It has been suggested that spreading depression may play a role in triggering classical migraine. In this study the retinal spreading depression was used as a pharmacological tool to test the neuronal effects of several common antimigraine drugs. As the chicken retina is void of any blood vessels the observed effects must be of pure neuronal origin. It is shown that propranolol, sumatriptan, methysergide, paracetamol and acetylsalicyclic acid decrease the propagation velocity of retinal spreading depression waves, accelerate the recovery of the optical and electrical signal and reduce the amplitude of the negative potential shift, concomitant with the spreading depression. Barbiturate increases the spreading velocity, and the amplitude of the potential shift. Ergotamine, clonidine, lisuride and iprazochrome have no significant influence on retinal spreading depression.
Spreading depression (SD) is a propagating wave of neuronal activity in the central nervous system and may play a role in triggering classical migraine. The retina serves as a model system for examining the phenomenon of SD and the influence of various drugs on it. After a SD wave passes a new wave can not be elicited in the absolute refractory period of the tissue (about 2 min), this is followed by a relative refractory phase of about 20 min before complete recovery. The aim of the present study was to describe the effects of Ba2+, a blocker of glial cell K+ channels, octanol, a gap junction blocker and diethylbarbiturate, a GABA(A) chloride channel-activating drug on the modulation of the refractory period of the retinal SD and to examine the possible mechanisms underlying this modulation. Two properties of SD, which are highly sensitive to any changes in the experimental conditions, are the propagation velocity of the wave and the accompanying slow negative potential shift. We measured the propagation velocity and the field potential amplitude in the chicken retina as a function of the recovery state of the tissue under control conditions and compared them with measurements in the presence of Ba2+, octanol or diethylbarbiturate. Under these conditions the manner of the recovery of the tissue changed significantly. Although after blocking the glial (Müller) cell K+ channels with Ba2+ (200 microM), the curve of recovery of the propagation velocity to its maximum value has the same shape as under control conditions, the propagation velocity is reduced in the whole recovery period and in the recovered retina to 84% of the control velocity. The importance of electrical coupling in the refractory phase and in the recovered tissue was examined by adding octanol (1 mM) to the perfusion solution. In this case the relative recovery phase was shortened and the field potential amplitude (110% of control) and propagation velocity (112% of control) are increased in the completely recovered retina. With the GABA(A)-chloride channel-activating drug diethylbarbiturate (800 microM) the propagation velocity (112% of control) and the amplitude of the field potential (111% of control) in the complete recovered retina are increased, but this seems to have no influence on the refractory state.
According to its physicochemical properties, neuronal tissue, including the central nervous system (CNS) and thus the human brain, is an excitable medium, which consequently exhibits, among other things, self-organization, pattern formation and propagating waves. Furthermore, such systems can be controlled by weak external forces. The spreading depression (SD), a propagating wave of excitation-depression, is such an event, which is additionally linked to a variety of medically important situations, classical migraine being just one example. Especially in retinal tissue, a true part of the CNS, the SD can be observed very easily with the naked eye and by video imaging techniques due to its big intrinsic optical signal.We have investigated the retinal SD and its control by external physical parameters such as gravity and temperature. Beyond this, especially due to its medical relevance, the control of CNS excitability by pharmacological tools is of specific interest, and we have studied this question in detail using the retinal SD as an experimental tool to collect information about the control of CNS tissue excitability.
Due to worldwide awareness of the need for environmental preservation, considerable weight has been given to developing technologies and methods that promote sustainability, underscoring studies on recycling urban solid waste such as sewage sludge ash (SSA) as a source of raw materials for this industry. Following this tendency, the present study aimed at assessing the technical implications of using SSA as an addition in the preparation of Portland cement concrete on the workability, axial compressive strength, void ratio and water absorption properties of samples produced with 0%, 5%, 10% and 15% of waste in relation to mass of sand used. The results of this study showed that up to 10% of SSA could be added to the concrete mixtures without compromising axial compressive strength, void ratio and water absorption. Moreover, it was found that using this waste induced a loss of workability in the concretes produced.
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