Continuous online microdialysis using microfluidic sensors: dynamic neurometabolic changes during spreading depolarization
Continuous online microdialysis using microfluidic sensors: dynamic neurometabolic changes during spreading depolarization
Microfluidic glucose biosensors and potassium ion selective electrodes were used in an in vivo study to measure the neurochemical effects of spreading depolarizations (SD), which have been shown to be detrimental to the injured human brain. A microdialysis probe implanted in the cortex of rats was connected to a microfluidic PDMS chip containing the sensors. The dialysate was also analyzed using our gold standard, rapid sampling microdialysis (rsMD). The glucose biosensor performance was validated against rsMD with excellent results. The glucose biosensors successfully monitored concentration changes, in response to SD wave induction, in the range of 10–400 ?M with a second time-resolution. The data show that during a SD wave, there is a time delay of 62 ± 24.8 s (n = 4) between the onset of the increase in potassium and the decrease in glucose. This delay can be for the first time demonstrated, thanks to the high-temporal resolution of the microfluidic sensors sampling from a single tissue site (the microdialysis probe), and it indicates that the decrease in glucose is due to the high demand of energy required for repolarization.
Rogers, Michelle L.
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Feuerstein, Delphine
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Leong, Chi Leng
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Takagaki, Masatoshi
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Niu, Xize
f3d964fb-23b4-45db-92fe-02426e4e76fa
Graf, Rudolf
c8d86fdb-9e69-4189-9798-9f8c18d2d7a0
Boutelle, Martyn G.
71e1592c-2e38-4695-8104-b233cc615494
10 April 2013
Rogers, Michelle L.
9512acb3-e7f4-4a65-b084-08c9c79b6443
Feuerstein, Delphine
f756849c-3d41-4ff1-9e6b-231d5b973fae
Leong, Chi Leng
2e4c1b7f-b864-439a-acb8-4ec81ee54eea
Takagaki, Masatoshi
a7f38c81-9ea3-4371-9b57-9b4b4cf32b47
Niu, Xize
f3d964fb-23b4-45db-92fe-02426e4e76fa
Graf, Rudolf
c8d86fdb-9e69-4189-9798-9f8c18d2d7a0
Boutelle, Martyn G.
71e1592c-2e38-4695-8104-b233cc615494
Rogers, Michelle L., Feuerstein, Delphine, Leong, Chi Leng, Takagaki, Masatoshi, Niu, Xize, Graf, Rudolf and Boutelle, Martyn G.
(2013)
Continuous online microdialysis using microfluidic sensors: dynamic neurometabolic changes during spreading depolarization.
ACS Chemical Neuroscience.
(doi:10.1021/cn400047x).
Abstract
Microfluidic glucose biosensors and potassium ion selective electrodes were used in an in vivo study to measure the neurochemical effects of spreading depolarizations (SD), which have been shown to be detrimental to the injured human brain. A microdialysis probe implanted in the cortex of rats was connected to a microfluidic PDMS chip containing the sensors. The dialysate was also analyzed using our gold standard, rapid sampling microdialysis (rsMD). The glucose biosensor performance was validated against rsMD with excellent results. The glucose biosensors successfully monitored concentration changes, in response to SD wave induction, in the range of 10–400 ?M with a second time-resolution. The data show that during a SD wave, there is a time delay of 62 ± 24.8 s (n = 4) between the onset of the increase in potassium and the decrease in glucose. This delay can be for the first time demonstrated, thanks to the high-temporal resolution of the microfluidic sensors sampling from a single tissue site (the microdialysis probe), and it indicates that the decrease in glucose is due to the high demand of energy required for repolarization.
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Published date: 10 April 2013
Organisations:
Mechatronics
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Local EPrints ID: 352302
URI: http://eprints.soton.ac.uk/id/eprint/352302
ISSN: 1948-7193
PURE UUID: 15196c29-5b31-4261-b8aa-b6ae82026b4d
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Date deposited: 09 May 2013 10:52
Last modified: 14 Mar 2024 13:50
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Author:
Michelle L. Rogers
Author:
Delphine Feuerstein
Author:
Chi Leng Leong
Author:
Masatoshi Takagaki
Author:
Rudolf Graf
Author:
Martyn G. Boutelle
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