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참 고 문 헌 II (M.C.S.의) (응용 기준으로)

Xenopus laevis oocytes Abstract 보기

J. Comley ;
Automated Patch Clamping- Setting a new standard for early hERG,
Drug Discovery World, 2005/6
A.L. Goldin,
Expression of Ion Channels in Xenopus Oocytes, in Expression and Analysis of Recombinant Ion Channels,
ED J. Clare and D.J. Trezise, Weinheim, 2006, ISBN: 3-527-31209-9
E. Guenther, U. Pehl, C. Leisgen, K. Gampe,
Automated higher-throughput compound screening on ion channels based on the xenopus laevis oocyte expression system
Assay Drug Dev Technol 2004, 2(5)
K. Schnizler et al.;
A novel chloride channel in Drosophila melanogaster is inhibited by protons,
J Biol Chem. 2005 Apr 22;280(16):16254-62. Epub 2005 Feb 15.
K. Schnizler, M. Kuester, C. Methfessel, M. Fejtl,
The roboocyte: automated cDNA/mRNA injection and subsequent TEVC recording on Xenopus oocytes in 96-well microtiter plates.
Receptors Channels. 2003;9(1):41-8.
J.S. Wiley et al.,
A Thr357 to Ser polymorphism in homozygous and compound heterozygous subjects causes absent or reduced P2X7 function and impairs ATP-induced mycobacterial killing by macrophages,
J Biol Chem. 2006 Jan 27;281(4):2079-86.

Cardiac myocytes Abstract 보기

K. Banach, M. D. Halbach, P. Hu, J. Hescheler, U. Egert,
Development of electrical activity in cardiac myocyte aggregates derived from mouse embryonic stem cells,
Am J Physiol Heart Circ Physiol 284, H2114-23 (Jun, 2003).
S. L. Beeres et al.,
Human adult bone marrow mesenchymal stem cells repair experimental conduction block in rat cardiomyocyte cultures,
J.Am.Coll.Cardiol. 46 (10):1943-1952, 2005.
O. Caspi, L. Gepstein,
Potential applications of human embryonic stem cell-derived cardiomyocytes,
Ann N Y Acad Sci 1015, 285-98 (May, 2004).
U. Egert U, T. Meyer,
Heart on a chip.
In: Dhein S, Delmar M (eds) Methods in Cardiovascular Research. Springer Vlg., Stuttgart, 2004
Y. Feld et al.,
Electrophysiological modulation of cardiomyocytic tissue by transfected fibroblasts expressing potassium channels: a novel strategy to manipulate excitability,
Circulation 105, 522-9 (Jan 29, 2002).
M. Halbach, U. Egert , J. Hescheler,K. Banach.
Estimation of action potential changes from field potential recordings in multicellular mouse cardiac myocyte cultures.
Cell Physiol Biochem. 2003;13(5):271-84.
J. Hescheler, B. K. Fleischmann,
Indispensable tools: embryonic stem cells yield insights into the human heart,
J Clin Invest 108, 363-4 (Aug, 2001).
J. Hescheler et al.,
Determination of electrical properties of ES cell-derived cardiomyocytes using MEAs,
J Electrocardiol 37 Suppl, 110-6 (2004).
I. Kehat et al.,
Human embryonic stem cells can differentiate into myocytes with structural and functional properties of cardiomyocytes,
J Clin Invest 108, 407-14 (Aug, 2001).
I. Kehat et al.,
Electromechanical integration of cardiomyocytes derived from human embryonic stem cells,
Nat Biotechnol 22, 1282-9 (Oct, 2004).
Z. J. Lu et al.,
Arrhythmia in isolated prenatal hearts after ablation of the Cav2.3 (alpha1E) subunit of voltage-gated Ca2+ channels,
Cell Physiol Biochem 14, 11-22 (2004).
R. R. Makkar, M. Lill, and P. S. Chen, Stem cell therapy for myocardial repair: is it arrhythmogenic?
J.Am.Coll.Cardiol. 42 (12):2070-2072, 2003.
G. Meiry et al.,
Evolution of action potential propagation and repolarization in cultured neonatal rat ventricular myocytes,
J Cardiovasc Electrophysiol 12, 1269-77 (Nov, 2001).
T. Meyer, K. H. Boven, E. Gunther, M. Fejtl,
Micro-electrode arrays in cardiac safety pharmacology: a novel tool to study QT interval prolongation,
Drug Saf 27, 763-72 (2004).
Th. Meyer, Ch. Leisgen, B. Gonser, E. Guenther,
QT-Screen: High-throughput cardiac safety pharmacology by extracellular electrophysiology on primary cardiac myocytes, ADDT (2004)
A. Natarajan, P. Molnar, K. Sieverdes, A. Jamshidi, J.J. Hickman,
icroelectrode array recordings of cardiac action potentials as a high throughput method to evaluate pesticide toxicity,
Toxicol In Vitro. 2005 Sep 28; [Epub ahead of print]
F. Pillekamp et al.,
Establishment and characterization of a mouse embryonic heart slice preparation.
Cell Physiol Biochem. 2005;16(1-3):127-32.
M. Reppel et al.,
Microelectrode arrays: A new tool to measure embryonic heart activity,
J Electrocardiol 37 Suppl, 104-9 (2004).
M. Reppel, C. Boettinger, J. Hescheler,
Beta-adrenergic and muscarinic modulation of human embryonic stem cell-derived cardiomyocytes,
Cell Physiol Biochem 14, 187-96 (2004).
J. Satin et al.,
Mechanism of spontaneous excitability in human embryonic stem cell derived cardiomyocytes,
J Physiol 559, 479-96 (Sep 1, 2004).
N. Zeevi-Levin , Y.D. Barac, Y. Reisner, I. Reiter, G. Yaniv, G. Meiry, Z. Abassi, S. Kostin, J. Schaper, M. R. Rosen, N. Resnick, O. Binah,
Gap junctional remodeling by hypoxia in cultured neonatal rat ventricular myocytes,
Cardiovasc Res. 2005 Apr 1;66(1):64-73.

