SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2899489110> ?p ?o ?g. }

Showing items 1 to 100 of ±160 with 100 items per page.

W2899489110 endingPage "016023" @default.
W2899489110 startingPage "016023" @default.
W2899489110 abstract "The performance of cochlear implant (CI) listeners is limited by several factors among which the lack of spatial selectivity of the electrical stimulation. Recently, many studies have explored the use of multipolar strategies where several electrodes are stimulated simultaneously to focus the electrical field in a restricted region of the cochlea.These strategies are based on several assumptions concerning the electrical properties of the inner ear that need validation. The first, often implicit, assumption is that the medium is purely resistive and that the current waveforms produced by several electrodes sum linearly. The second assumption relates to the estimation of the contribution of each electrode to the overall electrical field. These individual contributions are usually obtained by stimulating each electrode and measuring the resulting voltage with the other inactive electrodes (i.e. the impedance matrix). However, measuring the voltage on active electrodes (i.e. the diagonal of the matrix) is not straightforward because of the polarization of the electrode-fluid interface. In existing multipolar strategies, the diagonal terms of the matrix are therefore inferred using linear extrapolation from measurements made at neighboring electrodes.In experiment 1, several impedance measurements were carried out in vitro and in eight CI users using sinusoidal and pulsatile waveforms to test the resistivity and linearity hypotheses. In experiment 2, we used an equivalent electrical model including a constant phase element in order to isolate the polarization component of the contact impedance.In experiment 1, high-resolution voltage recordings (1.1 MHz sampling) showed the resistivity assumption to be valid at 46.4 kHz, the highest frequency tested. However, these measures also revealed the presence of parasitic capacitive effects at high frequency that could be deleterious to multipolar strategies. Experiment 2 showed that the electrical model provides a better account of the high-resolution impedance measurements than previous approaches in the CI field that used resistor-capacitance circuit models.These results validate the main hypotheses underlying the use of multipolar stimulation but also suggest possible modifications to their implementation, including the use of an impedance model and the modification of the electrical pulse waveform." @default.
W2899489110 created "2018-11-09" @default.
W2899489110 creator A5029787493 @default.
W2899489110 creator A5058672052 @default.
W2899489110 creator A5068770413 @default.
W2899489110 creator A5069513722 @default.
W2899489110 date "2019-01-09" @default.
W2899489110 modified "2023-10-06" @default.
W2899489110 title "Impedance measures for a better understanding of the electrical stimulation of the inner ear" @default.
W2899489110 cites W1596247996 @default.
W2899489110 cites W1966023402 @default.
W2899489110 cites W1967656196 @default.
W2899489110 cites W1969418801 @default.
W2899489110 cites W1974867806 @default.
W2899489110 cites W1976854186 @default.
W2899489110 cites W1982746788 @default.
W2899489110 cites W1984048709 @default.
W2899489110 cites W1998032833 @default.
W2899489110 cites W2006097069 @default.
W2899489110 cites W2012385437 @default.
W2899489110 cites W2013281747 @default.
W2899489110 cites W2013304858 @default.
W2899489110 cites W2014886814 @default.
W2899489110 cites W2016945782 @default.
W2899489110 cites W2024943572 @default.
W2899489110 cites W2027198478 @default.
W2899489110 cites W2032870689 @default.
W2899489110 cites W2040692275 @default.
W2899489110 cites W2042438728 @default.
W2899489110 cites W2043103378 @default.
W2899489110 cites W2043479043 @default.
W2899489110 cites W2055074629 @default.
W2899489110 cites W2055554933 @default.
W2899489110 cites W2059770295 @default.
W2899489110 cites W2061357834 @default.
W2899489110 cites W2064983351 @default.
W2899489110 cites W2065830381 @default.
W2899489110 cites W2065882547 @default.
W2899489110 cites W2069383759 @default.
W2899489110 cites W2078663284 @default.
W2899489110 cites W2084193319 @default.
W2899489110 cites W2089722856 @default.
W2899489110 cites W2090342778 @default.
W2899489110 cites W2090948718 @default.
W2899489110 cites W2092864270 @default.
W2899489110 cites W2094412234 @default.
W2899489110 cites W2101126957 @default.
W2899489110 cites W2105057076 @default.
W2899489110 cites W2109738157 @default.
W2899489110 cites W2126012359 @default.
W2899489110 cites W2128164057 @default.
W2899489110 cites W2165171071 @default.
W2899489110 cites W2168805786 @default.
W2899489110 cites W2171074980 @default.
W2899489110 cites W2175672411 @default.
W2899489110 cites W2257936007 @default.
W2899489110 cites W2433822421 @default.
W2899489110 cites W2513236639 @default.
W2899489110 cites W2749150174 @default.
W2899489110 cites W2766073307 @default.
W2899489110 cites W2766660139 @default.
W2899489110 cites W4240629939 @default.
W2899489110 cites W4250614590 @default.
W2899489110 doi "https://doi.org/10.1088/1741-2552/aaecff" @default.
W2899489110 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/30523898" @default.
W2899489110 hasPublicationYear "2019" @default.
W2899489110 type Work @default.
W2899489110 sameAs 2899489110 @default.
W2899489110 citedByCount "13" @default.
W2899489110 countsByYear W28994891102019 @default.
W2899489110 countsByYear W28994891102020 @default.
W2899489110 countsByYear W28994891102021 @default.
W2899489110 countsByYear W28994891102022 @default.
W2899489110 countsByYear W28994891102023 @default.
W2899489110 crossrefType "journal-article" @default.
W2899489110 hasAuthorship W2899489110A5029787493 @default.
W2899489110 hasAuthorship W2899489110A5058672052 @default.
W2899489110 hasAuthorship W2899489110A5068770413 @default.
W2899489110 hasAuthorship W2899489110A5069513722 @default.
W2899489110 hasBestOaLocation W28994891103 @default.
W2899489110 hasConcept C119599485 @default.
W2899489110 hasConcept C121332964 @default.
W2899489110 hasConcept C124579511 @default.
W2899489110 hasConcept C127413603 @default.
W2899489110 hasConcept C147789679 @default.
W2899489110 hasConcept C165801399 @default.
W2899489110 hasConcept C17525397 @default.
W2899489110 hasConcept C17829176 @default.
W2899489110 hasConcept C185592680 @default.
W2899489110 hasConcept C192562407 @default.
W2899489110 hasConcept C197424946 @default.
W2899489110 hasConcept C205049153 @default.
W2899489110 hasConcept C24890656 @default.
W2899489110 hasConcept C2778882171 @default.
W2899489110 hasConcept C41008148 @default.
W2899489110 hasConcept C52859227 @default.
W2899489110 hasConcept C548259974 @default.
W2899489110 hasConcept C62520636 @default.