Katharina Foremny scite author profile

Katharina Foremny

3Publications

21Citation Statements Received

105Citation Statements Given

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Affiliations

Hannover Medical School, Hearing4all, Fraunhofer Institute for Toxicology and Experimental Medicine

Publications

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Carbon Nanotube‐Silicone Rubber on Active Thin‐Film Implants

Behrens

Foremny

Doll

2018

Physica Status Solidi (a)

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To improve interfacing with neurites, flexible electrode materials consisting of carbon nanotubes (CNTs) and silicone rubber are investigated. Here, the authors present a method for defined application of CNT-silicone rubber on electrode surfaces. However, for low impedance as well as intimate contact between nerve cells and electrodes, additional reduction of the silicone rubber layer via etching at the interface is necessary. This requires protection of the electrodes using photoresist. The etching methods are optimized for application on ready-to-use electrode arrays and characterized using impedance spectroscopy and scanning electron microscopy.

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Biocompatibility Testing of Liquid Metal as an Interconnection Material for Flexible Implant Technology

et al. 2021

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Galinstan, a liquid metal at room temperature, is a promising material for use in flexible electronics. Since it has been successfully integrated in devices for external use, e.g., as stretchable electronic skin in tactile sensation, the possibility of using galinstan for flexible implant technology comes to mind. Usage of liquid metals in a flexible implant would reduce the risk of broken conductive pathways in the implants and therefore reduce the possibility of implant failure. However, the biocompatibility of the liquid metal under study, i.e., galinstan, has not been proven in state-of-the-art literature. Therefore, in this paper, a material combination of galinstan and silicone rubber is under investigation regarding the success of sterilization methods and to establish biocompatibility testing for an in vivo application. First cell biocompatibility tests (WST-1 assays) and cell toxicity tests (LDH assays) show promising results regarding biocompatibility. This work paves the way towards the successful integration of stretchable devices using liquid metals embedded in a silicone rubber encapsulant for flexible surface electro-cortical grid arrays and other flexible implants.

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Carbon-Nanotube-Coated Surface Electrodes for Cortical Recordings In Vivo

et al. 2021

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Current developments of electrodes for neural recordings address the need of biomedical research and applications for high spatial acuity in electrophysiological recordings. One approach is the usage of novel materials to overcome electrochemical constraints of state-of-the-art metal contacts. Promising materials are carbon nanotubes (CNTs), as they are well suited for neural interfacing. The CNTs increase the effective contact surface area to decrease high impedances while keeping minimal contact diameters. However, to prevent toxic dissolving of CNTs, an appropriate surface coating is required. In this study, we tested flexible surface electrocorticographic (ECoG) electrodes, coated with a CNT-silicone rubber composite. First, we describe the outcome of surface etching, which exposes the contact nanostructure while anchoring the CNTs. Subsequently, the ECoG electrodes were used for acute in vivo recordings of auditory evoked potentials from the guinea pig auditory cortex. Both the impedances and the signal-to-noise ratios of coated contacts were similar to uncoated gold contacts. This novel approach for a safe application of CNTs, embedded in a surface etched silicone rubber, showed promising results but did not lead to improvements during acute recordings.

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