| [1] |
3-D nets homepage.
http://www.neuro.gatech.edu/brp. [ bib | http ] |
| [2] |
Saeed Aghtar, J. W. Haslett, and F. N. Trofimenkoff.
Subthreshold analysis of an MOS analog switch.
IEEE Trans. Electron Devices, 44(1):89-96, January 1997. [ bib | .pdf | Abstract ] |
| [3] |
Bhupendra K. Ahuja.
An improved frequency compensation technique for CMOS operational
amplifiers.
IEEE J. Solid-State Circuits, 18(6):629-633, December 1983. [ bib | .pdf | Abstract ] |
| [4] |
Tayfun Akin, Khalil Najafi, and Robert M. Bradley.
A wireless implantable multichannel digital neural recording system
for a micromachined sieve electrode.
IEEE J. Solid-State Circuits, 33(1):109-118, January 1998. [ bib | .pdf | Abstract ] |
| [5] |
Qing Bai and Kensall D. Wise.
Single-unit neural recording with active microelectrode arrays.
IEEE Trans. Biomed. Eng., 48(8):911-920, August 2001. [ bib | .pdf | Abstract ] |
| [6] |
Steven M. Bierer and David J. Anderson.
Multi-channel spike detection and sorting using an array processing
technique.
Neurocomputing, 26-27:947-956, June 1999. [ bib | .pdf | Abstract ] |
| [7] |
Richard A. Blum, James D. Ross, Crystal M. Simon, Edgar A. Brown, Reid R.
Harrison, and Stephen P. DeWeerth.
A custom multielectrode array with integrated low-noise
preamplifiers.
In Proc. of the IEEE Engineering in Medicine and Biology
Conference, pages 3396-3399, Cancun, Mexico, September 2003. [ bib | .pdf | Abstract ] |
| [8] |
Karl F. Böhringer.
Surface modification and modulation in microstructures: Controlling
protein adsorption, monolayer desorption, and micro-self-assembly. [ bib | .pdf | Abstract ] |
| [9] |
D. A. Borkholder, J. Bao, N. I. Maluf, E. R. Perl, and G. T. A. Kovacs.
Microelectrode arrays for stimulation of neural slice preparations.
J. Neurosci. Meth., 77(1):61-66, November 1997. [ bib | .pdf | Abstract ] |
| [10] |
D. A. Borkholder, I. E. Opris, N. I. Maluf, and G. T. A. Kovacs.
Planar electrode array systems for neural recording and impedance
measurements.
In Proc. of the IEEE Engineering in Medicine and Biology
Conference, volume 1, pages 106-107, Amsterdam, 1996. [ bib | .pdf | Abstract ] |
| [11] |
David A. Borkholder.
Cell Based Sensors Using Microelectrodes.
PhD thesis, Stanford University, November 1998. [ bib | .pdf ] |
| [12] |
M. Bove, G. Massobrio, S. Martinoia, and M. Grattarola.
Realistic simulations of neurons by means of an ad hoc modified
version of SPICE.
Biol. Cybern., 71(2):137-145, June 1994. [ bib | .pdf | Abstract ] |
| [13] |
Federico Bruccoleri, Eric A. M. Klumperink, and Bram Nauta.
Wide-band CMOS low-noise amplifier exploiting thermal noise
canceling.
IEEE J. Solid-State Circuits, 39(2):275-282, February 2004. [ bib | .pdf | Abstract ] |
| [14] |
G. J. Brug, A. L. G. Van Den Eeden, M. Sluyters-Rehbach, and J. H. Sluyters.
The analysis of electrode impedances complicated by the presence of a
constant phase element.
J. Electroanal. Chem., 176(1-2):275-295, September 1984. [ bib | .pdf | Abstract ] |
| [15] |
Matthias Bucher, Dmitrios Kazazis, François Krummenacher, David Binkley,
Daniel Foty, and Yannis Papananos.
Analysis of transconductances at all levels of inversion in deep
submicron CMOS.
In Proc. Int. Conf. Circuits and Systems, volume 3, pages
1183-1186, 2002. [ bib | .pdf | Abstract ] |
| [16] |
Volker Bucher, Michael Graf, Martin Stelzle, and Wilfried Nisch.
Low-impedance thin-film polycrystalline silicon microelectrodes for
extracellular stimulation and recording.
Biosens. Bioelectron., 14(7):639-649, October 1999. [ bib | .pdf | Abstract ] |
| [17] |
J. R. Buitenweg, W. L. C. Rutten, E. Marania, S. K. L. Polmana, and J. Ursum.
Extracellular detection of active membrane currents in the
neuron-electrode interface.