Stem cells Abstract 보기

K. Banach, M. D. Halbach, P. Hu, J. Hescheler, U. Egert,
Development of electrical activity in cardiac myocyte aggregates derived from mouse embryonic stem cells,
Am J Physiol Heart Circ Physiol 284, H2114-23 (Jun, 2003).
S. L. Beeres et al.,
Human adult bone marrow mesenchymal stem cells repair experimental conduction block in rat cardiomyocyte cultures,
J.Am.Coll.Cardiol. 46 (10):1943-1952, 2005.
O. Caspi, L. Gepstein,
Potential applications of human embryonic stem cell-derived cardiomyocytes,
Ann N Y Acad Sci 1015, 285-98 (May, 2004).
K. Dolnikov , M. Shilkrut, N. Zeevi-Levin, A. Danon, S. Gerecht-Nir, J. Itskovitz-Eldor, O. Binah,
Functional properties of human embryonic stem cell-derived cardiomyocytes.
Ann N Y Acad Sci. 2005 Jun;1047:66-75.
J. Hescheler, B. K. Fleischmann,
Indispensable tools: embryonic stem cells yield insights into the human heart,
J Clin Invest 108, 363-4 (Aug, 2001).
J. Hescheler et al.,
Determination of electrical properties of ES cell-derived cardiomyocytes using MEAs,
J Electrocardiol 37 Suppl, 110-6 (2004).
J. Hescheler, M. Wartenberg, B. K. Fleischmann, K. Banach, H. Acker, and H. Sauer,
Embryonic stem cells as a model for the physiological analysis of the cardiovascular system,
Methods Mol.Biol. 185:169-187, 2002.
J. Itskovitz-Eldor, S. Gerecht-Nir,
Human embryonic stem cells: a potential source for cellular therapy,
Am J Transplant. 2004;4 Suppl 6:51-7.
I. Kehat et al.,
Human embryonic stem cells can differentiate into myocytes with structural and functional properties of cardiomyocytes,
J Clin Invest 108, 407-14 (Aug, 2001).
I. Kehat et al.,
Electromechanical integration of cardiomyocytes derived from human embryonic stem cells,
Nat Biotechnol 22, 1282-9 (Oct, 2004).
E. Kolossov , Z. Lu , I. Drobinskaya, N. Gassanov , Y. Duan, H. Sauer, O. Manzke, W. Bloch, H. Bohlen, J. Hescheler, B.K. Fleischmann,
Identification and characterization of embryonic stem cell-derived pacemaker and atrial cardiomyocytes,
FASEB J. 2005 Jan 19.
R. R. Makkar, M. Lill, and P. S. Chen, Stem cell therapy for myocardial repair: is it arrhythmogenic?
J.Am.Coll.Cardiol. 42 (12):2070-2072, 2003.
M. Reppel et al.,
The electrocardiogram of human embryonic stem cell-derived cardiomyocytes,
J Electrocardiol. 2005;38 Suppl:166-70.
M. Reppel et al.,
Microelectrode arrays: A new tool to measure embryonic heart activity,
J Electrocardiol 37 Suppl, 104-9 (2004).
M. Reppel, C. Boettinger, J. Hescheler,
Beta-adrenergic and muscarinic modulation of human embryonic stem cell-derived cardiomyocytes,
Cell Physiol Biochem 14, 187-96 (2004).
J. Satin et al.,
Mechanism of spontaneous excitability in human embryonic stem cell derived cardiomyocytes,
J Physiol 559, 479-96 (Sep 1, 2004).
S. Wenisch, K. Trinkaus, A. Hild, D. Hose, C. Heiss, V. Alt, C. Klisch, H. Meissl, R. Schnettler,
Immunochemical, ultrastructural and electrophysiological investigations of bone-derived stem cells in the course of neuronal differentiation,
Bone. 2006 Jan 14;
T. Xue, H.C. Cho, F.G. Akar, S.Y.Tsang, S.P. Jones, E. Marban, G.F. Tomaselli , R.A. Li,
Functional integration of electrically active cardiac derivatives from genetically engineered human embryonic stem cells with quiescent recipient ventricular cardiomyocytes: insights into the development of cell-based pacemakers,
Circulation. 2005 Jan 4;111(1):11-20.

