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6 results on '"Arché-Núñez, Ana"'

3. Polystyrene nanopillars with inbuilt carbon nanotubes enable synaptic modulation and stimulation in interfaced neuronal networks

Author

Calaresu, Ivo, Hernández, Jaime, Rauti, Rossana, Rodilla, Beatriz L., Arché-Núñez, Ana, Pérez García, Lucas, Camarero, Julio, Miranda, Rodolfo, González, M. Teresa, Rodríguez, Isabel, Scaini, Denis, Ballerini, Laura, Calaresu, Ivo, Hernández, Jaime, Rauti, Rossana, Rodilla, Beatriz L., Arché-Núñez, Ana, Pérez García, Lucas, Camarero, Julio, Miranda, Rodolfo, González, M. Teresa, Rodríguez, Isabel, Scaini, Denis, and Ballerini, Laura

Abstract

©2021 The Authors. Advanced Materials Interfaces published by Wiley-VCH GmbH This work was performed within the framework of the ByAXON project funded by the European Union's Horizon 2020 FET Open program under grant agreement No. 737116. The work was partially funded by the Spanish Ministry of Science and Innovation through project BiSURE (Grant DPI2017-90058-R) and the "Severo Ochoa" Programme for Centres of Excellence in R&D (MINECO, Grant SEV-2016-0686). D.S. acknowledges the support of the European Union's Horizon 2020 research and innovation program under the Marie Skodowska-Curie grant agreement no. 838902. M. A. Monclus and J. M. Molina-Aldareguia from IMDEA Materials are acknowledged for the nanoindentation testing., The use of nanostructured materials and nanosized-topographies has the potential to impact the performance of implantable biodevices, including neural interfaces, enhancing their sensitivity and selectivity, while reducing tissue reactivity. As a result, current trends in biosensor technology require the effective ability to improve devices with controlled nanostructures. Nanoimprint lithography to pattern surfaces with high-density and high aspect ratio nanopillars (NPs) made of polystyrene (PS-NP, insulating), or of a polystyrene/carbon-nanotube nanocomposite (PS-CNT-NP, electrically conductive) are exploited. Both substrates are challenged with cultured primary neurons. They are demonstrated to support the development of suspended synaptic networks at the NPs' interfaces characterized by a reduction in proliferating neuroglia, and a boost in neuronal emergent electrical activity when compared to flat controls. The authors successfully exploit their conductive PS-CNT-NPs to stimulate cultured cells electrically. The ability of both nanostructured surfaces to interface tissue explants isolated from the mouse spinal cord is then tested. The integration of the neuronal circuits with the NP topology, the suspended nature of the cultured networks, the reduced neuroglia formation, and the higher network activity together with the ability to deliver electrical stimuli via PS-CNT-NP reveal such platforms as promising designs to implement on neuro-prosthetic or neurostimulation devices., Unión Europea. Horizonte 2020, Ministerio de Ciencia e Innovación (MICINN), Centros de Excelencia Severo Ochoa (MINECO), Depto. de Física de Materiales, Fac. de Ciencias Físicas, TRUE, pub

Published
2021

4. Polystyrene Nanopillars with Inbuilt Carbon Nanotubes Enable Synaptic Modulation and Stimulation in Interfaced Neuronal Networks

Author

Calaresu, Ivo, primary, Hernandez, Jaime, additional, Rauti, Rossana, additional, Rodilla, Beatriz L., additional, Arché‐Núñez, Ana, additional, Perez, Lucas, additional, Camarero, Julio, additional, Miranda, Rodolfo, additional, González, M. Teresa, additional, Rodríguez, Isabel, additional, Scaini, Denis, additional, and Ballerini, Laura, additional

Published
2021
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5. Interfacing Neurons with Nanostructured Electrodes Modulates Synaptic Circuit Features

Author

Domínguez‐Bajo, Ana, primary, Rodilla, Beatriz Loreto, additional, Calaresu, Ivo, additional, Arché‐Núñez, Ana, additional, González‐Mayorga, Ankor, additional, Scaini, Denis, additional, Pérez, Lucas, additional, Camarero, Julio, additional, Miranda, Rodolfo, additional, López‐Dolado, Elisa, additional, González, María Teresa, additional, Ballerini, Laura, additional, and Serrano, María Concepción, additional

Published
2020
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6. Bio-potential noise of dry printed electrodes: physiology versus the skin-electrode impedance.

Author

Arché-Núñez A, Krebsbach P, Levit B, Possti D, Gerston A, Knoll T, Velten T, Bar-Haim C, Oz S, Klorfeld-Auslender S, Hernandez-Sosa G, Mirelman A, and Hanein Y

Subjects
Electric Impedance, Electrodes, Skin Physiological Phenomena
Abstract

Objective . To explore noise characteristics and the effect physiological activity has on the link between impedance and noise. Approach . Dry-printed electrodes are emerging as a new and exciting technology for skin electro-physiology. Such electrode arrays offer many advantages including user convenience, quick placement, and high resolution. Here we analyze extensive electro-physiological data recorded from the arm and the face to study and quantify the noise of dry electrodes, and to characterize the link between noise and impedance. In particular, we studied the effect of the physiological state of the subject (e.g. rapid eye movement sleep) on noise. Main results . We show that baseline noise values extracted from dry electrodes in the arm are in agreement with the Nyquist equation. In the face, on the other hand, the measured noise values were higher than the values predicted by the Nyquist equation. In addition, we studied how different electrode properties affect performances, including electrode size, shape, and material properties. Significance . Altogether, the results presented here provide a basis for understanding dry electrode performances and substantiate their great potential in electro-physiological investigations., (Creative Commons Attribution license.)

Published
2023
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