Electrical conductivity, electrically active

Arrhythmia is either the result of impaired conduction or altered electrical activity. However, in all arrhythmias, conduction and intercellular communication are important since arrhythmia only occurs if the altered electrical activity in one region is transduced to the whole organ. 

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. 

Electrochemical measurements are commonly carried out in a medium that consists of solvent containing a supporting electrolyte. The choice of the solvent is dictated primarily by the solubility of the analyte and its redox activity, and by solvent properties such as the electrical conductivity, electrochemical activity, and chemical reactivity. The solvent should not react with the analyte (or products) and should not undergo electrochemical reactions over a wide potential range. 

The adsorption of particles of various type results in the change in electric conductivity of such bridges mainly due to local chemical interaction of adsorbed particles with electrically active defects which are electron donors and resulting, thereby, in decrease of their concentration or, on the contrary, in increase due to creation of new defects of this type. In both cases as it has been shown above there are substantially straightforward and easily verified relationships linking both the initial rates in the change of electric conductivity and the stationary values reflecting concentration of adsorbed particles in ambient volume. 

Atoms of metals are more interesting tiian hydrogen atoms, because they can form not only dimers Ag2, but also particles with larger number of atoms. What are the electric properties of these particles on surfaces of solids The answer to this question can be most easily obtained by using a semiconductor sensor which plays simultaneously the role of a sorbent target and is used as a detector of silver adatoms. The initial concentration of silver adatoms must be sufficiently small, so that growth of multiatomic aggregates of silver particles (clusters) could be traced by variation of an electric conductivity in time (after atomic beam was terminated), provided the assumption of small electric activity of clusters on a semiconductor surface [42] compared to that of atomic particles is true. 

We found that the increase of film conductivity observed without magnetic field disappeared immediately after the field tum-on and did not appear again until the filed was turned off again. This result seems to confirm the earlier supposition of electric activity being present only if the surface of a semiconductor film is covered with silver atoms. We used the method of physical development of an oxide film alter sufficiently long exposition of the film to the beam of silver particles, with the magnetic field turned on, in order to be sure that particles of silver... 

The mechanical activity of the heart (contraction of the atria and ventricles) occurs as a result of the electrical activity of the heart. The heart possesses an intrinsic electrical conduction system (Fig. 6-1). Normal myocardial contraction cannot occur without proper and normal function of the heart s electrical conduction system. Electrical depolarization of the atria results in atrial contraction, and ventricular depolarization is... 

The introduction of donor impurities (Al, Ga) into zinc oxide increased both electrical conductivity and activity, while the addition of an acceptor (Li) lowers both conductivity and activity (30, 33). 

Recent studies of doped a-Si H have found that the background density of localized states, that is, the electrically active dopants and dangling bond defects, are metastable (Ast and Brodsky, 1979 Street et al., 1986, 1987a Muller et al., 1986). After annealing above 150°C in the dark, the dark conductivity at room temperature of n- and p-type doped a-Si H decreases by nearly a factor of two over a time scale of several weeks for n-type and several hours for p-type a-Si H. As shown in Fig. 9 (Street et al., 1987a), the relaxation rate of the occupied band tail density nBT is a sensitive function of temperature, so that the time to reach... 

Creed KE, Ishikawa S, Ito Y 1983 Electrical and mechanical activity recorded from rabbit urinary bladder in response to nerve stimulation. J Physiol 338 149-164 Cui J, Cox DH, Aldrich RW 1997 Intrinsic voltage dependence and Ca2+ regulation of mslo large conductance Ca-activated K+ channels. J Gen Physiol 109 647-673 Fabiato A 1983 Calcium-induced release of calcium from the cardiac sarcoplasmic reticulum. Am J Physiol 245 0-04... 

The fabrication procedure affects the product s microstructure including grain size, grain-boundary width, and porosity. In addition, different procedures introduce various amounts of impurities to the product. Therefore, the electrical conductivity and activation energy are affected by the fabrication procedure since, as mentioned above,... 

In the following sections, the electrical conductivity, electrochemical activity toward hydrogen oxidation, and the sulfur poisoning behavior of Ni-YSZ cermet anodes will be discussed in detail, together with the effects of various processing procedures and testing conditions. 

CNTs have higher thermal and electric conductivity than activated carbon or carbon black. The good electro-conductivity of CNTs is especially important when... 

Reflex action can be objectively examined. Measurement of the so-called electrical conduction velocity of motor nerves gives an indication of whether peripheral nerves have been damaged. Electromyography, or examination of the electrical activity of the muscle, and electroencephalography (EEG) can also be used to detect the presence of neurologic abnormalities. And, at least in animal tests, detailed pathological examination of neural tissue can be performed on animals that are killed. 

Cardiac muscle is similar to skeletal muscle, but is not under conscious control. These mono-nucleate cells are much smaller, but still show a striated pattern. The cells are in electrical contact through communicating gap junctions. These are important for the orderly spread of excitation through the heart. Spontaneous electrical depolarization of the specialized pacemaker cells together with conducting fibres activate the bulk of the ventricular muscle in the chamber walls, in each case through direct electrical contacts. 

Intraventricular conduction delay often leads to late activation of the left ventricular free wall with significant mechanical consequences. The mechanical consequences of abnormal electrical activation of the heart have long been recognized [58, 60, 86]. These include dyssynchrony between the atria. 

Another important, in fact more convincing indication for the use of digoxin is atrial fibrillation, in particular when occurring after cardiac surgery. The beneficial effect of digoxin is caused by impairment of the AV conduction, leading to the dissociation of the electrical activities of the atria and the ventricles. The inotropic effect, although weak, is potentially useful. 

Skin conductance represents changes in the electrical activity of skin. Resting skin conductance level (SCL) and the number of nonspecific fluctuations (spontaneous skin conductance responses [SCRs] seen in a resting state) are thought to reflect arousal. Skin conductance responses are also seen 1 to 3 seconds after stimulus onset, when they index the orienting reflex, which measures allocation of attention to the stimulus. Although SC arousal studies show some consistency, 4 out of 10 showed underarousal in antisocial-spectrum subjects no specific links to violence are reported (Scarpa and Raine, 1997). 

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