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Items: 1 to 20 of 76

1.

Fish in the matrix: motor learning in a virtual world.

Engert F.

Front Neural Circuits. 2013 Jan 25;6:125. doi: 10.3389/fncir.2012.00125. eCollection 2012.

2.

Two-photon calcium imaging during fictive navigation in virtual environments.

Ahrens MB, Huang KH, Narayan S, Mensh BD, Engert F.

Front Neural Circuits. 2013 Jun 6;7:104. doi: 10.3389/fncir.2013.00104. eCollection 2013.

3.

Visually driven chaining of elementary swim patterns into a goal-directed motor sequence: a virtual reality study of zebrafish prey capture.

Trivedi CA, Bollmann JH.

Front Neural Circuits. 2013 May 10;7:86. doi: 10.3389/fncir.2013.00086. eCollection 2013.

4.

A 2D virtual reality system for visual goal-driven navigation in zebrafish larvae.

Jouary A, Haudrechy M, Candelier R, Sumbre G.

Sci Rep. 2016 Sep 23;6:34015. doi: 10.1038/srep34015.

5.

FicTrac: a visual method for tracking spherical motion and generating fictive animal paths.

Moore RJ, Taylor GJ, Paulk AC, Pearson T, van Swinderen B, Srinivasan MV.

J Neurosci Methods. 2014 Mar 30;225:106-19. doi: 10.1016/j.jneumeth.2014.01.010. Epub 2014 Feb 1.

PMID:
24491637
6.

Fictive swimming motor patterns in wild type and mutant larval zebrafish.

Masino MA, Fetcho JR.

J Neurophysiol. 2005 Jun;93(6):3177-88. Epub 2005 Jan 26.

7.

Closed-loop control of zebrafish response using a bioinspired robotic-fish in a preference test.

Kopman V, Laut J, Polverino G, Porfiri M.

J R Soc Interface. 2013 Jan 6;10(78):20120540. doi: 10.1098/rsif.2012.0540.

8.

Fictive rhythmic motor patterns produced by the tail spinal cord in salamanders.

Charrier V, Cabelguen JM.

Neuroscience. 2013;255:191-202. doi: 10.1016/j.neuroscience.2013.10.020. Epub 2013 Oct 23.

PMID:
24161283
9.

Rhythmic motor activity evoked by NMDA in the spinal zebrafish larva.

McDearmid JR, Drapeau P.

J Neurophysiol. 2006 Jan;95(1):401-17. Epub 2005 Oct 5.

10.

Modulation of motor patterns by sensory feedback during earthworm locomotion.

Mizutani K, Shimoi T, Ogawa H, Kitamura Y, Oka K.

Neurosci Res. 2004 Apr;48(4):457-62.

PMID:
15041199
11.

Processing of artificial visual feedback in the walking fruit fly Drosophila melanogaster.

Strauss R, Schuster S, Götz KG.

J Exp Biol. 1997 May;200(Pt 9):1281-96.

12.

Closed-Loop Behavioral Control Increases Coherence in the Fly Brain.

Paulk AC, Kirszenblat L, Zhou Y, van Swinderen B.

J Neurosci. 2015 Jul 15;35(28):10304-15. doi: 10.1523/JNEUROSCI.0691-15.2015.

13.

Distributed interactive virtual environments for collaborative experiential learning and training independent of distance over Internet2.

Alverson DC, Saiki SM Jr, Jacobs J, Saland L, Keep MF, Norenberg J, Baker R, Nakatsu C, Kalishman S, Lindberg M, Wax D, Mowafi M, Summers KL, Holten JR, Greenfield JA, Aalseth E, Nickles D, Sherstyuk A, Haines K, Caudell TP.

Stud Health Technol Inform. 2004;98:7-12.

PMID:
15544229
14.
15.

Rhythmic activity of feline dorsal and ventral spinocerebellar tract neurons during fictive motor actions.

Fedirchuk B, Stecina K, Kristensen KK, Zhang M, Meehan CF, Bennett DJ, Hultborn H.

J Neurophysiol. 2013 Jan;109(2):375-88. doi: 10.1152/jn.00649.2012. Epub 2012 Oct 24.

16.

Recording human electrocorticographic (ECoG) signals for neuroscientific research and real-time functional cortical mapping.

Hill NJ, Gupta D, Brunner P, Gunduz A, Adamo MA, Ritaccio A, Schalk G.

J Vis Exp. 2012 Jun 26;(64). pii: 3993. doi: 10.3791/3993.

17.

Measuring and tracking eye movements of a behaving archer fish by real-time stereo vision.

Ben-Simon A, Ben-Shahar O, Segev R.

J Neurosci Methods. 2009 Nov 15;184(2):235-43. doi: 10.1016/j.jneumeth.2009.08.006. Epub 2009 Aug 19.

PMID:
19698749
18.

Synaptic drive to motoneurons during fictive swimming in the developing zebrafish.

Buss RR, Drapeau P.

J Neurophysiol. 2001 Jul;86(1):197-210.

19.

Adaptive locomotor behavior in larval zebrafish.

Portugues R, Engert F.

Front Syst Neurosci. 2011 Aug 30;5:72. doi: 10.3389/fnsys.2011.00072. eCollection 2011.

20.

Epilepsy in kcnj10 morphant zebrafish assessed with a novel method for long-term EEG recordings.

Zdebik AA, Mahmood F, Stanescu HC, Kleta R, Bockenhauer D, Russell C.

PLoS One. 2013 Nov 14;8(11):e79765. doi: 10.1371/journal.pone.0079765. eCollection 2013.

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