Retina Abstract 보기

M. J. Berry, J. L. Puchalla, E. Schneidman, R. A. Harris,
Redundancy in the Population Code of the Retina
Neuron, Vol 46, 493-504, May 2005
A. H. Chen, Y. Zhou, H. Q. Gong, P. J. Liang,
Luminance adaptation increased the contrast sensitivity of retinal ganglion cells.
Neuroreport. 2005 Mar 15;16(4):371-5.
A.Chen, Y. Zhou, H. Gong, P. Liang,
Chicken retinal ganglion cells response characteristics: multi-channel electrode recording study,
Sci China (2003)
A. H. Chen, Y. Zhou, H. Q. Gong, P. J. Liang,
Firing rates and dynamic correlated activities of ganglion cells both contribute to retinal information processing,
Brain Res 1017, 13-20 (Aug 13, 2004).
J. Demas, S. J. Eglen, R. O. Wong,
Developmental loss of synchronous spontaneous activity in the mouse retina is independent of visual experience,
J Neurosci 23, 2851-60 (Apr 1, 2003).
F. Gekeler et al.,
Subretinal electrical stimulation of the rabbit retina with acutely implanted electrode arrays,
Graefes Arch Clin Exp Ophthalmol 242, 587-96 (Jul, 2004).
P. M. Horton, L. Bonny, A. U. Nicol, K. M. Kendrick, J.F. Feng,
Applications of multi-variate analysis of variance (MANOVA) to multi-electrode array electrophysiology data.
J Neurosci Methods. 2005 Jul 15;146(1):22-41.
A. D. Huberman, K. D. Murray, D. K. Warland, D. A. Feldheim, B. Chapman,
Ephrin-As mediate targeting of eye-specific projections to the lateral geniculate nucleus,
Nat Neurosci. 2005 Aug;8(8):1013-21. Epub 2005 Jul 17.
C. Pfeiffenberger, T. Cutforth, G. Woods, J. Yamada , R. C. Renteria, D. R. Copenhagen, J. G. Flanagan, D. A.Feldheim,
Ephrin-As and neural activity are required for eye-specific patterning during retinogeniculate mapping,
Nat Neurosci. 2005 Aug;8(8):1022-7. Epub 2005 Jul 17.
R. Segev, J. Goodhouse, J. Puchalla, M. J. Berry, 2nd,
Recording spikes from a large fraction of the ganglion cells in a retinal patch,
Nat Neurosci 7, 1154-61 (Oct, 2004).
A. Stett, W. Barth, S. Weiss, H. Haemmerle, E. Zrenner,
Electrical multisite stimulation of the isolated chicken retina,
Vision Res 40, 1785-95 (2000).
M. M. Syed, S. Lee, S.He, Z.J. Zhou,
Spontaneous waves in the ventricular zone of developing mammalian retina.
J Neurophysiol. 2004 May;91(5):1999-2009.
N. Tian, D. R. Copenhagen,
Visual deprivation alters development of synaptic function in inner retina after eye opening,
Neuron 32, 439-49 (Nov 8, 2001).
N. Tian, D. R. Copenhagen,
Visual stimulation is required for refinement of ON and OFF pathways in postnatal retina,
Neuron 39, 85-96 (Jul 3, 2003).
D.C. Tu, D. Zhang, J. Demas, E.B. Slutsky, I. Provencio, T.E. Holy , R.N. Van Gelder,
Physiologic diversity and development of intrinsically photosensitive retinal ganglion cells,
Neuron. 2005 Dec 22;48(6):987-99.
M. Wilms and R. Eckhorn,
Spatiotemporal receptive field properties of epiretinally recorded spikes and local electroretinograms in cats,
BMC.Neurosci. 6:50, 2005.
R.O. Wong, R.C. Stacy, J. Demas, R.W. Burgess, J.R. Sanes ,
Disruption and recovery of patterned retinal activity in the absence of acetylcholine,
J Neurosci. 2005 Oct 12;25(41):9347-57.
G. M. Zeck, Q. Xiao, R. H. Masland,
The spatial filtering properties of local edge detectors and brisk-sustained retinal ganglion cells,
Eur J Neurosci. 2005 Oct;22(8):2016-26.
P. M. Zhang, J. Y. Wu, Y. Zhou, P. J. Liang, J. Q. Yuan,
Spike sorting based on automatic template reconstruction with a partial solution to the overlapping problem,
J Neurosci Methods 135, 55-65 (May 30, 2004).
E. Zrenner et al.,
The development of subretinal microphotodiodes for replacement of degenerated photoreceptors,
Ophthalmic Res 29, 269-80 (1997).
E. Zrenner et al.,
Can subretinal microphotodiodes successfully replace degenerated photoreceptors?,
Vision Res 39, 2555-67 (Jul, 1999).

