A modular, adaptable, and accessible implant kit for chronic electrophysiological recordings in rats

Raquel J. Ibáñez Alcalá; Andrea Y. Macias; Cory N. Heaton; Ricardo Sosa Jurado; Alexis A. Salcido; Neftali F. Reyes; Serina A. Batson; Luis D. Davila; Dirk W. Beck; Lara I. Rakocevic; Atanu Giri; Kenichiro Negishi; Sabrina M. Drammis; Ki A. Goosens; Travis M. Moschak; Alexander Friedman

doi:10.1016/j.crmeth.2025.101146

A modular, adaptable, and accessible implant kit for chronic electrophysiological recordings in rats

Raquel J. Ibáñez Alcalá
, Andrea Y. Macias
, Cory N. Heaton
, Ricardo Sosa Jurado
, Alexis A. Salcido
, Neftali F. Reyes
, Serina A. Batson
, Luis D. Davila
, Dirk W. Beck
, Lara I. Rakocevic
, Atanu Giri
, Kenichiro Negishi
, Sabrina M. Drammis
, Ki A. Goosens
, Travis M. Moschak
, Alexander Friedman

Research output: Contribution to journal › Article › peer-review

Abstract

Electrophysiological implants enable exploration of the relationship between neuronal activity and behavior. These technologies evolve rapidly, with multiple iterations of recording systems developed and utilized. Chronic implants must address a litany of complications, including retention of high signal-to-noise ratio in probes and the ability to withstand excess force over the experimental period. To overcome these issues, we designed a chronic implant for rats. Our comprehensive protocol optimizes the entire implant process, from assembling and testing the probes (Neuropixels) to implantation. In addition to addressing the complications previously mentioned, our implant can vertically adjust probes with micron precision and is constructed using modular components, allowing it to be easily modified for various research contexts, electrophysiological recording systems, headstages, and probe types.

Original language	English
Article number	101146
Journal	Cell Reports Methods
Volume	5
Issue number	9
DOIs	https://doi.org/10.1016/j.crmeth.2025.101146
State	Published - 15 Sep 2025
Externally published	Yes

Bibliographical note

Publisher Copyright:
© 2025 The Author(s)

Keywords

3D printed
CP: neuroscience
adjustable
chronic implant
electrical
electrode array
electrophysiology
kit
modular
optogenetics
precision
stimulation

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10.1016/j.crmeth.2025.101146

Cite this

Ibáñez Alcalá, R. J., Macias, A. Y., Heaton, C. N., Sosa Jurado, R., Salcido, A. A., Reyes, N. F., Batson, S. A., Davila, L. D., Beck, D. W., Rakocevic, L. I., Giri, A., Negishi, K., Drammis, S. M., Goosens, K. A., Moschak, T. M., & Friedman, A. (2025). A modular, adaptable, and accessible implant kit for chronic electrophysiological recordings in rats. Cell Reports Methods, 5(9), Article 101146. https://doi.org/10.1016/j.crmeth.2025.101146

@article{f8c90a05cfca456a89df80cdfac953cd,

title = "A modular, adaptable, and accessible implant kit for chronic electrophysiological recordings in rats",

abstract = "Electrophysiological implants enable exploration of the relationship between neuronal activity and behavior. These technologies evolve rapidly, with multiple iterations of recording systems developed and utilized. Chronic implants must address a litany of complications, including retention of high signal-to-noise ratio in probes and the ability to withstand excess force over the experimental period. To overcome these issues, we designed a chronic implant for rats. Our comprehensive protocol optimizes the entire implant process, from assembling and testing the probes (Neuropixels) to implantation. In addition to addressing the complications previously mentioned, our implant can vertically adjust probes with micron precision and is constructed using modular components, allowing it to be easily modified for various research contexts, electrophysiological recording systems, headstages, and probe types.",

keywords = "3D printed, CP: neuroscience, adjustable, chronic implant, electrical, electrode array, electrophysiology, kit, modular, optogenetics, precision, stimulation",

author = "\{Ib{\'a}{\~n}ez Alcal{\'a}\}, \{Raquel J.\} and Macias, \{Andrea Y.\} and Heaton, \{Cory N.\} and \{Sosa Jurado\}, Ricardo and Salcido, \{Alexis A.\} and Reyes, \{Neftali F.\} and Batson, \{Serina A.\} and Davila, \{Luis D.\} and Beck, \{Dirk W.\} and Rakocevic, \{Lara I.\} and Atanu Giri and Kenichiro Negishi and Drammis, \{Sabrina M.\} and Goosens, \{Ki A.\} and Moschak, \{Travis M.\} and Alexander Friedman",

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doi = "10.1016/j.crmeth.2025.101146",

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Ibáñez Alcalá, RJ, Macias, AY, Heaton, CN, Sosa Jurado, R, Salcido, AA, Reyes, NF, Batson, SA, Davila, LD, Beck, DW, Rakocevic, LI, Giri, A, Negishi, K, Drammis, SM, Goosens, KA, Moschak, TM & Friedman, A 2025, 'A modular, adaptable, and accessible implant kit for chronic electrophysiological recordings in rats', Cell Reports Methods, vol. 5, no. 9, 101146. https://doi.org/10.1016/j.crmeth.2025.101146

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AU - Ibáñez Alcalá, Raquel J.

AU - Macias, Andrea Y.

AU - Heaton, Cory N.

AU - Sosa Jurado, Ricardo

AU - Salcido, Alexis A.

AU - Reyes, Neftali F.

AU - Batson, Serina A.

AU - Davila, Luis D.

AU - Beck, Dirk W.

AU - Rakocevic, Lara I.

AU - Giri, Atanu

AU - Negishi, Kenichiro

AU - Drammis, Sabrina M.

AU - Goosens, Ki A.

AU - Moschak, Travis M.

AU - Friedman, Alexander

PY - 2025/9/15

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AB - Electrophysiological implants enable exploration of the relationship between neuronal activity and behavior. These technologies evolve rapidly, with multiple iterations of recording systems developed and utilized. Chronic implants must address a litany of complications, including retention of high signal-to-noise ratio in probes and the ability to withstand excess force over the experimental period. To overcome these issues, we designed a chronic implant for rats. Our comprehensive protocol optimizes the entire implant process, from assembling and testing the probes (Neuropixels) to implantation. In addition to addressing the complications previously mentioned, our implant can vertically adjust probes with micron precision and is constructed using modular components, allowing it to be easily modified for various research contexts, electrophysiological recording systems, headstages, and probe types.

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KW - adjustable

KW - chronic implant

KW - electrical

KW - electrode array

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KW - optogenetics

KW - precision

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A modular, adaptable, and accessible implant kit for chronic electrophysiological recordings in rats

Abstract

Bibliographical note

Keywords

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