J. Neurosci. Meth., 115(2):211-221, April 2002. [ bib | .pdf | Abstract ] |
| [18] |
Jan Reinoud Buitenweg, Wim L. C. Rutten, and Enrico Marani.
Geometry-based finite-element modeling of the electrical contact
between a cultured neuron and a microelectrode.
IEEE Trans. Biomed. Eng., 50(4):501-509, April 2003. [ bib | .pdf | Abstract ] |
| [19] |
P.K. Chan and Y.C. Chen.
Gain-enhanced feedforward path compensation technique for pole-zero
cancellation at heavy capacitive loads.
IEEE Trans. Circuits Syst. II, 50(12):933-941, December
2003. [ bib | .pdf | Abstract ] |
| [20] |
You-Yin Chen, Te-Son Kuo, and Fu-Shan Jaw.
A laser micromachined probe for recording multiple field potentials
in the thalamus.
J. Neurosci. Meth., 139(1):99-09, October 2004. [ bib | .pdf | Abstract ] |
| [21] |
Enric Claverol-Tinture and Jerome Pine.
Extracellular potentials in low-density dissociated neuronal
cultures.
J. Neurosci. Meth., 117(1):13-21, May 2002. [ bib | .pdf | Abstract ] |
| [22] |
David J. Comer and Donald T. Comer.
Using the weak inversion region to optimize input stage design of
CMOS op amps.
IEEE Trans. Circuits Syst. II, 51(1):8-14, January 2004. [ bib | .pdf | Abstract ] |
| [23] |
P. Connolly, P. Clark, A. S. G. Curtis, J. A. T. Dow, and C. D. W. Wilkinson.
An extracellular microelectrode array for monitoring electrogenic
cells in culture.
Biosens. Bioelectron., 5(3):223-234, 1990. [ bib | .pdf | Abstract ] |
| [24] |
Jozsef Csicsvari, Darrell A. Henze, Brian Jamieson, Kenneth D. Harris, Anton
Sirota, Péter Barthó, Kensall D. Wise, and György
Buzsáki.
Massively parallel recording of unit and local field potentials with
silicon-based electrodes.
J. Neurophysiol., 90:1314-1323, August 2003. [ bib | .pdf | Abstract ] |
| [25] |
W. Dabrowski, P. Grybos, and A. M. Litke.
A low noise multichannel integrated circuit for recording neuronal
signals using microelectrode arrays.
Biosens. Bioelectron., 19(7):749-761, February 2004. [ bib | .pdf | Abstract ]
The preamplifier is a fairly standard design: differential pair, CD, CS. The authors make frequent use of MOSFETs in the linear region as resistors. Picofarad capacitors are necessary in each amplifier. Compare to Harrison's design [62] and Ji's design [72].
|
| [26] |
R De Levie.
The influence of surface roughness of solid electrodes on
electrochemical measurements.
Electrochim. Acta, 10(2):113-130, February 1965. [ bib | .pdf | Abstract ] |
| [27] |
B. Derek DeBusschere and Gregory T. A. Kovacs.
Portable cell-based biosensor system using integrated CMOS
cell-cartridges.
Biosens. Bioelectron., 16(7-8):543-556, September 2001. [ bib | .pdf | Abstract ] |
| [28] |
Tobi Delbrück and Carver A. Mead.
Adaptive photoreceptor with wide dynamic range.
In Proc. of the IEEE Int. Symp. Circuits and Systems,
volume 4, pages 339-342, 1994. [ bib | .pdf | Abstract ] |
| [29] |
Stephen C. DeMarco, Wentai Liu, Praveen R. Singh, Gianluca Lazzi, Mark S.
Humayun, and James D. Weiland.
An arbitrary waveform stimulus circuit for visual prostheses using a
low-area multibias DAC.
IEEE J. Solid-State Circuits, 38(10):1679-1690, October
2003. [ bib | .pdf | Abstract ] |
| [30] |
Stephen P. DeWeerth et al.
A 3-D microfluidic/electronic neural interface system: In
Vitro studies of neural networks, plasticity, and injury. [ bib | .pdf ] |
| [31] |
Stephen P. DeWeerth, Girish N. Patel, and Mario F. Simoni.
Variable linear-range subthreshold OTA.
Electron. Lett., 33(15):1309-1311, July 1997. [ bib | .pdf | Abstract ] |
| [32] |
Michael G. Dorman, Margaret A. Prisbe, and James D. Meindl.
