Towards an active bypass for neural reconnection

Informazioni relative al progetto

ByAxon

ID dell’accordo di sovvenzione: 737116

Sito web del progetto

DOI

10.3030/737116

Progetto chiuso

Data della firma CE 13 Dicembre 2016

Data di avvio 1 Gennaio 2017

Data di completamento 31 Dicembre 2020

Finanziato da

EXCELLENT SCIENCE - Future and Emerging Technologies (FET)

Costo totale

€ 3 752 057,50

Contributo UE

€ 3 752 057,50

3 752 057,50

Coordinato da

FUNDACION IMDEA NANOCIENCIA
Spain

CORDIS fornisce collegamenti ai risultati finali pubblici e alle pubblicazioni dei progetti ORIZZONTE.

I link ai risultati e alle pubblicazioni dei progetti del 7° PQ, così come i link ad alcuni tipi di risultati specifici come dataset e software, sono recuperati dinamicamente da .OpenAIRE .

Risultati finali

First four-bridge magnetic sensor

Design, fabrication and first characterization in EM shielded environment of a first version of a magnetic sensor formed by four LSMO based anisotropic magnetoresistance elements

Functional artificial neuron

Assembly of an artificial neuron: an electronic device that will generate an electrical signal equivalent to that of a neuron in magnitude and temporal scale. This will be used as testing workbench of the magnetic-field sensors.

Bypass prototype

Bypass prototype using the developed sensors and stimulating electrodes

First nanostructured electrode

Fabrication of a first version of nanowire-coated elements using template-assisted electrochemical deposition

First nanostructured electrode on neuron-accesible substrates

Fabrication of a nanowire-coated element on a substrate suitable for accesing a neural sample

Social network sites

We will create a Linked-In group, and Facebook and Twitter profiles. Using as starting point the already existing networks of MFD, we will be invite representatives from the healthcare industry to join it. We will identify, join and actively contribute to other existing social-network groups related to brain-machine interfaces, especially those applied to spinal cord injuries.

Four non-specialists lectures

We will give at least one scientific dissemination lecture per year

Organization of several events for dissemination

Every year, we will participate in several dissemination events as Open Days, Researcher’s Night, and local Science Weeks.

Website and project logo

A website will be open with the project logo, and will be continuously updated

Public report on biocompatibility in vitro 2

Second public report on the results of our biocompatibility studies of the magnetic sensors and nanostructured electrodes.

Public report on biocompatibility in vitro 3

Third public report on the results of our biocompatibility studies of the magnetic sensors and nanostructured electrodes

Dissemination and Exploitation Plan

We will create a Dissemination and Exploitation Plan

Report on electrophysiological tests 2

Updated report on the performance of the fabricated magnetic-field sensors and nanostructured contacts in organotypic cultures.

Public report on the bypass elements performance in organotypic systems

A public report on the ability to interface signalling with high resolution in organotypic systems

Public report summarizing results of the biocompatibility in vitro

A public report on the biocompatibility in vitro of the fabricated nanomaterial-based devices

Public report on device development

Public report about the development and performance of the new neural interfaces

Report on the magnetic sensor and nanostructured electrode development

Reports on the status of the magnetic sensors and nanowire-coated electrodes development.

Public report on device development and performance

Public report about the development and performance of the new neural interfaces

Report on the bypass elements performance in vitro

Report on the performance of the nanostructured electrodes for sensing and triggering synaptic signals both in individual neurons and in organotypic spinal cord cultures. A second updated report will be produced in month 48.

Public report on the magnetic sensors and nanostructured electrodes development

A public report about the development status of both the magnetic sensors and the nanowire-coated electrodes

Public report on biocompatibility in vitro 1

First public report on the results of our biocompatibility studies of the magnetic sensors and nanostructured electrodes

Pubblicazioni

Foetal neural progenitors contribute to postnatal circuits formation ex vivo: an electrophysiological investigation

Autori: Matteo Manzati, Teresa Sorbo, Michele Giugliano, Laura Ballerini
Pubblicato in: Molecular Brain, Numero 13/1, 2020, Pagina/e 78, ISSN 1756-6606
Editore: BioMed Central
DOI: 10.1186/s13041-020-00619-z

Interfacing Neurons with Nanostructured Electrodes Modulates Synaptic Circuit Features

Autori: Ana Domínguez‐Bajo, Beatriz Loreto Rodilla, Ivo Calaresu, Ana Arché‐Núñez, Ankor González‐Mayorga, Denis Scaini, Lucas Pérez, Julio Camarero, Rodolfo Miranda, Elisa López‐Dolado, María Teresa González, Laura Ballerini, María Concepción Serrano
Pubblicato in: Advanced Biosystems, Numero 4/9, 2020, Pagina/e 2000117, ISSN 2366-7478
Editore: Wiley Online Library
DOI: 10.1002/adbi.202000117

Hybrid Interfaces Made of Nanotubes and Backbone-Altered Dipeptides Tune Neuronal Network Architecture

Autori: Bhimareddy Dinesh, Manuela Medelin, Denis Scaini, Federica Lareno Faccini, Federica Quici, Laura Ballerini, Alberto Bianco
Pubblicato in: ACS Chemical Neuroscience, Numero 11/2, 2019, Pagina/e 162-172, ISSN 1948-7193
Editore: American Chemical Society
DOI: 10.1021/acschemneuro.9b00522

Functional rewiring across spinal injuries via biomimetic nanofiber scaffolds

Autori: Sadaf Usmani, Audrey Franceschi Biagioni, Manuela Medelin, Denis Scaini, Raffaele Casani, Emily R. Aurand, Daniel Padro, Ander Egimendia, Pedro Ramos Cabrer, Manuela Scarselli, Maurizio De Crescenzi, Maurizio Prato, Laura Ballerini
Pubblicato in: Proceedings of the National Academy of Sciences, Numero 117/41, 2020, Pagina/e 25212-25218, ISSN 0027-8424
Editore: National Academy of Sciences
DOI: 10.1073/pnas.2005708117

