores systematically and didactically the details of neuronal physiology, covering membrane biophysics, receptor physiology, sensory transduction, and synaptic transmission along with its selective pharmacology.
Readers of the book will be fully equipped to understand the functions and possibilities of the key units of the brain’s parallel computations.
Description
Thanks to tremendous technical advances in molecular biology and cellular imaging, following those in electrophysiology, there is now a deep understanding of the physiology of nerve cells and their synaptic interconnections. The complexity of the brain emerges from the communication and interaction between billions of these elements. Physiology of Neurons explores systematically and didactically the details of neuronal physiology, covering membrane biophysics, receptor physiology, sensory transduction, and synaptic transmission along with its selective pharmacology.
Readers of the book will be fully equipped to understand the functions and possibilities of the key units of the brain’s parallel computations.












