Electronic dura mater for long-term multimodal neural interfaces

Ivan R. Minev; Pavel Musienko; Arthur Hirsch; Quentin Barraud; Nikolaus Wenger; Eduardo Martin Moraud; Jérôme Gandar; Marco Capogrosso; Tomislav Milekovic; Léonie Asboth; Rafael Fajardo Torres; Nicolas Vachicouras; Qihan Liu; Natalia Pavlova; Simone Duis; Alexandre Larmagnac; János Vörös; Silvestro Micera; Zhigang Suo; Grégoire Courtine; Stéphanie P. Lacour

doi:10.1126/science.1260318

Electronic dura mater for long-term multimodal neural interfaces

Ivan R. Minev(École Polytechnique Fédérale de Lausanne), Pavel Musienko(Pavlov Institute of Physiology of the Russian Academy of Sciences), Arthur Hirsch(École Polytechnique Fédérale de Lausanne), Quentin Barraud(Swiss Paraplegic Center), Nikolaus Wenger(Swiss Paraplegic Center), Eduardo Martin Moraud(Wyss Center for Bio and Neuroengineering), Jérôme Gandar(Swiss Paraplegic Center), Marco Capogrosso(Wyss Center for Bio and Neuroengineering), Tomislav Milekovic(Swiss Paraplegic Center), Léonie Asboth(Swiss Paraplegic Center), Rafael Fajardo Torres(Swiss Paraplegic Center), Nicolas Vachicouras(Swiss Paraplegic Center), Qihan Liu(Massachusetts Institute of Technology), Natalia Pavlova(Pavlov Institute of Physiology of the Russian Academy of Sciences), Simone Duis(Swiss Paraplegic Center), Alexandre Larmagnac(Institute for Biomedical Engineering), János Vörös(Institute for Biomedical Engineering), Silvestro Micera(Scuola Superiore Sant'Anna), Zhigang Suo(Massachusetts Institute of Technology), Grégoire Courtine(Swiss Paraplegic Center), Stéphanie P. Lacour(École Polytechnique Fédérale de Lausanne)

Science

January 9, 2015

10.1126/science.1260318

Cited by 1,063Open Access

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Abstract

The mechanical mismatch between soft neural tissues and stiff neural implants hinders the long-term performance of implantable neuroprostheses. Here, we designed and fabricated soft neural implants with the shape and elasticity of dura mater, the protective membrane of the brain and spinal cord. The electronic dura mater, which we call e-dura, embeds interconnects, electrodes, and chemotrodes that sustain millions of mechanical stretch cycles, electrical stimulation pulses, and chemical injections. These integrated modalities enable multiple neuroprosthetic applications. The soft implants extracted cortical states in freely behaving animals for brain-machine interface and delivered electrochemical spinal neuromodulation that restored locomotion after paralyzing spinal cord injury.

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