Nerve cell function and synaptic mechanisms

Publication date: Available online 23 February 2016 Source:Anaesthesia & Intensive Care Medicine Author(s): Allan Fletcher Nerve cells (neurones) are ‘excitable’ cells that can transduce a variety of stimuli into electrical signals, continuously sending information about the external and internal environment (in the form of sequences of action potentials) to the central nervous system (CNS). Interneurones in the CNS integrate this information and send signals along output (efferent) neurones to various parts of the body for the appropriate actions to be taken in response to environmental changes. Networks of neurones have been arbitrarily classified into various nervous systems that gather and transmit sensory information and control skeletal muscle function and autonomic function, etc. The junctions between neurones (synapses) are either electrical or chemical. The former permit the direct transfer of electrical current between cells, whereas the latter utilize chemical signalling molecules (neurotransmitters) to transfer information between cells. Neurotransmitters are mainly amino acids, amines or peptides (although other molecules such as purines and nitric oxide are utilized by some cells), and can be excitatory or inhibitory. Individual neurones within the CNS may receive synaptic inputs from thousands of other neurones. Therefore, each neurone ‘integrates’ this vast complexity of inputs and responds accordingly (either by remaining silent or firin...
Source: Anaesthesia and intensive care medicine - Category: Anesthesiology Source Type: research