A monolithic signal processor for a neurophysiological telemetry
system.
IEEE J. Solid-State Circuits, 20(6):1185-1193, December
1985. [ bib | .pdf | Abstract ] |
| [33] |
Emmanuel M. Drakakis, Alison J. Payne, and Chris Toumazou.
``Log-domain state-space'': a systematic transistor-level
approach for log-domain_filtering.
IEEE Trans. Circuits Syst. II, 46(3):290-305, March 1999. [ bib | .pdf | Abstract ] |
| [34] |
Patrick G. Drennan and Colin C. McAndrew.
Understanding MOSFET mismatch for analog design.
IEEE J. Solid-State Circuits, 38(3):450-456, March 2003. [ bib | .pdf | Abstract ] |
| [35] |
Tonny A. F. Duisters and Eise Carel Dijkmans.
A -90-db THD rail-to-rail input opamp using a new local charge
pump in CMOS.
IEEE J. Solid-State Circuits, 33(7):947-955, July 1998. [ bib | .pdf | Abstract ] |
| [36] |
S. Duport, C. Millerin, D. Muller, and P. Corregès.
A metallic multisite recording system designed for continuous
long-term monitoring of electrophysiological activity in slice cultures.
Biosens. Bioelectron., 14(4):369-376, April 1999. [ bib | .pdf | Abstract ] |
| [37] |
H. Ecken, S. Ingebrandt, M. Krause, D. Richter, M. Hara, and
A. Offenhäusser.
64-Channel extended gate electrode arrays for extracellular signal
recording.
Electrochimica Acta, 48:3355-3362, 2003. [ bib | .pdf | Abstract ] |
| [38] |
U. Egert, B. Schlosshauer, S. Fennrich, W. Nisch, M. Fejtl, T. Knott,
T. Müller, and H. Hämmerle.
A novel organotypic long-term culture of the rat hippocampus on
substrate-integrated multielectrode arrays.
Brain Res. Protoc., 2(4):229-242, June 1998. [ bib | .pdf | Abstract ] |
| [39] |
A. A. Emondi, S. P. Rebrik, A. V. Kurgansky, and K. D. Miller.
Tracking neurons recorded from tetrodes across time.
J. Neurosci. Meth., 135(1-2):95-105, May 2004. [ bib | .pdf | Abstract ] |
| [40] |
Christian C. Enz, François Krummenacher, and Eric A. Vittoz.
An analytical MOS transistor model valid in all regions of
operation and dedicated to low-voltage and low-current applications.
Analog Integrat. Circuits Signal Process., 8:83-114, 1995. [ bib | .pdf | Abstract ] |
| [41] |
Björn Eversmann, Martin Jenkner, Franz Hofmann, Christian Paulus, Ralf
Brederlow, Birgit Holzapfl, Peter Fromherz, Matthias Merz, Markus Brenner,
Matthias Schreiter, Reinhard Gabl, Kurt Plehnert, Michael Steinhauser, Gerald
Eckstein, Doris Schmitt-Landsiedel, and Roland Thewes.
A 128× 128 CMOS biosensor array for extracellular recording
of neural activity.
IEEE J. Solid-State Circuits, 38(12):2306-2317, December
2003. [ bib | .pdf | Abstract ] |
| [42] |
Pietro Favia and Riccardo d'Agostino.
Plasma processed surfaces for biomedical devices: PEO-like,
Ag/PEO-like, -COOH functional and micro-patterned coatings.
In CIP 2001, 2001. [ bib | .pdf | Abstract ] |
| [43] |
A. M. Feltham and M. Spiro.
Platinized platinum electrodes.
Chemical Reviews, 71(2):177-193, April 1971. [ bib | .pdf | Abstract ] |
| [44] |
John A. Fisher.
A high-perfomance CMOS power amplifier.
IEEE J. Solid-State Circuits, 20(6):1200-1205, December
1985. [ bib | .pdf | Abstract ] |
| [45] |
John A. Fisher and Rudolf Koch.
A highly linear CMOS buffer amplifier.
IEEE J. Solid-State Circuits, 22(3):330-334, June 1987. [ bib | .pdf | Abstract ] |
| [46] |
Robert M. Fox.
Design-oriented analysis of log-domain circuits.
IEEE Trans. Circuits Syst. II, 45(7):918-921, July 1998. [ bib | .pdf | Abstract ] |
| [47] |
Douglas Frey.
On instantaneous vs. syllabic companding in log domain filters.
