Endocisternal interfaces for minimally invasive neural stimulation and recording of the brain and spinal cord
- PMID: 39528629
- DOI: 10.1038/s41551-024-01281-9
Endocisternal interfaces for minimally invasive neural stimulation and recording of the brain and spinal cord
Erratum in
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Author Correction: Endocisternal interfaces for minimally invasive neural stimulation and recording of the brain and spinal cord.Nat Biomed Eng. 2025 Jun;9(6):985. doi: 10.1038/s41551-025-01356-1. Nat Biomed Eng. 2025. PMID: 39870885 No abstract available.
Abstract
Minimally invasive neural interfaces can be used to diagnose, manage and treat many disorders, with reduced risks of surgical complications. However, endovascular probes lack access to key cortical, subcortical and spinal targets, and are not typically explantable after endothelialization. Here we report the development and testing, in sheep, of endocisternal neural interfaces that approach brain and spinal cord targets through inner and outer spaces filled with cerebrospinal fluid. Thus, the interfaces gain access to the entire brain convexity, to deep brain structures within the ventricles and to the spinal cord from the spinal subarachnoid space. We combined an endocisternal neural interface with wireless miniature magnetoelectrically powered bioelectronics so that it can be freely navigated percutaneously from the spinal space to the cranial subarachnoid space, and from the cranial subarachnoid space to the ventricles. In sheep, we show recording and stimulation functions, as well as repositioning of the flexible electrodes and explantation of the interface after chronic implantation. Minimally invasive endocisternal bioelectronics may enable chronic and transient therapies, particularly for stroke rehabilitation and epilepsy monitoring.
© 2024. The Author(s), under exclusive licence to Springer Nature Limited.
Conflict of interest statement
Competing interests: J.T.R., Sunil A. Sheth, Sameer A. Sheth and J.E.W. receive monetary or equity compensation from Motif Neurotech. Sameer A. Sheth has consulting agreements with Boston Scientific, Zimmer Biomet, Koh Young, Neuropace, Sensoria Therapeutics and Varian Medical. Sunil A. Sheth has consulting agreements with Viz.ai, Penumbra, Medtronic and Imperative Care, as well as grant funding from the McNair Foundation and the NIH. The terms of these agreements have been reviewed and approved by Rice University, UTHealth and Baylor College of Medicine in accordance with their policies on conflicts of interest in research. A.K.W. is a cofounder of Deinde and P.K. is an investor in Deinde. The other authors declare no competing interests.
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