Cerebellum acute sclices Abstract 보기

U. Egert, D. Heck, A. Aertsen,
Two-dimensional monitoring of spiking networks in acute brain slices,
Exp Brain Res 142, 268-74 (Jan, 2002).

Cortical acute sclices Abstract 보기

C. Wirth, H. R. Luscher,
Spatiotemporal evolution of excitation and inhibition in the rat barrel cortex investigated with multielectrode arrays,
J Neurophysiol 91, 1635-47 (Apr, 2004).

Hippocampal acute slices Abstract 보기

G. Gholmieh et al.,
A biosensor for detecting changes in cognitive processing based on nonlinear systems analysis,
Biosens Bioelectron 16, 491-501 (Sep, 2001).
G. Gholmieh, S. Courellis, A. Dimoka, J. D. Wills, J. LaCoss, J.J. Granacki, V. Marmarelis, T. Berger,
An algorithm for real-time extraction of population EPSP and population spike amplitudes from hippocampal field potential recordings.
J Neurosci Methods. 2004 Jul 30;136(2):111-21.
M. O. Heuschkel, M. Fejtl, M. Raggenbass, D. Bertrand, P. Renaud,
A three-dimensional multi-electrode array for multi-site stimulation and recording in acute brain slices,
J Neurosci Methods 114, 135-48 (Mar 15, 2002).
F. Lante, M. C. de Jesus Ferreira, J. Guiramand, M. Recasens, and M. Vignes,
Low-frequency stimulation induces a new form of LTP, metabotropic glutamate (mGlu(5)) receptor- and PKA-dependent, in the CA1 area of the rat hippocampus.
Hippocampus, 2005.

Organotypic cortical slice cultures Abstract 보기

J. M. Beggs, D. Plenz,
Neuronal avalanches in neocortical circuits,
J Neurosci 23, 11167-77 (Dec 3, 2003).
J. M. Beggs, D. Plenz,
Neuronal avalanches are diverse and precise activity patterns that are stable for many hours in cortical slice cultures,
J Neurosci 24, 5216-29 (Jun 2, 2004).
M.A. Corner , R.E. Baker, J. van Pelt, P.S.Wolters,
Compensatory physiological responses to chronic blockade of amino acid receptors during early development in spontaneously active organotypic cerebral cortex explants cultured in vitro.
Prog Brain Res. 2005;147:231-48. Review.
M.A. Corner, J. van Pelt, P.S. Wolters, R.E. Baker, R.H.Nuytinck,
Physiological effects of sustained blockade of excitatory synaptic transmission on spontaneously active developing neuronal networks-an inquiry into the reciprocal linkage between intrinsic biorhythms and neuroplasticity in early ontogeny.
Neurosci Biobehav Rev. 2002 Mar;26(2):127-85. Review.
F. Hofmann et al.,
Functional re-establishment of the perforant pathway in organotypic co-cultures on microelectrode arrays,
Brain Res 1017, 184-96 (Aug 13, 2004).
J van Pelt , I Vajda , P.S. Wolters , M.A. Corner , G.J. Ramakers,
Dynamics and plasticity in developing neuronal networks in vitro.
Prog Brain Res. 2004;147:171-88.