In Proc. of the IEEE Int. Symp. Circuits and Systems,
volume 2, pages 672-676, Orlando, FL, June 1999. [ bib | .pdf | Abstract ] |
| [48] |
Douglas R. Frey.
Log-domain_filtering: an approach to current-mode filtering.
IEE Proc. Pt. G, 140(6):406-416, December 1993. [ bib | .pdf | Abstract ] |
| [49] |
P. M. Furth and A. G. Andreou.
Linearised differential transconductors in subthreshold CMOS.
Electron. Lett., 31(7):545-547, March 1995. [ bib | .pdf | Abstract ] |
| [50] |
R. C. Gesteland, B. Howland, J. Lettvin, and W. H. Pitts.
Comments on microelectrodes.
Proc. IRE, 47:1856-1862, November 1959. [ bib | .pdf | Abstract ] |
| [51] |
Kristin H. Gilchrist, Valerie N. Barker, Lauren E. Fletcher, B. Derek
DeBusschere, Pejman Ghanouni, Laurent Giovangrandi, and Gregory T. A. Kovacs.
General purpose, field-portable cell-based biosensor platform.
Biosens. Bioelectron., 16(7-8):557-564, September 2001. [ bib | .pdf | Abstract ] |
| [52] |
James W. Gnadt, Stanley D. Echols, Abidin Yildirim, Honglei Zhang, and Kush
Paul.
Spectral cancellation of microstimulation artifact for simultaneuos
neural recording In Situ.
IEEE Trans. Biomed. Eng., 50(10):1129-1135, October 2003. [ bib | .pdf | Abstract ] |
| [53] |
Massimo Grattarola and Sergio Martinoia.
Modeling the neuron-microtransducer junction: from extracellular to
patch recording.
IEEE Trans. Biomed. Eng., 40(1):35-41, January 1993. [ bib | .pdf | Abstract ] |
| [54] |
Charles M. Gray, Pedro E. Maldonado, Mathew Wilson, and Bruce McNaughton.
Tetrodes markedly improve the reliability and yield of multiple
single-unit isolation from multi-unit recordings in cat striate cortex.
J. Neurosci. Meth., 63(1-2):43-54, December 1995. [ bib | .pdf | Abstract ] |
| [55] |
Paul R. Gray and Robert G. Meyer.
MOS operational amplifier design-a tutorial overview.
IEEE J. Solid-State Circuits, 17(6):969-982, December 1982. [ bib | .pdf | Abstract ] |
| [56] |
Guenter W. Gross, Barry K. Rhoades, Hassan M. E. Azzazy, and Ming-Chi Wu.
The use of neuronal networks on multielectrode arrays as biosensors.
Biosens. Bioelectron., 10(6-7):553-567, 1995. [ bib | .pdf | Abstract ] |
| [57] |
Andrew E. Grumet, John L. Wyatt, Jr, and Joseph F. Rizzo, III.
Multi-electrode stimulation and recording in the isolated retina.
J. Neurosci. Meth., 101(1):31-42, August 2000. [ bib | .pdf | Abstract ] |
| [58] |
Yen-Bin Gu and Ming-Jer Chen.
A new quantitative model for weak inversion charge injection in
MOSFET analog switches.
IEEE Trans. Electron Devices, 43(2):295-302, February 1996. [ bib | .pdf | Abstract ] |
| [59] |
K. S. Guillory and Richard A. Normann.
A 100-channel system for real time detection and storage of
extracellular spike waveforms.
J. Neurosci. Meth., 91(1):21-29, September 1999. [ bib | .pdf | Abstract ] |
| [60] |
Yael Hanein, Y. Vickie Pan, Buddy D. Ratner, Denice D. Denton, and Karl F.
Böhringer.
Micromachining of non-fouling coatings for bio-MEMS applications.
Sens. Actuators B Chem., 81:49-54, 2001. [ bib | .pdf | Abstract ] |
| [61] |
Reid R. Harrison.
A low-power, low-noise CMOS amplifier for neural recording
applications.
In Proc. of the IEEE Int. Symp. Circuits and Systems,
volume 5, pages 197-200, Phoenix, Arizona, 2002. [ bib | .pdf | Abstract ] |
| [62] |
Reid R. Harrison and Cameron Charles.
A low-power, low-noise CMOS amplifier for neural recording
applications.
IEEE J. Solid-State Circuits, 38(6), June 2003. [ bib | .pdf | Abstract ] |
| [63] |
Paul Hasler, Matt Kucic, and Bradley A. Minch.
A transistor-only model of the autozeroing floating-gate amplifier.
