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Nerve potential

The main challenge of the approach (Fig. 9.27) in terms of adaptive signal processing is the design of the controller. The controllers task is to decode the extracellular nerve potentials and identify the ones that are related to efferent signals containing information about motion. Different paradigms postulate... [Pg.495]

Previously published animal models 23,2 were utilized to study (1) the effect of permeability of the conduit membrane on peripheral nerve axonal regeneration and (2) the effectiveness of collagen conduits to promote physiological recovering of motor and sensory nerve potentials. [Pg.283]

Besides being useful precursors to pyrroles pyridine-2-ones -4-ones, -4-thiones. and -4-imines 4-alkylidene-dihydropyridines thiophenes 1,2,4-triazoles thiapyrane-2-thiones, isoquinoline-3-ones isoben-zothiophenes and 4-mercaptoimidazolium hydroxide inner salts, mesoionic thiazoles are potentially useful in the construction of molecules with herbicidic (39). central nerve stimulating, and antiinflammatory properties (40,41). Application in dye synthesis has likewise been reported (42). [Pg.15]

The pain appears to arise from the formation of melittin pores in the membranes of nociceptors, free nerve endings that detect harmful ( noxious —thus the name) stimuli of violent mechanical stress, high temperatures, and irritant chemicals. The creation of pores by melittin depends on the nociceptor membrane potential. Melittin in water solution is tetrameric. However, melittin interacting with membranes in the absence of a membrane potential is monomeric and shows no evidence of oligomer... [Pg.319]

Lowenstein (27) found an approximate correlation between the nerve action potential produced by 1.6% pyrethrins applied externally and 0.3% pyrethrins applied directly to the nerve cord. [Pg.50]

Long nerve-cell process transmitting the action potential and ending as the synapse. [Pg.243]

The axonal membrane is a lipid bilayer in the nerve fibre. Ionic channels and other proteins are located in the membrane to achieve electrical activity. Action potentials are generated and conducted along the membrane. [Pg.244]

These are a subset of sensory neurons having their cell bodies (small to medium size) in dorsal root and in cranial nerve ganglia and possessing nonmyelinated (C-type) or thinly myelinated (A-delta type) fibres. This subset of neurons express transient receptor potential vanilloid type 1 (TRPV1, or vanilloid, or capsaicin receptor) that is excited by capsaicin, the pungent ingredient of chilli. These neurons have been classified as polymodal nociceptors because they can be excited by various noxious stimuli. [Pg.320]

Both disodium cromoglycate and nedocromil sodium have antitussive effects in humans. In this instance, their activity occurs by increasing the depolarisation of sensory nerves, which increases the threshold for an action potential and therefore inhibits the activity of these neurons. [Pg.397]

Excitability refers to the capacity of nerves and other tissues (e.g. cardiac), as well as individual cells, to generate and sometimes propagate action potentials, signals that serve to control intracellular processes, such as muscle contraction or hormone secretion, and to allow for long- and short-distance communication within the organism. Examples of excitable cells and tissues include neurons, muscle and endocrine tissues. Examples of nonexcitable cells and tissues include blood cells, most epithelial and connective tissues. [Pg.487]

Purinergic System. Figure 2 Schematic of sympathetic cotransmission. ATP and NA released from small granular vesicles (SGV) act on P2X and a-i receptors on smooth muscle, respectively. ATP acting on inotropic P2X receptors evokes excitatory junction potentials (EJPs), increase in intracellular calcium ([Ca2+]j) and fast contraction while occupation of metabotropic ar-adrenoceptors leads to production of inositol triphosphate (IP3), increase in [Ca2+]j and slow contraction. Neuropeptide Y (NPY) stored in large granular vesicles (LGV) acts after release both as a prejunctional inhibitory modulator of release of ATP and NA and as a postjunctional modulatory potentiator of the actions of ATP and NA. Soluble nucleotidases are released from nerve varicosities, and are also present as ectonucleotidases. (Reproduced from Burnstock G (2007) Neurotransmission, neuromodulation cotransmission. In Squire LR (ed) New encyclopaedia of neuroscience. Elsevier, The Netherlands (In Press), with permission from Elsevier). [Pg.1051]

All transmitters (except NO) are released by the following cascade arrival of the nerve action potential at the terminal - opening of voltage-sensitive Ca2+... [Pg.1170]


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See also in sourсe #XX -- [ Pg.495 ]




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Action potential in nerves

Electrophysiological measures potentials nerve conduction

Membrane potential of nerve axons

Nerve action potential

Nerve cell Potential, spike

Nerve cell action potential

Nerve cell potential difference

Nerve cell resting potential

Nerve membrane potential

Nerves, electric potential

Nerves, electric potential structure

Potential in nerve cells

Sensory nerve action potentials

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