Organotypic hippocampal slice cultures Abstract 보기

U. Egert et al.,
A novel organotypic long-term culture of the rat hippocampus on substrate-integrated multielectrode arrays,
Brain Res Brain Res Protoc 2, 229-42 (Jun, 1998).
G. Gholmieh et al.,
A biosensor for detecting changes in cognitive processing based on nonlinear systems analysis,
Biosens Bioelectron 16, 491-501 (Sep, 2001).
G. Gholmieh, S. Courellis, A. Dimoka, J. D. Wills, J. LaCoss, J. J. Granacki, V. Marmarelis, T. Berger,
An algorithm for real-time extraction of population EPSP and population spike amplitudes from hippocampal field potential recordings.
J Neurosci Methods. 2004 Jul 30;136(2):111-21.
A. M. Ray et al.,
Capsazepine protects against neuronal injury caused by oxygen glucose deprivation by inhibiting I(h),
J Neurosci 23, 10146-53 (Nov 5, 2003).
A. van Bergen, T. Papanikolaou, A. Schuker, A. Moller, B. Schlosshauer,
Long-term stimulation of mouse hippocampal slice culture on microelectrode array,
Brain Res Brain Res Protoc 11, 123-33 (May, 2003).
M. Y. Xiao, P. Wasling, E. Hanse, B. Gustafsson,
Creation of AMPA-silent synapses in the neonatal hippocampus,
Nat Neurosci 7, 236-43 (Mar, 2004).

Organotypic spinal cord slice cultures Abstract 보기

A. Tscherter, M. O. Heuschkel, P. Renaud, J. Streit,
Spatiotemporal characterization of rhythmic activity in rat spinal cord slice cultures,
Eur J Neurosci 14, 179-90 (Jul, 2001).

