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Relevant bibliographies by topics / Domotic Effect

Academic literature on the topic 'Domotic Effect'

Author: Grafiati

Published: 14 March 2023

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Journal articles on the topic "Domotic Effect"

1

AGUILERA, R. CARREÑO, J. J. MEDEL JUAREZ, and S. L. GOMEZ CORONEL. "PARAMETER ESTIMATION SPACE FOR UNKNOWN INTERNAL EVOLUTION ON IOT DOMOTIC SYSTEMS." Fractals 28, no. 03 (March 16, 2020): 2050066. http://dx.doi.org/10.1142/s0218348x20500668.

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This paper describes the parameter estimation modeling concerning a domotic designer bot system with internet of things (IoT) assistance using the probabilistic operator based on the stochastic parameter estimation through the moments and the recursive conditions. Light, CCTV, presence, and temperature are IoT data monitored, shared, and accessed by the internet for a smart office designer performance that evolves based on historical web data. The relationship established by Wiener between covariance and variance found the parameter time evolution by observing through the time. The development is viewed in the visible results between non-recursive and recursive mathematical structures. In both cases, the convergence rate is based on probabilistic estimation, the functional error presents a high convergence rate which is viewed as an effect of the function of a density function. The estimate considered a non-invasive perspective, and it helps in different applications such as health diagnosis in humans and animals with internal problems, or systems which are unknown for internal evolution such as for IoT model adoption. Therefore, our objective is to propose a black box, inner approximation through the parameter estimation without a no invasive stochastic method based in Wiener approximation.

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2

Debonnel, Guy, Michel Weiss, and Claude de Montigny. "Reduced neuroexcitatory effect of domoic acid following mossy fiber denervation of the rat dorsal hippocampus: further evidence that toxicity of domoic acid involves kainate receptor activation." Canadian Journal of Physiology and Pharmacology 67, no. 8 (August 1, 1989): 904–8. http://dx.doi.org/10.1139/y89-142.

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Domoic acid, an excitatory amino acid structurally related to kainic acid, has been shown to be responsible for the severe intoxication presented, in 1987, by more than one hundred and fifty people having eaten mussels grown in Prince Edward Island (Canada). Unitary extracellular recordings were obtained from pyramidal neurons of the CA3 region of the rat dorsal hippocampus. The excitatory effects of microiontophoretic applications of domoic acid and of the agonists of the two other subtypes of glutamatergic receptors, quisqualate and N-methyl-D-aspartate, were compared on intact and colchicine-lesioned sides. Similar to what has been previously found for kainate, the colchicine lesion of the mossy fiber projections induced a 95% decrease of the neuronal responsiveness to domoic acid, whereas the effect of quisqualate was unchanged and that of N-methyl-D-aspartate was only slightly decreased. These results provide further electrophysiological evidence that domoic acid is a potent agonist of kainate receptors and that it may produce its neuroexcitatory and neurotoxic effects, in the hippocampal CA3 region, through activation of kainate receptors located on the mossy fiber terminals.Key words: domoic acid, kainic acid, glutamic acid, N-methyl-D-aspartic acid, quisqualic acid, dorsal hippocampus, neurotoxins.

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Debonnel, Guy, Luc Beauchesne, and Claude de Montigny. "Domoic acid, the alleged "mussel toxin," might produce its neurotoxic effect through kainate receptor activation: an electrophysiological study in the rat dorsal hippocampus." Canadian Journal of Physiology and Pharmacology 67, no. 1 (January 1, 1989): 29–33. http://dx.doi.org/10.1139/y89-005.

