idw – Informationsdienst Wissenschaft

Nachrichten, Termine, Experten

Grafik: idw-Logo
Science Video Project
idw-Abo

idw-News App:

AppStore

Google Play Store



Instance:
Share on: 
09/19/2024 11:00

Optogenetic OLED-on-CMOS Stimulators for Neurosensory Therapies

Julia Schulze Marketing & Kommunikation
Fraunhofer-Institut für Photonische Mikrosysteme (IPMS)

    Researchers from the Fraunhofer Institute for Photonic Microsystems IPMS and the Max Planck Institute for Multidisciplinary Natural Sciences (MPI-NAT) have researched optical stimulators for future cochlear implants as part of the "NeurOpto" project (funded by the Fraunhofer-Max-Planck Cooperation Program: 601001). They will present tiny OLED-on-silicon-based probes for the first time at W3+ 2024 in Jena, on September 25 and 26, 2024, at booth No. C12.

    What is Optogenetics?

    Optogenetics is a method that uses light to control genetically modified cells in living tissues. By introducing light-sensitive proteins into cells, their activity can be precisely turned on and off with light pulses. This technique is commonly used in neuroscience to study the functions of nerve cells and to activate or inhibit specific neuronal populations. To deliver light precisely to stimulate tiny cells, small and locally selective light sources are therefore needed now.

    Dr. Uwe Vogel, Head of business unit "Microdisplays and Sensors" at Fraunhofer IPMS, explains: "With OLED-on-silicon technology, we can bring tiny, locally controllable light pixels onto a chip. This chip can be flexibly designed to reach the desired locations even in curved structures like the cochlea. This allows light to be used precisely where electrical stimulation alone is insufficient."

    Prof. Tobias Moser from MPI-NAT adds: "The development of optical cochlear implants promises better hearing for the severely hearing impaired. MPI-NAT and University Medical Center Göttingen (UMG) are working closely with partners such as Fraunhofer IPMS on the technological solutions required for this. Intelligent implantable stimulators based on optical stimulation could also be used for other medical therapies such as laryngeal pacemakers, cardiac pacemakers, pain relieve, retinal implants, or deep brain stimulation."

    How does optical cell stimulation work?

    Current electrical cochlear implants (eCIs) restore speech comprehension in quiet environments for most of the approximately 1 million users worldwide. However, speech recognition in background noise and enjoyment of music are often severely limited. The reason for this is the inadequate frequency resolution of electrical sound coding: each electrode contact also stimulates more distant nerve cells that code different frequencies due to the broad current spread. Since light can be controlled much more precisely, an optical cochlear implant (oCI) could overcome this problem. The number of independent frequency bands could be increased by spatially-targeted optical stimulation of light-sensitive auditory nerve cells (SGNs). This would be possible through dozens of microscale light emitters along the frequency axis of the cochlea, ideally individually controllable. UMG/MPI-NAT have been working for many years with academic and industrial partners on the development of the oCI and gene therapy. The current collaboration with Fraunhofer IPMS focused on evaluating OLED technology for use in oCIs.

    Fraunhofer IPMS has leveraged its experience from OLED-on-silicon technology for microdisplays to bring CMOS-integrated light sources of the highest pixel density and brightness, as well as the lowest power consumption, to a pixelated OLED microsensor that can individually control spatially distributed light channels assignable to corresponding audio frequencies in the cochlea via a serial interface.

    Where was the challenge in developing the technology?

    Although Fraunhofer IPMS has already introduced unique features with its OLED-on-silicon technology for microdisplays that are also important for optogenetics, there are still some challenges: The necessary brightness and degree of integration have been successfully demonstrated during the project. However, flexibility and biocompatibility are not yet verified. The silicon microtechnology used has shown that these properties are generally achievable. With further research and development effort, they also appear feasible here.

    When will the technology be market-ready?

    The project laid the first foundations for the use of OLED-on-silicon technology in optogenetics. The results are promising. The scientists will continue to work on this technology and remain open to other areas of application.

    About the NeurOpto Project (Optogenetic OLED-on-CMOS Stimulators for Innovative Therapy of Neurosensory Disorders):
    Partners:
    • “Microdisplays & Sensors” division of Fraunhofer Institute for Organic Electronics, Electron Beam and Plasma Technology FEP, Dresden -> administratively moved to Fraunhofer Institiute for Photonic Microsystems IPMS in 2024
    • Max Planck Institute for Experimental Medicine MPI-EM, Göttingen, now Max Planck Institute for Multidisciplinary Natural Sciences (MPI-NAT)

    Duration: 2020-2023

    Fraunhofer IPMS at W3+ Jena:
    Booth: C12
    Lecture:
    Philipp Wartenberg: “Microdisplays for AR/VR/MR,” Thursday, September 26, 2024, en-tech Stage; Session: IVAM - Photonics meet Microtechnology, 11:30—11:45 AM

    ----
    About Fraunhofer IPMS
    Fraunhofer IPMS is one of the leading international research and development service providers for electronic and photonic microsystems in the application fields of intelligent industrial solutions and manufacturing, medical technology and health, and mobility. In two state-of-the-art clean rooms and with a total of four development sites in Dresden, Cottbus and Erfurt, the institute develops innovative MEMS components and microelectronic devices on 200 mm and 300 mm wafers. Services range from consulting and process development to pilot production.


    Contact for scientific information:

    Dr. Uwe Vogel - uwe.vogel@ipms.fraunhofer.de


    Images

    OLED-on-Silicon Technology for Optogenetics
    OLED-on-Silicon Technology for Optogenetics
    Sebastian Lassak
    © Fraunhofer IPMS, Sebastian Lassak


    Criteria of this press release:
    Journalists
    Electrical engineering, Medicine, Physics / astronomy
    transregional, national
    Research projects
    English


     

    OLED-on-Silicon Technology for Optogenetics


    For download

    x

    Help

    Search / advanced search of the idw archives
    Combination of search terms

    You can combine search terms with and, or and/or not, e.g. Philo not logy.

    Brackets

    You can use brackets to separate combinations from each other, e.g. (Philo not logy) or (Psycho and logy).

    Phrases

    Coherent groups of words will be located as complete phrases if you put them into quotation marks, e.g. “Federal Republic of Germany”.

    Selection criteria

    You can also use the advanced search without entering search terms. It will then follow the criteria you have selected (e.g. country or subject area).

    If you have not selected any criteria in a given category, the entire category will be searched (e.g. all subject areas or all countries).