In Proc. of the Midwest Symposium on Circuits and Systems,
volume 1, pages 157-160, 1999. [ bib | .pdf | Abstract ] |
| [64] |
Paul Hasler, Bradley A. Minch, and Chris Diorio.
An autozeroing floating-gate amplifier.
IEEE Trans. Circuits Syst. II, 48(1):74-82, January 2001. [ bib | .pdf | Abstract ] |
| [65] |
F. Heer, W. Franks, A. Blau, S. Taschini, C. Ziegler, A. Hierlemann, and
H. Baltes.
CMOS microelectrode array for the monitoring of electrogenic cells.
Biosens. Bioelectron., 2004.
In Press. [ bib | .pdf | Abstract ] |
| [66] |
Ian D. Hentall.
Coincident recording and stimulation of single and multiple neuronal
activity with one extracellular microelectrode.
J. Neurosci. Meth., 40(1-2):181-191, December 1991. [ bib | .pdf | Abstract ] |
| [67] |
Marc Olivier Heuschkel, Michael Fejtl, Mario Raggenbass, Daniel Bertrand, and
Philippe Renuad.
A three-dimensional multi-electrode array for multi-site stimulation
and recording in acute brain slices.
J. Neurosci. Meth., 114(2):135-148, March 2002. [ bib | .pdf | Abstract ] |
| [68] |
W. Himmelbauer and A. G. Andreou.
Log-domain circuits in subthreshold MOS.
In Proc. of the Midwest Symposium on Circuits and Systems,
volume 1, pages 26-30, Sacramento, CA, August 1997. [ bib | .pdf | Abstract ] |
| [69] |
Kin-Pui Ho, Cheong-Fat Chan, Chiu-Sing Choy, and Kong-Pang Pun.
Reversed nested miller compensation with voltage buffer and nulling
resistor.
IEEE J. Solid-State Circuits, 38(10):1735-1738, October
2003. [ bib | .pdf | Abstract ] |
| [70] |
Arnold C. Hoogerwerf and Kensall D. Wise.
A three-dimensional microelectrode array for chronic neural
recording.
IEEE Trans. Biomed. Eng., 41(12):1136-1146, December 1994. [ bib | .pdf | Abstract ] |
| [71] |
Martin Jenkner, Bernt Müller, and Peter Fromherz.
Interfacing a silicon chip to pairs of snail neurons connected by
electrical synapses.
Biol. Cybern., 84(4):239-249, March 2001. [ bib | .pdf | Abstract ] |
| [72] |
Jin Ji and Kensall D. Wise.
An implantable CMOS circuit interface for multiplexed
microelectrode recording arrays.
IEEE J. Solid-State Circuits, 27(3):433-443, March 1992. [ bib | .pdf | Abstract ] |
| [73] |
Y. Jimbo and H. P. C. Robinson.
Propagation of spontaneous synchronized activity in cortical slice
cultures recorded by planar electrode arrays.
Bioelectrochemistry, 51(2):107-115, June 2000. [ bib | .pdf | Abstract ] |
| [74] |
Yasuhiko Jimbo, Nahoko Kasai, Keiichi Torimitsu, Takashi Tateno, and Hugh
Robinson.
A system for MEA-based multisite stimulation.
IEEE Trans. Biomed. Eng., 50(2):241-248, February 2003. [ bib | .pdf | Abstract ]
The authors attribute the artifact to the dc offset of the electrode and charge storage during stimulation. They construct a stimulation and recording system, using discrete components, to account for these sources. A sample and hold circuit stores the dc offset, which is added to the stimulation voltage. This also makes the effect of stimulation on cells independent of the dc offset. Connecting the electrode to a low impedance discharge path after stimulation reduces the effect of charge storage. The authors demonstrate reproducibility of evoked responses and elimination of the stimulation artifact.
|
| [75] |
Yasuhiko Jimbo, Takashi Tateno, and Hugh Robinson.
Simultaneous induction of pathway-specific potentiation and
depression in networks of cortical neurons.
Biophys. J., 76(2):670-678, February 1999. [ bib | .pdf | Abstract ] |
| [76] |
D. R. Jung, D. S. Cuttino, J. J. Pancrazio, P. Manos, T. Cluster, R. S.
Sathanoori, L. E. Aloi, M. G. Coulombe, P. Bey, M. A. Czarnaski, D. A.
Borkholder, G. T. A. Kovacs, D. A. Stenger, and J. J. Hickman.
Cell-based sensor microelectrode array characterized by imaging x-ray
photoelectorn spectroscopy, scanning electron microscopy, impedance
measurements, and extracellular recordings.