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Domoic acid, an excitatory amino acid structurally related to kainate, was recently identified as being presumably responsible for the recent severe intoxication presented by more than 100 people having eaten mussels grown in Prince Edward Island (Canada). The amino acid kainate has been shown to be highly neurotoxic to the hippocampus, which is the most sensitive structure in the central nervous system. The present in vivo electrophysiological studies were undertaken to determine if domoic acid exerts its neurotoxic effect via kainate receptor activation. Unitary extracellular recordings were obtained from pyramidal neurons of the CA1 and the CA3 regions of the rat dorsal hippocampus. The excitatory effect of domoic acid applied by microiontophoresis was compared with that of agonists of the three subtypes of glutamatergic receptors: kainate, quisqualate, and N-methyl-D-aspartate. In CA1, the activation induced by domoic acid was about threefold greater than that induced by kainate; identical concentrations and similar currents were used. In CA3, domoic acid was also three times more potent than kainate. However, the most striking finding was that domoic acid, similar to kainate, was more than 20-fold more potent in the CA3 than in the CA1 region, whereas no such regional difference could be detected with quisqualate and N-methyl-D-aspartate. As the differential regional response of CA1 and CA3 pyramidal neurons to kainate is attributable to the extremely high density of kainate receptors in the CA3 region, these results provide the first electrophysiological evidence that domoic acid may produce its neurotoxic effects through kainate receptor activation.Key words: domoate, kainate, excitotoxin, hippocampus, N-methyl-D-aspartate.

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4

Johannessen, Jan N. "Stability of Domoic Acid in Saline Dosing Solutions." Journal of AOAC INTERNATIONAL 83, no. 2 (March 1, 2000): 411–12. http://dx.doi.org/10.1093/jaoac/83.2.411.

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Abstract Studies designed to assess the effects of repeated low doses of domoic acid require an assessment of its stability in solution under the conditions used for in vivo studies. The stability of 1 mg/mL solutions of domoic acid in saline, with or without ascorbic acid, was determined for 15 weeks. Solutions were refrigerated, but warmed to room temperature for several hours each working day to simulate conditions of actual use. The solutions of domoic acid showed no evidence of decomposition as evidenced by stability of UV absorbance spectrum, concentration of domoic acid as determined by a liquid chromatographic method, and the chromatographic elution pattern. The addition of ascorbate to the domoic acid/saline solution did not alter the stability, but was deemed unnecessary because of the firm stability of the domoic acid/saline solution.

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5

Falk, Michael, Ping F. Seto, and John A. Walter. "Solubility of domoic acid in water and in non-aqueous solvents." Canadian Journal of Chemistry 69, no. 11 (November 1, 1991): 1740–44. http://dx.doi.org/10.1139/v91-255.

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The solubility of domoic acid (DA) in H2O and D2O, in aqueous NaCl solution and in several non-aqueous solvents was measured by NMR and UV spectroscopies. The solubility in water is comparable with that of aminoacids such as glutamic acid and aspartic acid. It is markedly pH-dependent, passing through a minimum at the isoelectric point, the increase towards both higher and lower pH values indicating that the anionic and cationic forms are more soluble than the neutral form. The effect of NaCl on the solubility of DA in water is negligible. The solubility of DA in alcohols is lower than in water but it is much higher than the solubility of glutamic acid or aspartic acid. The octanol–water partition coefficient for DA at pH 5.32, Kow = 0.0037, was obtained by a direct UV measurement. The low value of Kow indicates that aquatic organisms cannot take up DA directly from the water and bioaccumulation may proceed only through dietary intake. Key words: solubility of domoic acid, NMR of domoic acid, UV spectra of domoic acid, octanol–water partition coefficient of domoic acid.

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6

Novaczek, I., M. S. Madhyastha, R. F. Ablett, A. Donald, G. Johnson, M. S. Nijjar, and D. E. Sims. "Depuration of Domoic Acid from Live Blue Mussels (Mytilus edulis)." Canadian Journal of Fisheries and Aquatic Sciences 49, no. 2 (February 1, 1992): 312–18. http://dx.doi.org/10.1139/f92-035.