Dissociated cortical cell cultures Abstract 보기

D. J. Bakkum, A. C. Shkolnik, G. Ben-Ary, P. Gamblen, T. B. DeMarse and S. M. Potter,
Removing some 멇?from AI: Embodied Cultured Networks
Embodied Artificial Intelligence (2004) Springer-Verlag
I. Baruchi, E. Ben-Jacob,
Functional holography of recorded neuronal networks activity,
Neuroinformatics 2, 333-52 (2004).
Z.C. Chao, D.J. Bakkum, D.A. Wagenaar, S.M. Potter
Effects of random external background stimulation on network synaptic stability after tetanization
Neuroinformatics. 2005;3(3):263-80.
M. Chiappalone, A. Novellino, I. Vajda, A. Vato, S. Martinoia, J. van Pelt,
Burst detection algorithms for the analysis of spatio-temporal patterns in cortical networks of neurons
Neurocomputing 65?6 (2005) 653?62
T. DeMarse, D.A. Wagenaar, A.W. Blau, S. M. Potter,
The neurally controlled animat: Biological brains acting with simulated bodies,
Autonom Robots 11, 305-310 (2001)
S. DeWeerth, J. Ross, G. Prado, Y. Choi, M.Allen, M. LaPlaca
A novel system for measurement of electrophysiological signals associated with traumatic neuronal injury
microTAS, Oct, 2003
D. Eytan, N. Brenner, S. Marom,
Selective adaptation in networks of cortical neurons,
J Neurosci 23, 9349-56 (Oct 15, 2003).
D. Eytan, A. Minerbi, N. Ziv, S. Marom,
Dopamine-induced dispersion of correlations between action potentials in networks of cortical neurons,
J Neurophysiol. 2004 Sep;92(3):1817-24.
P. Gortz et al.,
Implications for hyperhomocysteinemia: not homocysteine but its oxidized forms strongly inhibit neuronal network activity,
J Neurol Sci 218, 109-14 (Mar 15, 2004).
P. Gortz, W. Fleischer, C. Rosenbaum, F. Otto, M. Siebler,
Neuronal network properties of human teratocarcinoma cell line-derived neurons,
Brain Res 1018, 18-25 (Aug 20, 2004).
E. Hulata, R. Segev, Y. Shapira, M. Benveniste, E. Ben-Jacob,
Detection and sorting of neural spikes using wavelet packets,
Phys Rev Lett 85, 4637-40 (Nov 20, 2000).
E. Hulata, I. Baruchi, R. Segev, Y. Shapira, E. Ben-Jacob,
Self-regulated complexity in cultured neuronal networks,
Phys Rev Lett 92, 198105 (May 14, 2004).
Y. Jimbo, N. Kasai, K. Torimitsu, T. Tateno, H. P. Robinson,
A system for MEA-based multisite stimulation,
IEEE Trans Biomed Eng 50, 241-8 (Feb, 2003).
A. Klusmann, W. Fleischer, A. Waldhaus, M. Siebler, E. Mayatepek,
Influence of D-arabitol and ribitol on neuronal network activity,
J Inherit Metab Dis. 2005;28(6):1181-3.
S. Marom, G. Shahaf,
Development, learning and memory in large random networks of cortical neurons: lessons beyond anatomy,
Q Rev Biophys 35, 63-87 (Feb, 2002).
S. Martinoia , V. Sanguineti, L. Cozzi, L. Berdondini, J. van Pelt, J. Tomas, G. Le Masson, F. Davide
Towards an embodied in vitro electrophysiology: the NeuroBIT project.
Neurocomputing 58?0 (2004) 1065 ?1072
S. Martinoia, L. Bonzano, M. Chiappalone, M. Tedesco, M. Marcoli, G. Maura,
In vitro cortical neuronal networks as a new high-sensitive system for biosensing applications,
Biosens Bioelectron. 2005 Apr 15;20(10):2071-2078.
F. Otto, P. Gortz, W. Fleischer, M. Siebler,
Cryopreserved rat cortical cells develop functional neuronal networks on microelectrode arrays,
J Neurosci Methods 128, 173-81 (Sep 30, 2003).
S. M. Potter, T. B. DeMarse,
A new approach to neural cell culture for long-term studies,
J Neurosci Methods 110, 17-24 (Sep 30, 2001).
S.M. Potter, N. Lukina, K.J. Longmuir. Y. Wu,
Multi-Site two-photon imaging of neurons on multi-electrode arrays,
Proc SPIE 4262 (2001)
S.M. Potter, D.A. Wagenaar, R. Madhavan, T.B. DeMarse,
Long-term bidirectional neuron interfaces for robotic control, and in vitro learning studies,
Proceedings of the IEEE-EMBS, 2003
S.M. Potter, D.A. Wagenaar, T.B. DeMarse,
Closing the loop: Stimulation feedback systems for embodied MEA cutlures,
in: Advances in Network Electrophysiology Using Multi-Electrode Arrays, M. Taketani, M. Baudry (Eds.), Springer 2005
G. R. Prado, J. D. Ross, S. P. Deweerth, and M. C. Laplaca,
Mechanical trauma induces immediate changes in neuronal network activity,
J.Neural Eng 2 (4):148-158, 2005.
R. Segev, Y. Shapira, M. Benveniste, E. Ben-Jacob,
Observations and modeling of synchronized bursting in two-dimensional neural networks,
Phys Rev E Stat Nonlin Soft Matter Phys 64, 011920 (Jul, 2001).
R. Segev et al.,
Long term behavior of lithographically prepared in vitro neuronal networks,
Phys Rev Lett 88, 118102 (Mar 18, 2002).
R. Segev, M. Benveniste, Y. Shapira, E. Ben-Jacob,
Formation of electrically active clusterized neural networks,
Phys Rev Lett 90, 168101 (Apr 25, 2003).
R. Segev, I. Baruchi, E. Hulata, E. Ben-Jacob,
Hidden neuronal correlations in cultured networks,
Phys Rev Lett 92, 118102 (Mar 19, 2004).
G. Shahaf, S. Marom,
Learning in networks of cortical neurons,
J Neurosci 21, 8782-8 (Nov 15, 2001).
A. Vato , L. Bonzano, M. Chiappalone, S. Cicero, F. Morabito, A. Novellinoa, G. Stillo,
Spike manager: a new tool for spontaneous and evoked neuronal networks activity characterization,
Neurocomputing 58?0 (2004) 1153 ?1161
J. van Pelt, M.A. Corner, P.S. Wolters, W.L. Rutten, G.J. Ramakers,
Longterm stability and developmental changes in spontaneous network burst firing patterns in dissociated rat cerebral cortex cell cultures on multielectrode arrays.
Neurosci Lett. 2004 May 6;361(1-3):86-9.
J. van Pelt, P.S. Wolters, M.A. Corner,W.L. Rutten,G.J. Ramakers,
Long-term characterization of firing dynamics of spontaneous bursts in cultured neural networks.
IEEE Trans Biomed Eng. 2004 Nov;51(11):2051-62.
J. van Pelt, I. Vajda, P.S. Wolters, M.A. Corner, G.J. Ramakers,
Dynamics and plasticity in developing neuronal networks in vitro,
Prog Brain Res. 2005;147:173-88.
D. A. Wagenaar, J. Pine, S. M. Potter,
Effective parameters for stimulation of dissociated cultures using multi-electrode arrays,
J Neurosci Methods 138, 27-37 (Sep 30, 2004).
D. A. Wagenaar, S. M. Potter,
Real-time multi-channel stimulus artifact suppression by local curve fitting,
J Neurosci Methods 120, 113-20 (Oct 30, 2002).
D.A. Wagenaar, S.M. Potter,
A versatile all-channel stimulator for electrode arrays, with real-time control,
J Neur Eng 1, 39-45 (2004)
D.A. Wagenaar, R. Madhavan, J. Pine, S.M. Potter,
Controlling bursting in cortical cultures with closed-loop multi-electrode stimulation,
J Neurosci. 2005 Jan 19;25(3):680-8.
D.A. Wagenaar, J. Pine, S.M. Potter,
An extremely rich repertoire of bursting patterns during the development of cortical cultures,
BMC Neurosci. 2006 Feb 7;7(1):11