J. Vac. Sci. Technol. A, 16(3):1183-1188, May 1998. [ bib | .pdf | Abstract ] |
| [77] |
B.Yeshwant T. Kamath, Robert G. Meyer, and Paul R. Gray.
Relationship between frequency response and settling time of
operational amplifiers.
IEEE J. Solid-State Circuits, 9(6):347-352, December 1974. [ bib | .pdf | Abstract ] |
| [78] |
Edward W. Keefer, Alexandra Gramowski, and Guenter W. Gross.
NMDA receptor-dependent periodic oscillations in cultured spinal
cord networks.
J. Neurophysiology, 86(6):3030-3042, December 2001. [ bib | .pdf | Abstract ] |
| [79] |
Edward W. Keefer, Alexandra Gramowski, David A. Stenger, Joseph J. Pancrazio,
and Guenter W. Gross.
Characterization of acute neurotoxic effects of trimethylolpropane
phosphate via neuronal network biosensors.
Biosens. Bioelectron., 16(6-7):513-525, September 2001. [ bib | .pdf | Abstract ] |
| [80] |
Changhyun Kim and Kensall D. Wise.
Low-voltage electronics for the stimulation of biological neural
networks using fully complementary bicmos circuits.
IEEE J. Solid-State Circuits, 32(10):1483-1490, October
1997. [ bib | .pdf | Abstract ] |
| [81] |
Kyung Hwan Kim and Sung June Kim.
A wavelet-based method for action potential detection from
extracellular neural signal recording with low signal-to-noise ratio.
IEEE Trans. Biomed. Eng., 50(8):999-1011, August 2003. [ bib | .pdf | Abstract ] |
| [82] |
G. T. A. Kovacs.
Electronic sensors with living cellular components.
Proc. IEEE, 91(6):915-929, June 2003. [ bib | .pdf | Abstract ] |
| [83] |
Nagendra Krishnapura and Yannis P. Tsividis.
Noise and power reduction in filters through the use of adjustable
biasing.
IEEE J. Solid-State Circuits, 36(12):1912-1920, December
2001. [ bib | .pdf | Abstract ] |
| [84] |
Bernabé Linares-Barranco and Teresa Serrano-Gotarrendona.
On the design and characterization of femtoampere current-mode
circuits.
IEEE J. Solid-State Circuits, 38(8):1353-1363, August 2003. [ bib | .pdf | Abstract ] |
| [85] |
Shih-Chii Liu, Jörg Kramer, Giacomo Indiveri, Tobias Delbrück, and
Rodney Douglas.
Analog VLSI: Circuits and Principles.
MIT, 2002. [ bib ] |
| [86] |
M. P. Maher, H. Dvorak-Carbone, J. A. Wright J. Pine, and Y. C. Tai.
Microstructures for studies of cultured neural networks.
Med. Biol. Eng. Comp., 37(1):110-118, January 1999. [ bib | .pdf | Abstract ] |
| [87] |
Michael P. Maher, Jerome Pine, John Wright, and Yu-Chong Tai.
The neurochip: a new multielectrode device for stimulating and
recording from cultured neurons.
J. Neurosci. Meth., 87(1):45-56, February 1999. [ bib | .pdf | Abstract ] |
| [88] |
C. A. Makris and C. Toumazou.
Operational amplifier modelling for high speed sampled data
applications.
IEE Proc. Pt. G, 137(5):333-339, October 1980. [ bib | .pdf | Abstract ] |
| [89] |
Shimon Marom and Goded Shahaf.
Development, learning and memory in large random networks of cortical
neurons: lessons beyond anatomy.
Q. Rev. Biophys., 35(1):63-87, February 2002. [ bib | .pdf | Abstract ] |
| [90] |
Carl A. Marrese.
Preparation of strongly adherent platinum black coatings.
Anal. Chem., 59(1):217-218, January 1987. [ bib | .pdf ] |
| [91] |
Sergio Martinoia, Paolo Massobrio, Marco Bove, and Giuseppe Massobrio.
Cultured neurons coupled to microelectrode arrays: Circuit models,
simulations and experimental data.
IEEE Trans. Biomed. Eng., 51(5):859-864, May 2004. [ bib | .pdf | Abstract ] |
| [92] |
B. Masimore, J. Kakalios, and A.D. Redish.
Measuring fundamental frequencies in local field potentials.