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Industrial depuration may provide a means of removing domoic acid toxin from blue mussels (Mytilus edulis). Mussels containing up to 50 μg domoic acid∙g−1 were transported from a Prince Edward Island estuary into controlled laboratory conditions to test the effects of temperature, salinity, mussel size, and feeding upon depuration. Fifty percent of toxin was eliminated within 24 h. After 72 h, mussels were either clean or contained, on average, only residual levels of toxin (< 5 μg∙g−1), regardless of conditions. Exponential depuration curves were fitted to the domoic acid concentration data. To evaluate differences in rate of depuration under various conditions, statistical comparisons were made between slopes of the clearance curves. Rates of depuration were faster in small (45–55 mm) than in large mussels (60–70 mm) and more rapid at 11 than at 6 °C. There was no significant difference in depuration rate at 18‰ salinity as opposed to 28‰ or in starved versus fed mussels. Because of their relatively large digestive glands, meats of small mussels contained more toxin per unit weight than meats of large mussels. The bulk of domoic acid appeared to reside in the gut lumen. However, the presence of small amounts of domoic acid in intracellular compartments cannot be ruled out.

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7

Corno, Fulvio, and Faisal Razzak. "SAT based enforcement of domotic effects in smart environments." Journal of Ambient Intelligence and Humanized Computing 5, no. 4 (April 23, 2013): 565–79. http://dx.doi.org/10.1007/s12652-013-0183-x.

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8

Garroppo, Rosario G., Loris Gazzarrini, Stefano Giordano, and Luca Tavanti. "Experimental Evaluation of a SIP-Based Home Gateway with Multiple Wireless Interfaces for Domotics Systems." Journal of Computer Networks and Communications 2012 (2012): 1–15. http://dx.doi.org/10.1155/2012/190639.

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In modern houses, the presence of sensors and actuators is increasing, whilecommunication servicesandentertainment systemshad long since settled into everyday life. The utilization of wireless communication technologies, such as ZigBee, Wi-Fi, and Bluetooth, is attractive because of their short installation times and low costs. The research is moving towards the integration of the various home appliances and devices into a single domotics system, able to exploit the cooperation among the diverse subsystems and offer the end-user a single multiservice platform. In this scenario, the paper presents the experimental evaluation of a domotics framework centered on a SIP-based home gateway (SHG). While SIP is used to build a common control plane, the SHG is in charge of translating the user commands from and to the specific domotics languages. The analysis has been devoted to assess both the performance of the SHG software framework and the negative effects produced by the simultaneous interference among the three widespread wireless technologies.

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Morgavi, Giovanna. "A Virtual Village Network Architecture for improving the elderly people quality of life." Inteligencia Artificial 18, no. 55 (June 18, 2015): 26. http://dx.doi.org/10.4114/intartif.vol18iss55pp26-34.

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Elder people often feel pushed to the margins by the generational shift and suffer from loss of identity and hence they lose motivation, recognition and self-esteem: they are often considered to be no longer capable of performing any service. This paper proposes an ICT network architecture oriented to improve the quality of life of elderly people and their caregivers focused on the user need satisfaction and reducing negative feelings like insecurity, vulnerability, loneliness and depression. This Virtual Village Network architecture is organized on 3 levels: 1. the Virtual Service Centre (VSC) that, through a proper home interface, carries out the support, the monitoring, the prevention and the social facilitation; 2. the Intelligent Domotic Health Networks (DHN) a domotic modular network with high local evaluation ability through which the VSC can monitor the home and/or the user’s state of wellness and of health ; 3. the Dynamical Village Network (DVN) that is an ICT network of users. The idea is to build an ICT network of “virtual social neighbours” facilitating user relationships, able to have positive influences on the interactive abilities and self-image of the elderly, and to prevent or overcome solitude, isolation and their negative effects on the elderly person’s overall quality of life and health. The whole architecture is pervaded by strict attention paid to security and privacy.

