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A wireless and battery-less implant for multimodal closed-loop neuromodulation in small animals.

Wei OuyangWei LuYamin ZhangYiming LiuJong Uk KimHaixu ShenYunyun WuHaiwen LuanKeith KilnerStephen P LeeYinsheng LuYiyuan YangJin WangYongjoon YuAmy J WegenerJustin A MorenoZhaoqian XieYixin WuSang Min WonKyeongha KwonChangsheng WuWubin BaiHexia GuoTzu-Li LiuHedan BaiGiuditta MontiJason ZhuSurabhi R MadhvapathyJacob TruebMaria StanslaskiElizabeth M Higbee-DempseyIwona StepienNayereh Ghoreishi-HaackChad R HaneyTae-Il KimYonggang HuangRoozbeh GhaffariAnthony R BanksThomas C JhouCameron H GoodJohn A Rogers
Published in: Nature biomedical engineering (2023)
Fully implantable wireless systems for the recording and modulation of neural circuits that do not require physical tethers or batteries allow for studies that demand the use of unconstrained and freely behaving animals in isolation or in social groups. Moreover, feedback-control algorithms that can be executed within such devices without the need for remote computing eliminate virtual tethers and any associated latencies. Here we report a wireless and battery-less technology of this type, implanted subdermally along the back of freely moving small animals, for the autonomous recording of electroencephalograms, electromyograms and body temperature, and for closed-loop neuromodulation via optogenetics and pharmacology. The device incorporates a system-on-a-chip with Bluetooth Low Energy for data transmission and a compressed deep-learning module for autonomous operation, that offers neurorecording capabilities matching those of gold-standard wired systems. We also show the use of the implant in studies of sleep-wake regulation and for the programmable closed-loop pharmacological suppression of epileptic seizures via feedback from electroencephalography. The technology can support a broader range of applications in neuroscience and in biomedical research with small animals.
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