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Items: 1 to 20 of 104

1.

Injectable, cellular-scale optoelectronics with applications for wireless optogenetics.

Kim TI, McCall JG, Jung YH, Huang X, Siuda ER, Li Y, Song J, Song YM, Pao HA, Kim RH, Lu C, Lee SD, Song IS, Shin G, Al-Hasani R, Kim S, Tan MP, Huang Y, Omenetto FG, Rogers JA, Bruchas MR.

Science. 2013 Apr 12;340(6129):211-6. doi: 10.1126/science.1232437.

2.

Ultraminiaturized photovoltaic and radio frequency powered optoelectronic systems for wireless optogenetics.

Park SI, Shin G, Banks A, McCall JG, Siuda ER, Schmidt MJ, Chung HU, Noh KN, Mun JG, Rhodes J, Bruchas MR, Rogers JA.

J Neural Eng. 2015 Oct;12(5):056002-56002. doi: 10.1088/1741-2560/12/5/056002. Epub 2015 Jul 20.

3.

Wireless Optofluidic Systems for Programmable In Vivo Pharmacology and Optogenetics.

Jeong JW, McCall JG, Shin G, Zhang Y, Al-Hasani R, Kim M, Li S, Sim JY, Jang KI, Shi Y, Hong DY, Liu Y, Schmitz GP, Xia L, He Z, Gamble P, Ray WZ, Huang Y, Bruchas MR, Rogers JA.

Cell. 2015 Jul 30;162(3):662-74. doi: 10.1016/j.cell.2015.06.058. Epub 2015 Jul 16.

4.

Transparent intracortical microprobe array for simultaneous spatiotemporal optical stimulation and multichannel electrical recording.

Lee J, Ozden I, Song YK, Nurmikko AV.

Nat Methods. 2015 Dec;12(12):1157-62. doi: 10.1038/nmeth.3620. Epub 2015 Oct 12.

PMID:
26457862
5.

Flexible Near-Field Wireless Optoelectronics as Subdermal Implants for Broad Applications in Optogenetics.

Shin G, Gomez AM, Al-Hasani R, Jeong YR, Kim J, Xie Z, Banks A, Lee SM, Han SY, Yoo CJ, Lee JL, Lee SH, Kurniawan J, Tureb J, Guo Z, Yoon J, Park SI, Bang SY, Nam Y, Walicki MC, Samineni VK, Mickle AD, Lee K, Heo SY, McCall JG, Pan T, Wang L, Feng X, Kim TI, Kim JK, Li Y, Huang Y, Gereau RW 4th, Ha JS, Bruchas MR, Rogers JA.

Neuron. 2017 Feb 8;93(3):509-521.e3. doi: 10.1016/j.neuron.2016.12.031. Epub 2017 Jan 26.

PMID:
28132830
6.

Tiny light, big hope.

Bessieres B, Bontempi B, Nicole O.

Mov Disord. 2013 Aug;28(9):1210. doi: 10.1002/mds.25530. Epub 2013 Aug 7. No abstract available.

PMID:
23925900
7.

Optogenetics in Freely Moving Mammals: Dopamine and Reward.

Zhang F, Tsai HC, Airan RD, Stuber GD, Adamantidis AR, de Lecea L, Bonci A, Deisseroth K.

Cold Spring Harb Protoc. 2015 Aug 3;2015(8):715-24. doi: 10.1101/pdb.top086330.

PMID:
26240415
8.

Preparation and implementation of optofluidic neural probes for in vivo wireless pharmacology and optogenetics.

McCall JG, Qazi R, Shin G, Li S, Ikram MH, Jang KI, Liu Y, Al-Hasani R, Bruchas MR, Jeong JW, Rogers JA.

Nat Protoc. 2017 Feb;12(2):219-237. doi: 10.1038/nprot.2016.155. Epub 2017 Jan 5.

PMID:
28055036
9.

A Miniature, Fiber-Coupled, Wireless, Deep-Brain Optogenetic Stimulator.

Lee ST, Williams PA, Braine CE, Lin DT, John SW, Irazoqui PP.

