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Literature DB >> 25855700

Closed-loop, ultraprecise, automated craniotomies.

Nikita Pak¹, Joshua H Siegle², Justin P Kinney³, Daniel J Denman², Timothy J Blanche², Edward S Boyden⁴.

Abstract

A large array of neuroscientific techniques, including in vivo electrophysiology, two-photon imaging, optogenetics, lesions, and microdialysis, require access to the brain through the skull. Ideally, the necessary craniotomies could be performed in a repeatable and automated fashion, without damaging the underlying brain tissue. Here we report that when drilling through the skull a stereotypical increase in conductance can be observed when the drill bit passes through the skull base. We present an architecture for a robotic device that can perform this algorithm, along with two implementations--one based on homebuilt hardware and one based on commercially available hardware--that can automatically detect such changes and create large numbers of precise craniotomies, even in a single skull. We also show that this technique can be adapted to automatically drill cranial windows several millimeters in diameter. Such robots will not only be useful for helping neuroscientists perform both small and large craniotomies more reliably but can also be used to create precisely aligned arrays of craniotomies with stereotaxic registration to standard brain atlases that would be difficult to drill by hand.

Entities: Disease Species

Keywords: automation; cranial windows; craniotomy; robotics

Mesh：

Year: 2015 PMID： 25855700 PMCID： PMC4480624 DOI： 10.1152/jn.01055.2014

Source DB: PubMed Journal: J Neurophysiol ISSN： 0022-3077 Impact factor: 2.714

16 in total

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Authors: Abigail S Kalmbach; Jack Waters
Journal: J Neurophysiol Date: 2012-09-12 Impact factor: 2.714

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Journal: Nat Neurosci Date: 2012-12-16 Impact factor: 24.884

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Authors: Anthony Holtmaat; Tobias Bonhoeffer; David K Chow; Jyoti Chuckowree; Vincenzo De Paola; Sonja B Hofer; Mark Hübener; Tara Keck; Graham Knott; Wei-Chung A Lee; Ricardo Mostany; Tom D Mrsic-Flogel; Elly Nedivi; Carlos Portera-Cailliau; Karel Svoboda; Joshua T Trachtenberg; Linda Wilbrecht
Journal: Nat Protoc Date: 2009-07-16 Impact factor: 13.491

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Authors: Anthony N Zorzos; Jorg Scholvin; Edward S Boyden; Clifton G Fonstad
Journal: Opt Lett Date: 2012-12-01 Impact factor: 3.776

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Authors: Suhasa B Kodandaramaiah; Giovanni Talei Franzesi; Brian Y Chow; Edward S Boyden; Craig R Forest
Journal: Nat Methods Date: 2012-05-06 Impact factor: 28.547

14 in total

1. Brain activity mapping at multiple scales with silicon microprobes containing 1,024 electrodes.

Authors: Justin L Shobe; Leslie D Claar; Sepideh Parhami; Konstantin I Bakhurin; Sotiris C Masmanidis
Journal: J Neurophysiol Date: 2015-07-01 Impact factor: 2.714

2. Autonomous patch-clamp robot for functional characterization of neurons in vivo: development and application to mouse visual cortex.

Authors: Gregory L Holst; William Stoy; Bo Yang; Ilya Kolb; Suhasa B Kodandaramaiah; Lu Li; Ulf Knoblich; Hongkui Zeng; Bilal Haider; Edward S Boyden; Craig R Forest
Journal: J Neurophysiol Date: 2019-04-10 Impact factor: 2.714

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Authors: Brian D Allen; Caroline Moore-Kochlacs; Jacob G Bernstein; Justin P Kinney; Jorg Scholvin; Luís F Seoane; Chris Chronopoulos; Charlie Lamantia; Suhasa B Kodandaramaiah; Max Tegmark; Edward S Boyden
Journal: J Neurophysiol Date: 2018-07-11 Impact factor: 2.714

Review 4. Potential for thermal damage to the blood-brain barrier during craniotomy: implications for intracortical recording microelectrodes.

Authors: Andrew J Shoffstall; Jen E Paiz; David M Miller; Griffin M Rial; Mitchell T Willis; Dhariyat M Menendez; Stephen R Hostler; Jeffrey R Capadona
Journal: J Neural Eng Date: 2017-12-05 Impact factor: 5.379

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Authors: Leila Ghanbari; Daniel Sousa Schulman; Mathew L Rynes; Samantha Linn; Michael Laroque; Judith Dominguez; Zahra S Navabi; Peter Sherman; Suhasa B Kodandaramaiah
Journal: Nat Protoc Date: 2020-05-13 Impact factor: 13.491