Dissociated hippocampal cell cultures Abstract 보기

F. Arnold, F. Hofmann, P. Bengtson, M. Wittmann, P. Vanhoutte, H. Bading,
Microelectrode array recordings of cultured hippocampal networks reveal a simple model for transcription and protein synthesis-dependent plasticity.
J Physiol 564 (2005) 3-19.
S.Chawla, P. Vanhoutte, F. J. Arnold, C. L. Huang , H. Bading,
Neuronal activity-dependent nucleocytoplasmic shuttling of HDAC4 and HDAC5.
J Neurochem. 2003 Apr;85(1):151-9.
G. E. Hardingham, F. J. Arnold, H. Bading,
A calcium microdomain near NMDA receptors: on switch for ERK-dependent synapse-to-nucleus communication,
Nat Neurosci 4, 565-6 (Jun, 2001).
G. E. Hardingham, F. J. Arnold, H. Bading,
Nuclear calcium signaling controls CREB-mediated gene expression triggered by synaptic activity,
Nat Neurosci 4, 261-7 (Mar, 2001).
G. E. Hardingham, Y. Fukunaga, H. Bading,
Extrasynaptic NMDARs oppose synaptic NMDARs by triggering CREB shut-off and cell death pathways,
Nat Neurosci 5, 405-14 (May, 2002).
Y. Nam, J. C. Chang, B. C. Wheeler, G. J. Brewer,
Gold-coated microelectrode array with thiol linked self-assembled monolayers for engineering neuronal cultures,
IEEE Trans Biomed Eng 51, 158-65 (Jan, 2004).
V. Torre, P. Bonifazi, M.E. Ruaro,
Statistical properties of information processing in neuronal networks,
Eur J Neurosci. 2005 Dec;22(11):2953-64.

Dissociated spinal cord cell cultures Abstract 보기

P. Darbon, A. Tscherter, C. Yvon, J. Streit,
Role of the electrogenic Na/K pump in disinhibition-induced bursting in cultured spinal networks.
J Neurophysiol. 2003 Nov;90(5):3119-29.
P. Darbon, C. Yvon, J.C. Legrand, J. Streit,
INaP underlies intrinsic spiking and rhythm generation in networks of cultured rat spinal cord neurons.
Eur J Neurosci. 2004 Aug;20(4):976-88.
J. Streit, A. Tscherter, M. O. Heuschkel, P. Renaud,
The generation of rhythmic activity in dissociated cultures of rat spinal cord,
Eur J Neurosci 14, 191-202 (Jul, 2001).
J. C. Legrand, P. Darbon, J. Streit,
Contributions of NMDA receptors to network recruitment and rhythm generation in spinal cord cultures.
Eur J Neurosci. 2004 Feb;19(3):521-32.
J. C. Legrand, P. Darbon, and J. Streit,
Effects of brain-derived neurotrophic factor (BDNF) on activity mediated by NMDA receptors in rat spinal cord cultures,
Neurosci.Lett. 390 (3):145-149, 2005.
C. Yvon , R. Rubli, J. Streit,
Patterns of spontaneous activity in unstructured and minimally structured spinal networks in culture,
Exp Brain Res. 2005 Jun 7

