Chronic implantable flexible serpentine probe reveals impaired spatial coding of place cells in epilepsy
The development of minimally invasive and reliable electrode probes for neural signal recording is crucial for advancing neuroscience and treating major brain disorders. Flexible neural probes offer superior long-term recording capabilities over traditional rigid probes. This study introduces a pary...
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| Published in | National science review Vol. 12; no. 2; p. nwae402 |
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| Main Authors | , , , , , , , , , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
China
Oxford University Press
01.02.2025
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| Subjects | |
| Online Access | Get full text |
| ISSN | 2095-5138 2053-714X 2053-714X |
| DOI | 10.1093/nsr/nwae402 |
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| Abstract | The development of minimally invasive and reliable electrode probes for neural signal recording is crucial for advancing neuroscience and treating major brain disorders. Flexible neural probes offer superior long-term recording capabilities over traditional rigid probes. This study introduces a parylene-based serpentine electrode probe for stable, long-term neural monitoring. Inspired by the flexibility and morphology of snakes, the serpentine design of the probe ensures stable anchorage within the brain tissue during subject movement. The probe features a hydrophilic surface and is combined with a biodegradable silk fibroin–polyethylene glycol coating, significantly enhancing biocompatibility and mitigating inflammatory responses. In vivo experiments demonstrate that these probes enable stable, high-quality neural recordings for >8 months. The probes are also used to investigate the neural bases of epilepsy-induced cognitive deficits. By analysing place-cell dynamics in mice pre- and post-epileptic events, we identified the correlation between impaired spatial encoding and the observed cognitive deficits in epileptic mice. This study highlights the potential of our flexible probes in neurological research and medical applications. |
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| AbstractList | The development of minimally invasive and reliable electrode probes for neural signal recording is crucial for advancing neuroscience and treating major brain disorders. Flexible neural probes offer superior long-term recording capabilities over traditional rigid probes. This study introduces a parylene-based serpentine electrode probe for stable, long-term neural monitoring. Inspired by the flexibility and morphology of snakes, the serpentine design of the probe ensures stable anchorage within the brain tissue during subject movement. The probe features a hydrophilic surface and is combined with a biodegradable silk fibroin-polyethylene glycol coating, significantly enhancing biocompatibility and mitigating inflammatory responses.
experiments demonstrate that these probes enable stable, high-quality neural recordings for >8 months. The probes are also used to investigate the neural bases of epilepsy-induced cognitive deficits. By analysing place-cell dynamics in mice pre- and post-epileptic events, we identified the correlation between impaired spatial encoding and the observed cognitive deficits in epileptic mice. This study highlights the potential of our flexible probes in neurological research and medical applications. The development of minimally invasive and reliable electrode probes for neural signal recording is crucial for advancing neuroscience and treating major brain disorders. Flexible neural probes offer superior long-term recording capabilities over traditional rigid probes. This study introduces a parylene-based serpentine electrode probe for stable, long-term neural monitoring. Inspired by the flexibility and morphology of snakes, the serpentine design of the probe ensures stable anchorage within the brain tissue during subject movement. The probe features a hydrophilic surface and is combined with a biodegradable silk fibroin-polyethylene glycol coating, significantly enhancing biocompatibility and mitigating inflammatory responses. In vivo experiments demonstrate that these probes enable stable, high-quality neural recordings for >8 months. The probes are also used to investigate the neural bases of epilepsy-induced cognitive deficits. By analysing place-cell dynamics in mice pre- and post-epileptic events, we identified the correlation between impaired spatial encoding and the observed cognitive deficits in epileptic mice. This study highlights the potential of our flexible probes in neurological research and medical applications.The development of minimally invasive and reliable electrode probes for neural signal recording is crucial for advancing neuroscience and treating major brain disorders. Flexible neural probes offer superior long-term recording capabilities over traditional rigid probes. This study introduces a parylene-based serpentine electrode probe for stable, long-term neural monitoring. Inspired by the flexibility and morphology of snakes, the serpentine design of the probe ensures stable