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Flexible Polymer Electrodes for Stable Prosthetic Visual Perception in Mice.

Advanced healthcare materials (2024-02-07)
Corinne Orlemann, Christian Boehler, Roxana N Kooijmans, Bingshuo Li, Maria Asplund, Pieter R Roelfsema
RÉSUMÉ

Brain interfaces that can stimulate neurons, cause minimal damage, and work for a long time will be central for future neuroprosthetics. Here, the long-term performance of highly flexible, thin polyimide shanks with several small (<15 µm) electrodes during electrical microstimulation of the visual cortex, is reported. The electrodes exhibit a remarkable stability when several billions of electrical pulses are applied in vitro. When the devices are implanted in the primary visual cortex (area V1) of mice and the animals are trained to detect electrical microstimulation, it is found that the perceptual thresholds are 2-20 microamperes (µA), which is far below the maximal currents that the electrodes can withstand. The long-term functionality of the devices in vivo is excellent, with stable performance for up to more than a year and little damage to the brain tissue. These results demonstrate the potential of thin floating electrodes for the long-term restoration of lost sensory functions.

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Anti-GFAP antibody produced in goat, affinity isolated antibody, buffered aqueous solution