IEEE Trans Neural Syst Rehabil Eng. 2015 Jul;23(4):655-64. doi: 10.1109/TNSRE.2015.2391282. Epub 2015 Jan 15.

PMID:
25608307
10.

Optogenetics and synaptic plasticity.

Xie YF, Jackson MF, Macdonald JF.

Acta Pharmacol Sin. 2013 Nov;34(11):1381-5. doi: 10.1038/aps.2013.150. Epub 2013 Oct 28. Review.

11.

Mapping Anatomy to Behavior in Thy1:18 ChR2-YFP Transgenic Mice Using Optogenetics.

Fenno LE, Gunaydin LA, Deisseroth K.

Cold Spring Harb Protoc. 2015 Jun 1;2015(6):537-48. doi: 10.1101/pdb.prot075598.

PMID:
26034299
12.

Fabrication and application of flexible, multimodal light-emitting devices for wireless optogenetics.

McCall JG, Kim TI, Shin G, Huang X, Jung YH, Al-Hasani R, Omenetto FG, Bruchas MR, Rogers JA.

Nat Protoc. 2013 Dec;8(12):2413-2428. doi: 10.1038/nprot.2013.158. Epub 2013 Nov 7.

13.

Overview on Research and Clinical Applications of Optogenetics.

Towne C, Thompson KR.

Curr Protoc Pharmacol. 2016 Dec 13;75:11.19.1-11.19.21. doi: 10.1002/cpph.13. Review.

PMID:
27960028
14.

Optogenetics, the intersection between physics and neuroscience: light stimulation of neurons in physiological conditions.

Deng W, Goldys EM, Farnham MM, Pilowsky PM.

Am J Physiol Regul Integr Comp Physiol. 2014 Dec 1;307(11):R1292-302. doi: 10.1152/ajpregu.00072.2014. Epub 2014 Oct 1. Review.

15.

Optogenetically induced behavioral and functional network changes in primates.

Gerits A, Farivar R, Rosen BR, Wald LL, Boyden ES, Vanduffel W.

Curr Biol. 2012 Sep 25;22(18):1722-6. doi: 10.1016/j.cub.2012.07.023. Epub 2012 Jul 26.

16.

CMOS image sensor integrated with micro-LED and multielectrode arrays for the patterned photostimulation and multichannel recording of neuronal tissue.

Nakajima A, Kimura H, Sawadsaringkarn Y, Maezawa Y, Kobayashi T, Noda T, Sasagawa K, Tokuda T, Ishikawa Y, Shiosaka S, Ohta J.

Opt Express. 2012 Mar 12;20(6):6097-108. doi: 10.1364/OE.20.006097.

PMID:
22418489
17.

A new technique for controlling the brain: optogenetics and its potential for use in research and the clinic.

LaLumiere RT.

Brain Stimul. 2011 Jan;4(1):1-6. doi: 10.1016/j.brs.2010.09.009. Epub 2010 Oct 29. Review.

PMID:
21255749
18.

An implantable neural probe with monolithically integrated dielectric waveguide and recording electrodes for optogenetics applications.

Wu F, Stark E, Im M, Cho IJ, Yoon ES, Buzsáki G, Wise KD, Yoon E.

J Neural Eng. 2013 Oct;10(5):056012. doi: 10.1088/1741-2560/10/5/056012. Epub 2013 Aug 28.

19.

Integrated semiconductor optical sensors for chronic, minimally-invasive imaging of brain function.

Lee TT, Levi O, Cang J, Kaneko M, Stryker MP, Smith SJ, Shenoy KV, Harris JS.

Conf Proc IEEE Eng Med Biol Soc. 2006;1:1025-8.

20.

Optogenetic brain interfaces.

Pashaie R, Anikeeva P, Lee JH, Prakash R, Yizhar O, Prigge M, Chander D, Richner TJ, Williams J.

IEEE Rev Biomed Eng. 2014;7:3-30. doi: 10.1109/RBME.2013.2294796. Review.

PMID:
24802525

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