anchorage within the brain tissue during subject movement. The probe features a hydrophilic surface and is combined with a biodegradable silk fibroin-polyethylene glycol coating, significantly enhancing biocompatibility and mitigating inflammatory responses. In vivo experiments demonstrate that these probes enable stable, high-quality neural recordings for >8 months. The probes are also used to investigate the neural bases of epilepsy-induced cognitive deficits. By analysing place-cell dynamics in mice pre- and post-epileptic events, we identified the correlation between impaired spatial encoding and the observed cognitive deficits in epileptic mice. This study highlights the potential of our flexible probes in neurological research and medical applications. The development of minimally invasive and reliable electrode probes for neural signal recording is crucial for advancing neuroscience and treating major brain disorders. Flexible neural probes offer superior long-term recording capabilities over traditional rigid probes. This study introduces a parylene-based serpentine electrode probe for stable, long-term neural monitoring. Inspired by the flexibility and morphology of snakes, the serpentine design of the probe ensures stable anchorage within the brain tissue during subject movement. The probe features a hydrophilic surface and is combined with a biodegradable silk fibroin–polyethylene glycol coating, significantly enhancing biocompatibility and mitigating inflammatory responses. In vivo experiments demonstrate that these probes enable stable, high-quality neural recordings for >8 months. The probes are also used to investigate the neural bases of epilepsy-induced cognitive deficits. By analysing place-cell dynamics in mice pre- and post-epileptic events, we identified the correlation between impaired spatial encoding and the observed cognitive deficits in epileptic mice. This study highlights the potential of our flexible probes in neurological research and medical applications. The development of minimally invasive and reliable electrode probes for neural signal recording is crucial for advancing neuroscience and treating major brain disorders. Flexible neural probes offer superior long-term recording capabilities over traditional rigid probes. This study introduces a parylene-based serpentine electrode probe for stable, long-term neural monitoring. Inspired by the flexibility and morphology of snakes, the serpentine design of the probe ensures stable anchorage within the brain tissue during subject movement. The probe features a hydrophilic surface and is combined with a biodegradable silk fibroin–polyethylene glycol coating, significantly enhancing biocompatibility and mitigating inflammatory responses. In vivo experiments demonstrate that these probes enable stable, high-quality neural recordings for >8 months. The probes are also used to investigate the neural bases of epilepsy-induced cognitive deficits. By analysing place-cell dynamics in mice pre- and post-epileptic events, we identified the correlation between impaired spatial encoding and the observed cognitive deficits in epileptic mice. This study highlights the potential of our flexible probes in neurological research and medical applications. Over 8 months, our flexible serpentine neural probe provides stable recordings with minimal inflammation, revealing that abnormal place-cell encoding underlies epilepsy-induced cognitive deficits. |
| Author | Li, Ming Wang, Yu Luo, Jinping Yang, Gucheng Jia, Qianli Wu, Yirong Xu, Wei Jing, Luyi Shan, Jin Han, Meiqi Duan, Yiming Jiao, Peiyao Xu, Zhaojie Cai, Xinxia Wang, Mixia Lv, Shiya Mo, Fan Liu, Juntao Song, Yilin Liu, Yaoyao |
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| Cites_doi | 10.1016/j.bbr.2009.03.011 10.1002/adhm.201900558 10.1126/sciadv.1601966 10.1039/b417497f 10.1016/j.nlm.2004.03.005 10.1146/annurev.neuro.31.061307.090723 10.1016/j.bios.2008.12.019 10.1016/j.jconrel.2005.10.027 10.1016/S1474-4422(04)00906-8 10.1002/adma.202310365 10.1038/nn.3905 10.3389/fneur.2022.878991 10.1038/nprot.2011.379 10.1523/JNEUROSCI.23-37-11505.2003 10.1523/JNEUROSCI.4838-11.2011 10.1088/0960-1317/25/12/125003 10.1016/j.jbiosc.2011.11.003 10.1038/s41467-023-43727-9 10.34133/research.0229 10.1016/j.bios.2018.06.035 10.1016/j.porgcoat.2019.105493 10.1186/s42494-022-00086-0 10.3390/mi12060659 10.1021/nn401246y 10.1016/0006-8993(71)90358-1 10.1016/j.biomaterials.2016.10.054 10.3389/fnins.2021.712578 10.1016/j.msec.2016.06.045 10.1016/j.biomaterials.2017.10.001 10.1002/cne.10622 10.1073/pnas.0915059107 10.1101/cshperspect.a022772 10.1038/s41551-022-00941-y 10.1038/s41565-021-01041-9 10.1088/1741-2552/ab2b2e 10.1016/j.tins.2009.08.002 10.1038/s41598-021-81127-5 10.1038/s41593-019-0559-0 10.1523/JNEUROSCI.4699-08.2009 10.1016/j.cell.2015.06.058 10.1002/adfm.201200200 10.1179/1743280414Y.0000000038 10.1109/JMEMS.2020.3000235 10.1016/j.yebeh.2005.11.014 10.1016/j.biomaterials.2015.08.039 10.1590/S1676-26492005000300006 10.1523/JNEUROSCI.4900-11.2012 |
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| Keywords | epilepsy chronic neural recording flexible probe place cell biocompatible surface |
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