Glia cell cultures Abstract 보기

I. Baruchi, E. Ben-Jacob,
Functional holography of recorded neuronal networks activity,
Neuroinformatics 2, 333-52 (2004).
E. Hulata, I. Baruchi, R. Segev, Y. Shapira, E. Ben-Jacob,
Self-regulated complexity in cultured neuronal networks,
Phys Rev Lett 92, 198105 (May 14, 2004).
S.M. Potter, N. Lukina, K.J. Longmuir. Y. Wu,
Multi-Site two-photon imaging of neurons on multi-electrode arrays,
Proc SPIE 4262 (2001)
D.A. Wagenaar, S.M. Potter,
A versatile all-channel stimulator for electrode arrays, with real-time control,
J Neur Eng 1, 39-45 (2004)

Suprachiasmatic nucleus (SCN) Abstract 보기

M. H. Hastings,E. D. Herzog,
Clock genes, oscillators, and cellular networks in the suprachiasmatic nuclei.
J Biol Rhythms. 2004 Oct;19(5):400-13.
E. D. Herzog, R. M. Huckfeldt,
Circadian entrainment to temperature, but not light, in the isolated suprachiasmatic nucleus,
J Neurophysiol 90, 763-70 (Aug, 2003).
E. D. Herzog, S. J. Aton, R. Numano, Y. Sakaki, H. Tei,
Temporal precision in the mammalian circadian system: a reliable clock from less reliable neurons,
J Biol Rhythms 19, 35-46 (Feb, 2004).
E. D. Herzog, S. J. Aton, C. S. Colwell, A. J. Harmar, J. Waschek,
Vasoactive intestinal polypeptide mediates circadian rhythmicity and synchrony in mammalian clock neurons,
Nat Neurosci. 2005 Mar 6.
D. Ren, J.D. Miller,
Primary cell culture of suprachiasmatic nucleus.
Brain Res Bull. 2003 Sep 30;61(5):547-53. Review.
E. Tousson, H. Meissl,
Suprachiasmatic nuclei grafts restore the circadian rhythm in the paraventricular nucleus of the hypothalamus,
J Neurosci 24, 2983-8 (Mar 24, 2004).
R. N. Van Gelder, E. D. Herzog, W. J. Schwartz, P. H. Taghert,
Circadian rhythms: in the loop at last,
Science 300, 1534-5 (Jun 6, 2003).

Cryo cells, Abstract 보기

F. Otto, P. Gortz, W. Fleischer, M. Siebler,
Cryopreserved rat cortical cells develop functional neuronal networks on microelectrode arrays,
J Neurosci Methods 128, 173-81 (Sep 30, 2003).
M. Siebler, F. Otto, B.C. Kieseier, P. Gortz, H.P. Hartung,
The pentapeptide QYNAD does not inhibit neuronal network activity,
Can J Neurol Sci. 2005 Aug;32(3):344-8.

Neural cell lines Abstract 보기

P. Gortz, W. Fleischer, C. Rosenbaum, F. Otto, M. Siebler,
Neuronal network properties of human teratocarcinoma cell line-derived neurons,
Brain Res 1018, 18-25 (Aug 20, 2004).

Others Abstract 보기

D. Granados-Fuentes, M. T. Saxena, L. M. Prolo, S. J. Aton, E. D. Herzog,
Olfactory bulb neurons express functional, entrainable circadian rhythms,
Eur J Neurosci 19, 898-906 (Feb, 2004).
J. Stern-Straeter, A.D. Bach, L. Stangenberg, V.T. Foerster, R.E. Horch, G.B.Stark, J.P. Beier,
Impact of electrical stimulation on three-dimensional myoblast cultures - a real-time RT-PCR study,
J Cell Mol Med. 2005 Oct-Dec;9(4):883-92.