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Neural probes with multi-drug delivery capability

Authors
Shin, HyogeunLee, Hyunjoo J.Chae, UikyuKim, HuiyoungKim, JeongyeonChoi, NakwonWoo, JiwanCho, YakdolLee, C. JustinYoon, Eui-SungCho, Il-Joo
Issue Date
2015
Publisher
ROYAL SOC CHEMISTRY
Citation
LAB ON A CHIP, v.15, no.18, pp.3730 - 3737
Indexed
SCIE
SCOPUS
Journal Title
LAB ON A CHIP
Volume
15
Number
18
Start Page
3730
End Page
3737
URI
https://scholar.korea.ac.kr/handle/2021.sw.korea/96418
DOI
10.1039/c5lc00582e
ISSN
1473-0197
Abstract
Multi-functional neural probes are promising platforms to conduct efficient and effective in-depth studies of brain by recording neural signals as well as modulating the signals with various stimuli. Here we present a neural probe with an embedded microfluidic channel (chemtrode) with multi-drug delivery capability suitable for small animal experiments. We integrated a staggered herringbone mixer (SHM) in a 3-inlet microfluidic chip directly into our chemtrode. This chip, which also serves as a compact interface for the chemtrode, allows for efficient delivery of small volumes of multiple or concentration-modulated drugs via chaotic mixing. We demonstrated the successful infusion of combinatorial inputs of three chemicals with a low flow rate (170 nl min(-1)). By sequentially delivering red, green, and blue inks from each inlet and conducting visual inspections at the tip of the chemtrode, we measured a short residence time of 14 s which corresponds to a small swept volume of 66 nl. Finally, we demonstrated the potential of our proposed chemtrode as an enabling tool through extensive in vivo mice experiments. Through simultaneous infusions of a chemical (pilocarpine or tetrodotoxin (TTX) at inlet 1), a buffer solution (saline at inlet 2), and 4',6-diamidino-2-phenylindole (DAPI at inlet 3) locally into a mouse brain, we not only modulated the neural activities by varying the concentration of the chemical but also locally stained the cells at our target region (CA1 in hippocampus). More specifically, infusion of pilocarpine with a higher concentration resulted in an increase in neural activities while infusion of TTX with a higher concentration resulted in a distinctive reduction. For each chemical, we acquired multiple sets of data using only one mouse through a single implantation of the chemtrode. Our proposed chemtrode offers 1) multiplexed delivery of three drugs through a compact packaging with a small swept volume and 2) simultaneous recording to monitor near real-time effects on neural signals, which allows for more versatile in vivo experiments with a minimum number of animals to be sacrificed.
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