J. Neurosci. Meth., 138(1-2):97-105, September 2004. [ bib | .pdf | Abstract ] |
| [93] |
E. T. McAdams, A. Lackermeier, J. A. McLaughlin, D. Macken, and J. Jossinet.
The linear and non-linear electrical properties of the
electrode-electrolyte interface.
Biosens. Bioelectron., 10(1-2):67-74, 1995. [ bib | .pdf | Abstract ] |
| [94] |
Phil McFadden.
Broadband biodetection: Holmes on a chip.
Science, 297(5589):2075-2076, September 2002. [ bib | .pdf | Abstract ] |
| [95] |
Carver Mead.
Analog VLSI and Neural Systems.
Addison-Wesley, 1989. [ bib ] |
| [96] |
Pedram Mohseni and Khalil Najafi.
A fully integrated neural recording amplifier with dc input
stabilization.
IEEE Trans. Biomed. Eng., 51(5):832-837, May 2004. [ bib | .pdf | Abstract ] |
| [97] |
Dennis M. Monticelli.
A quad CMOS single-supply op amp with rail-to-rail output swing.
IEEE J. Solid-State Circuits, 21(6):1026-1034, December
1986. [ bib | .pdf | Abstract ] |
| [98] |
Khalil Najafi and Kensall D. Wise.
An implantable multielectrode array with on-chip signal processing.
IEEE J. Solid-State Circuits, 21(6):1035-1044, December
1986. [ bib | .pdf | Abstract ] |
| [99] |
Yoonkey Nam, John C. Chang, Bruce C. Wheeler, and Gregory J. Brewer.
Gold-coated microelectrode array with thiol linked self-assembled
monolayers for engineering neuronal cultures.
IEEE Trans. Biomed. Eng., 51(1):158-165, January 2004. [ bib | .pdf | Abstract ] |
| [100] |
Craig T. Nordhausen, Edwin M. Maynard, and Richard A. Normann.
Single unit recording capabilities of a 100 microelectrode array.
Brain Res., 726(1-2):129-140, December 1996. [ bib | .pdf | Abstract ] |
| [101] |
J. L. Novak and B. C. Wheeler.
Multisite hippocampal slice recording and stimulation using a 32
element microelectrode array.
J. Neurosci. Meth., 23(2):239-247, March 1988. [ bib | .pdf | Abstract ] |
| [102] |
L. Nyikos and T. Pajkossy.
Fractal dimension and fractional power frequency-dependent impedance
of blocking electrodes.
Electrochim. Acta, 30(11):1533-1540, November 1985. [ bib | .pdf | Abstract ] |
| [103] |
Iyad Obeid, James C. Morizio, Karen A. Moxon, Miguel A. L. Nicolelis, and
Patrick D. Wolf.
Two multichannel integrated circuits for neural recording and signal
processing.
IEEE Trans. Biomed. Eng., 50(2):255-258, February 2003. [ bib | .pdf | Abstract ] |
| [104] |
Iyad Obeid, Miguel A. L. Nicolelis, and Patrick D. Wolf.
A low power multichannel analog front end for portable neural signal
recordings.
J. Neurosci. Meth., 133(1-2):27-32, February 2004. [ bib | .pdf | Abstract ] |
| [105] |
Iyad Obeid, Miguel A. L. Nicolelis, and Patrick D. Wolf.
A multichannel telemetry system for single unit neural recordings.
J. Neurosci. Meth., 133(1-2):33-38, February 2004. [ bib | .pdf | Abstract ] |
| [106] |
R. H. Olsson, M. N. Gulari, and K. D. Wise.
A fully-integrated bandpass amplifier for extracellular neural
recording.
In Proc. of the International IEEE EMBS Conference on Neural
Engineering, pages 165-168, 2003. [ bib | .pdf | Abstract ] |
| [107] |
R. H. Olsson, III, M. N. Gulari, and K. D. Wise.
silicon neural recording arrays with on-chip electronics for
in-vivo data acquisition.
In Proc. IEEE-EMBS Special Topic Conference on
Microtechnologies in Medicine and Biology, pages 237-240, Madison, WI, May
2002. [ bib | .pdf | Abstract ] |
| [108] |
I. E. Opris and G. T. A. Kovacs.
Large-signal subthreshold CMOS transconductance amplifier.
Electron. Lett., 31(9):718-720, April 1995. [ bib | .pdf | Abstract ] |
| [109] |
K. G. Oweiss and D. J. Anderson.
A unified framework for advancing array signal processing technology
of multichannel microprobe neural recording devices.