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10

Ventoso, Pablo, Antonio J. Pazos, M. Luz Pérez-Parallé, Juan Blanco, Juan C. Triviño, and José L. Sánchez. "Aequipecten opercularis) Digestive Gland after Exposure to Domoic Acid-Producing Pseudo-nitzschia." Toxins 11, no. 2 (February 6, 2019): 97. http://dx.doi.org/10.3390/toxins11020097.

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Some species of the genus Pseudo-nitzschia produce the toxin domoic acid, which causes amnesic shellfish poisoning (ASP). Given that bivalve mollusks are filter feeders, they can accumulate these toxins in their tissues. To elucidate the transcriptional response of the queen scallop Aequipecten opercularis after exposure to domoic acid-producing Pseudo-nitzschia, the digestive gland transcriptome was de novo assembled using an Illumina HiSeq 2000 platform. Then, a differential gene expression analysis was performed. After the assembly, 142,137 unigenes were obtained, and a total of 10,144 genes were differentially expressed in the groups exposed to the toxin. Functional enrichment analysis found that 374 Pfam (protein families database) domains were significantly enriched. The C1q domain, the C-type lectin, the major facilitator superfamily, the immunoglobulin domain, and the cytochrome P450 were among the most enriched Pfam domains. Protein network analysis showed a small number of highly connected nodes involved in specific functions: proteasome components, mitochondrial ribosomal proteins, protein translocases of mitochondrial membranes, cytochromes P450, and glutathione S-transferases. The results suggest that exposure to domoic acid-producing organisms causes oxidative stress and mitochondrial dysfunction. The transcriptional response counteracts these effects with the up-regulation of genes coding for some mitochondrial proteins, proteasome components, and antioxidant enzymes (glutathione S-transferases, thioredoxins, glutaredoxins, and copper/zinc superoxide dismutases).

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Dissertations / Theses on the topic "Domotic Effect"

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Knierim, Tika L. "The photodegradation of domoic acid and the effects of metal chelation /." Electronic version (PDF), 2005. http://dl.uncw.edu/etd/2005/knierimt/tikaknierim.html.

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McCollough, Bianca. "Toxic algae and other marine biota: detection, mitigation, prevention and effects on the food industry." Kansas State University, 2016. http://hdl.handle.net/2097/32490.

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Master of Science
Food Science Institute
Curtis Kastner
Harmful Algal Blooms (HABs) including Cyanobacteria and other toxic marine biota are responsible for similar harmful effects on human health, food safety, ecosystem maintenance, economic losses and liability issues for aquaculture farms as well as the food industry. Detection, monitoring and mitigation are all key factors in decreasing the deleterious effects of these toxic algal blooms. Harmful algal blooms can manifest toxic effects on a number of facets of animal physiology, elicit noxious taste and odor events and cause mass fish as well as animal kills. Such blooms can adversely impact the perception of the efficacy and safety of the food industry, water utilities, the quality of aquaculture and land farming products, as well as cause ripple effects experienced by coastal communities. HABs can adversely impact coastal areas and other areas reliant on local aquatic ecosystems through the loss of revenues experienced by local restaurants, food manufacturers as well as seafood harvesting/processing plants; loss of tourism revenue, decreased property values and a fundamental shift in the lives of those that are reliant upon those industries for their quality of life. This paper discusses Cyanobacteria, macroalgae, HABs, Cyanobacteria toxins, mitigation of HAB populations and their products as well as the ramifications this burgeoning threat to aquatic/ landlocked communities including challenges these toxic algae pose to the field of food science and the economy.

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Books on the topic "Domotic Effect"

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Brown, Jennifer Ann. Effects of kainic and domoic acids on the release of glutamate and aspartate from rat brain synaptosomes. Charlottetown: University of Prince Edward Island, 1992.

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2

Brown, Jennifer Ann. Effects of kainic and domoic acids on the release of glutamate and aspartate from the rat brain synsptosomes. Ottawa: National Library, 1992.

