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Items: 1 to 20 of 170

1.

Wireless Instantaneous Neurotransmitter Concentration System-based amperometric detection of dopamine, adenosine, and glutamate for intraoperative neurochemical monitoring.

Agnesi F, Tye SJ, Bledsoe JM, Griessenauer CJ, Kimble CJ, Sieck GC, Bennet KE, Garris PA, Blaha CD, Lee KH.

J Neurosurg. 2009 Oct;111(4):701-11. doi: 10.3171/2009.3.JNS0990.

2.

Development of the Wireless Instantaneous Neurotransmitter Concentration System for intraoperative neurochemical monitoring using fast-scan cyclic voltammetry.

Bledsoe JM, Kimble CJ, Covey DP, Blaha CD, Agnesi F, Mohseni P, Whitlock S, Johnson DM, Horne A, Bennet KE, Lee KH, Garris PA.

J Neurosurg. 2009 Oct;111(4):712-23. doi: 10.3171/2009.3.JNS081348.

3.

Development of intraoperative electrochemical detection: wireless instantaneous neurochemical concentration sensor for deep brain stimulation feedback.

Van Gompel JJ, Chang SY, Goerss SJ, Kim IY, Kimble C, Bennet KE, Lee KH.

Neurosurg Focus. 2010 Aug;29(2):E6. doi: 10.3171/2010.5.FOCUS10110. Review.

4.

Comonitoring of adenosine and dopamine using the Wireless Instantaneous Neurotransmitter Concentration System: proof of principle.

Shon YM, Chang SY, Tye SJ, Kimble CJ, Bennet KE, Blaha CD, Lee KH.

J Neurosurg. 2010 Mar;112(3):539-48. doi: 10.3171/2009.7.JNS09787.

5.

Wireless Instantaneous Neurotransmitter Concentration Sensing System (WINCS) for intraoperative neurochemical monitoring.

Kimble CJ, Johnson DM, Winter BA, Whitlock SV, Kressin KR, Horne AE, Robinson JC, Bledsoe JM, Tye SJ, Chang SY, Agnesi F, Griessenauer CJ, Covey D, Shon YM, Bennet KE, Garris PA, Lee KH.

Conf Proc IEEE Eng Med Biol Soc. 2009;2009:4856-9. doi: 10.1109/IEMBS.2009.5332773.

6.

Wireless Instantaneous Neurotransmitter Concentration System: electrochemical monitoring of serotonin using fast-scan cyclic voltammetry--a proof-of-principle study.

Griessenauer CJ, Chang SY, Tye SJ, Kimble CJ, Bennet KE, Garris PA, Lee KH.

J Neurosurg. 2010 Sep;113(3):656-65. doi: 10.3171/2010.3.JNS091627.

7.

Development of the Mayo Investigational Neuromodulation Control System: toward a closed-loop electrochemical feedback system for deep brain stimulation.

Chang SY, Kimble CJ, Kim I, Paek SB, Kressin KR, Boesche JB, Whitlock SV, Eaker DR, Kasasbeh A, Horne AE, Blaha CD, Bennet KE, Lee KH.

J Neurosurg. 2013 Dec;119(6):1556-65. doi: 10.3171/2013.8.JNS122142. Epub 2013 Oct 11. Erratum in: J Neurosurg. 2014 May;120(5):1258.

8.

Wireless neurochemical monitoring in humans.

Kasasbeh A, Lee K, Bieber A, Bennet K, Chang SY.

Stereotact Funct Neurosurg. 2013;91(3):141-7. doi: 10.1159/000345111. Epub 2013 Feb 27. Review.

9.

Carbon nanofiber electrode array for electrochemical detection of dopamine using fast scan cyclic voltammetry.

Koehne JE, Marsh M, Boakye A, Douglas B, Kim IY, Chang SY, Jang DP, Bennet KE, Kimble C, Andrews R, Meyyappan M, Lee KH.

Analyst. 2011 May 7;136(9):1802-5. doi: 10.1039/c1an15025a. Epub 2011 Mar 8.

10.

Emerging techniques for elucidating mechanism of action of deep brain stimulation.