Sculpting neurotransmission during synaptic development by 2D nanostructured interfaces

Autori: Niccolò Paolo Pampaloni, Denis Scaini, Fabio Perissinotto, Susanna Bosi, Maurizio Prato, Laura Ballerini
Pubblicato in: Nanomedicine: Nanotechnology, Biology and Medicine, Numero 14/7, 2018, Pagina/e 2521-2532, ISSN 1549-9634
Editore: Elsevier BV
DOI: 10.1016/j.nano.2017.01.020

Chemically Cross-Linked Carbon Nanotube Films Engineered to Control Neuronal Signaling

Autori: Myriam Barrejón, Rossana Rauti, Laura Ballerini, Maurizio Prato
Pubblicato in: ACS Nano, Numero 13/8, 2019, Pagina/e 8879-8889, ISSN 1936-0851
Editore: American Chemical Society
DOI: 10.1021/acsnano.9b02429

Engineering Large Anisotropic Magnetoresistance in La 0.7 Sr 0.3 MnO 3 Films at Room Temperature

Autori: Paolo Perna, Davide Maccariello, Fernando Ajejas, Ruben Guerrero, Laurence Méchin, Stephane Flament, Jacobo Santamaria, Rodolfo Miranda, Julio Camarero
Pubblicato in: Advanced Functional Materials, Numero 27/26, 2017, Pagina/e 1700664, ISSN 1616-301X
Editore: John Wiley & Sons Ltd.
DOI: 10.1002/adfm.201700664

Favorable Biological Responses of Neural Cells and Tissue Interacting with Graphene Oxide Microfibers

Autori: Ankor González-Mayorga, Elisa López-Dolado, María C. Gutiérrez, Jorge E. Collazos-Castro, M. Luisa Ferrer, Francisco del Monte, María C. Serrano
Pubblicato in: ACS Omega, Numero 2/11, 2017, Pagina/e 8253-8263, ISSN 2470-1343
Editore: ACS Omega
DOI: 10.1021/acsomega.7b01354

Nanostructures to Engineer 3D Neural-Interfaces: Directing Axonal Navigation toward Successful Bridging of Spinal Segments

Autori: Emily R. Aurand, Sadaf Usmani, Manuela Medelin, Denis Scaini, Susanna Bosi, Federica B. Rosselli, Sandro Donato, Giuliana Tromba, Maurizio Prato, Laura Ballerini
Pubblicato in: Advanced Functional Materials, Numero 28/12, 2018, Pagina/e 1700550, ISSN 1616-301X
Editore: John Wiley & Sons Ltd.
DOI: 10.1002/adfm.201700550

Room temperature biaxial magnetic anisotropy in La 0.67 Sr 0.33 MnO 3 thin films on SrTiO 3 buffered MgO (001) substrates for spintronic applications

Autori: Sandeep Kumar Chaluvadi, Fernando Ajejas, Pasquale Orgiani, Olivier Rousseau, Giovanni Vinai, Aleksandr Yu Petrov, Piero Torelli, Alain Pautrat, Julio Camarero, Paolo Perna, Laurence Mechin
Pubblicato in: Applied Physics Letters, Numero 113/5, 2018, Pagina/e 052403, ISSN 0003-6951
Editore: American Institute of Physics
DOI: 10.1063/1.5020072

Transparent carbon nanotubes promote the outgrowth of enthorino‐dentate projections in lesioned organ slice cultures

Autori: Niccolò P. Pampaloni, Ilaria Rago, Ivo Calaresu, Luca Cozzarini, Loredana Casalis, Andrea Goldoni, Laura Ballerini, Denis Scaini
Pubblicato in: Developmental Neurobiology, Numero 80/9-10, 2020, Pagina/e 316-331, ISSN 1932-8451
Editore: John Wiley & Sons Inc.
DOI: 10.1002/dneu.22711

Diseño y desarrollo de biomateriales para la reparación de la médula espinal lesionada

Autori: Domínguez-Bajo, Ana
Pubblicato in: Design and development of biomaterials for spinal cord injury repair, 2020
Editore: DIGITAL.CSIC

Magnetic Sensors Based on AMR Effect in LSMO Thin Films

Autori: Olivier Rousseau, Stéphane Flament, Bruno Guillet, Marc Lam Chok Sing, Laurence Méchin
Pubblicato in: Proceedings, Numero 1/4, 2017, Pagina/e 635, ISSN 2504-3900
Editore: Proceedings of Eurosensors 2017
DOI: 10.3390/proceedings1040635

Low-frequency noise considerations for sensors based on manganites

Autori: Guillet, Bruno; Flament, Stéphane; Liu, Shuang; Rousseau, Olivier; Aryan, Ammar; Lam Chok Sing, Marc; Méchin, Laurence; Routoure, Jean-Marc; enger, luiz,; Lebargy, Sylvain; Nascimento, Vanuza,; Wu, Sheng
Pubblicato in: https://hal-normandie-univ.archives-ouvertes.fr/hal-02336146, Numero 1, 2019
Editore: 25th International Conference on Noise and Fluctuations (ICNF 2019), 18 - 21 June 2019
DOI: 10.5075/epfl-iclab-icnf-269309

È in corso la ricerca di dati su OpenAIRE...

Risultati finali

Pubblicazioni

Condividi questa pagina Condividi questa pagina sui social network

Scarica Scarica il contenuto della pagina