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3

Nakagawa, Kazuma. Neurological Effects of Marine Toxins. Oxford University Press, 2017. http://dx.doi.org/10.1093/med/9780199937837.003.0178.

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Human ingestion of marine toxins can produce various neurological effects, often involving the voltage-gated Na+ channels that are critical for action potential generation and propagation. Diagnosis for most marine neurotoxin is made clinically, and thus recognizing the signs and symptoms of each toxin, and obtaining the appropriate history, is essential. Major marine neurotoxins-tetrodotoxin, saxitoxin, ciguatoxin, brevetoxin, and domoic acid, have a distinct mechanism and clinical manifestation.

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4

Grimmelt, Bryan. Analysis and purification of domoic acid from the blue mussel (Mytilus edulis), its relationship to toxicity and effects on calcium uptake. Charlottetown, PEI, 1990.

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5

Analysis and purification of domoic acid from the blue mussel (Mytilus edulis), its relationship to toxicity and effects on calcium uptake. Ottawa: National Library of Canada, 1990.

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Book chapters on the topic "Domotic Effect"

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"Domoic Acid: Biological Effects and Health Implications." In Toxins and Biologically Active Compounds from Microalgae, Volume 2, 235–68. CRC Press, 2014. http://dx.doi.org/10.1201/b16806-13.

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2

Rubio, Carmen, Artemio Rosiles-Abonce, Elisa Taddei, and Moisés Rubio-Osornio. "Neurotoxicity and Epileptogenesis." In Neurotoxicity - New Advances. IntechOpen, 2022. http://dx.doi.org/10.5772/intechopen.103687.

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Many neurotoxic substances produce toxic effects on the nervous system. Given the neurotoxic substances found in the human body, certain people have been regarded as having a propensity to epileptic seizures. In many situations, the neurotransmission processes of these toxins are similar to the physiopathology of epilepsy. Epileptic models have been developed to induce seizures in animals, allowing researchers to study convulsive seizure mechanisms. Pentylenetetrazol, kainic acid, pilocarpine, penicillin, aluminum, bicuculline, picrotoxine, 4-aminopyridine, strictine, domoic acid, and other compounds fall under this category. However, there are some drugs used in clinical practice that can cause neurotoxicity as well. In this chapter, the predominant substances and drugs involved in epileptogenesis through neurotoxicity effects are reviewed. Throughout this chapter, we attempt to describe the mechanisms documented in the literature, in which epileptic seizures cause neurotoxicity in the brain by themselves, as shown with excitotoxicity mediated by glutamate and ions involved.

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Conference papers on the topic "Domotic Effect"

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Campanile, Lelio, Mauro Iacono, Fiammetta Marulli, Marco Gribaudo, and Michele Mastrioianni. "A DSL-based modeling approach for energy harvesting IoT/WSN." In 36th ECMS International Conference on Modelling and Simulation. ECMS, 2022. http://dx.doi.org/10.7148/2022-0317.

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The diffusion of intelligent services and the push for the integration of computing systems and services in the environment in which they operate require a constant sensing activity and the acquisition of different information from the environment and the users. Health monitoring, domotics, Industry 4.0 and environmental challenges leverage the availability of cost-effective sensing solutions that allow both the creation of knowledge bases and the automatic process of them, be it with algorithmic approaches or artificial intelligence solutions. The foundation of these solutions is given by the Internet of Things (IoT), and the substanding Wireless Sensor Networks (WSN) technology stack. Of course, design approaches are needed that enable defining efficient and effective sensing infrastructures, including energy related aspects. In this paper we present a Domain Specific Language for the design of energy aware WSN IoT solutions, that allows domain experts to define sensor network models that may be then analyzed by simulation-based or analytic techniques to evaluate the effect of task allocation and offloading and energy harvesting and utilization in the network. The language has been designed to leverage the SIMTHESys modeling framework and its multiformalism modeling evaluation features.

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