Lee KH, Chang SY, Jang DP, Kim I, Goerss S, Van Gompel J, Min P, Arora K, Marsh M, Hwang SC, Kimble CJ, Garris P, Blaha C, Bennet KE.

Conf Proc IEEE Eng Med Biol Soc. 2011;2011:677-80. doi: 10.1109/IEMBS.2011.6090152.

11.

Wireless transmission of fast-scan cyclic voltammetry at a carbon-fiber microelectrode: proof of principle.

Garris PA, Ensman R, Poehlman J, Alexander A, Langley PE, Sandberg SG, Greco PG, Wightman RM, Rebec GV.

J Neurosci Methods. 2004 Dec 30;140(1-2):103-15.

PMID:
15589340
12.

Local glutamate release in the rat ventral lateral thalamus evoked by high-frequency stimulation.

Agnesi F, Blaha CD, Lin J, Lee KH.

J Neural Eng. 2010 Apr;7(2):26009. doi: 10.1088/1741-2560/7/2/026009. Epub 2010 Mar 23.

13.

Dopamine measurement during prolonged deep brain stimulation: a proof-of-principle study of paired pulse voltammetry.

Paek SB, Knight EJ, Chang SY, Lujan JL, Jang DP, Bennet KE, Lee KH.

Biomed Eng Lett. 2013 Mar 1;3(1):22-31.

14.

Microthalamotomy effect during deep brain stimulation: potential involvement of adenosine and glutamate efflux.

Chang SY, Shon YM, Agnesi F, Lee KH.

Conf Proc IEEE Eng Med Biol Soc. 2009;2009:3294-7. doi: 10.1109/IEMBS.2009.5333735.

15.

High frequency stimulation of the subthalamic nucleus evokes striatal dopamine release in a large animal model of human DBS neurosurgery.

Shon YM, Lee KH, Goerss SJ, Kim IY, Kimble C, Van Gompel JJ, Bennet K, Blaha CD, Chang SY.

Neurosci Lett. 2010 May 21;475(3):136-40. doi: 10.1016/j.neulet.2010.03.060. Epub 2010 Mar 27.

16.

Wireless fast-scan cyclic voltammetry measurement of histamine using WINCS--a proof-of-principle study.

Chang SY, Jay T, Muñoz J, Kim I, Lee KH.

Analyst. 2012 May 7;137(9):2158-65. doi: 10.1039/c2an16038b. Epub 2012 Mar 14.

17.

Real time adenosine fluctuations detected with fast-scan cyclic voltammetry in the rat striatum and motor cortex.

Adamah-Biassi EB, Almonte AG, Blagovechtchenski E, Grinevich VP, Weiner JL, Bonin KD, Budygin EA.

J Neurosci Methods. 2015 Dec 30;256:56-62. doi: 10.1016/j.jneumeth.2015.08.017. Epub 2015 Aug 24.

PMID:
26310181
18.

Microfabricated FSCV-compatible microelectrode array for real-time monitoring of heterogeneous dopamine release.

Zachek MK, Park J, Takmakov P, Wightman RM, McCarty GS.

Analyst. 2010 Jul;135(7):1556-63. doi: 10.1039/c0an00114g. Epub 2010 May 13.

19.

Real-time processing of fast-scan cyclic voltammetry (FSCV) data using a field-programmable gate array (FPGA).

Bozorgzadeh B, Covey DP, Heidenreich BA, Garris PA, Mohseni P.

Conf Proc IEEE Eng Med Biol Soc. 2014;2014:2036-9. doi: 10.1109/EMBC.2014.6944016.

PMID:
25570384
20.

Increased cortical extracellular adenosine correlates with seizure termination.

Van Gompel JJ, Bower MR, Worrell GA, Stead M, Chang SY, Goerss SJ, Kim I, Bennet KE, Meyer FB, Marsh WR, Blaha CD, Lee KH.

Epilepsia. 2014 Feb;55(2):233-44. doi: 10.1111/epi.12511. Epub 2014 Jan 31. Erratum in: Epilepsia. 2014 Sep;55(9):1475.

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