In Proc. IEEE-EMBS Special Topic Conference on
Microtechnologies in Medicine and Biology, Madison, WI, May 2002. [ bib | .pdf | Abstract ] |
| [110] |
Karim G. Oweiss and David J. Anderson.
Noise reduction in multichannel neural recordings using a new array
wavelet denoising algorithm.
Neurocomputing, 38-40:1687-1693, June 2001. [ bib | .pdf | Abstract ] |
| [111] |
Karim G. Oweiss and David J. Anderson.
Spike sorting: a novel shift and amplitude invariant technique.
Neurocomputing, 44-46:1133-1139, June 2002. [ bib | .pdf | Abstract ] |
| [112] |
Tamás Pajkossy.
Impedance of rough capacitive electrodes.
J. Electroanal. Chem., 364(1-2):111-125, January 1994. [ bib | .pdf | Abstract ] |
| [113] |
Yorgos Palaskas, Yannis Tsividis, Vladimir Prodanov, and Vito Boccuzzi.
A ``divide and conquer'' technique for implementing wide dynamic
range continuous-time filters.
IEEE J. Solid-State Circuits, 39(2):297-307, February 2004. [ bib | .pdf | Abstract ] |
| [114] |
G. Palumbo and S. Pennisi.
Current-feedback amplifiers versus voltage operational amplifiers.
IEEE Trans. Circuits Syst. I, 48(5):617-623, May 2001. [ bib | .pdf | Abstract ] |
| [115] |
Y. Vickie Pan, Yael Hanein, Deborah Leach-Scampavia, Karl F. Böhringer,
Buddy D. Ratner, and Denice D. Denton.
A precision technology for controlling protein adsorption and cell
adhesion in biomems. [ bib | .pdf | Abstract ] |
| [116] |
J. J. Pancrazio, J. P. Whelan, D. A. Borkholder, W. Ma, and D. A. Stenger.
Development and application of cell-based biosensors.
Ann. Biomed. Eng., 27(6):697-711, November 1999. [ bib | .pdf | Abstract ] |
| [117] |
Joseph J. Pancrazio, Paul P. Bey, Jr, David S. Cuttino, Julian K. Kusel,
David A. Borkholder, Kara M. Shaffer, Gregory T. A. Kovacs, and David A.
Stenger.
Portable cell-based biosensor system for toxin detection.
Sens. Actuators B Chem., 53(3):179-185, December 1998. [ bib | .pdf | Abstract ] |
| [118] |
Joseph J. Pancrazio, Paul P. Bey, Jr, Arash Loloee, SubbaRao Manne, Hui-Chuan
Chao, Lorn L. Howard, W. Milton Gosney, David A. Borkholder, Gregory T. A.
Kovacs, Patricia Manos, David S. Cuttino, and David A. Stenger.
Description and demonstration of a CMOS amplifier-based-system with
measurement and stimulation capability for bioelectrical signal transduction.
Biosens. Bioelectron., 13(9):971-979, October 1998. [ bib | .pdf | Abstract ] |
| [119] |
Chin S. Park and Rolf Schaumann.
A high-frequency CMOS linear transconductance element.
IEEE Trans. Circuits Syst., 33(11):1132-1138, November 1986. [ bib | .pdf | Abstract ] |
| [120] |
William R. Patterson, Yoon-Kyu Song, Christopher W. Bull, Ilker Ozden,
Andrew P. Deangellis, Christopher Lay, J. Lucas McKay, Arto V. Nurmikko,
John D. Donoghue, and Barry W. Connors.
A microelectrode/microelectronic hybrid device for brain implantable
neuroprosthesis applications.
IEEE Trans. Biomed. Eng., 51(10):1845-1853, October 2004. [ bib | .pdf | Abstract ] |
| [121] |
J. Pine.
Recording action potentials from cultured neurons with extracellular
microcircuit electrodes.
J. Neurosci. Meth., 2(1):19-31, February 1980. [ bib | .pdf | Abstract ] |
| [122] |
Jerome Pine.
Studying mammalian neurons in vitro with multielectrode
arrays.
In Proc. of the IEEE Engineering in Medicine and Biology
Conference, pages 3686-3689, Cancun, Mexico, 2003. [ bib | .pdf | Abstract ] |
| [123] |
Steve M. Potter and Thomas B. DeMarse.
A new approach to neural cell culture for long-term studies.
J. Neurosci. Meth., 110(1-2):17-24, September 2001. [ bib | .pdf | Abstract ] |
| [124] |
Christophe Pouzat, Ofer Mazor, and Gilles Laurent.
Using noise signature to optimize spike-sorting and to assess
neuronal classification quality.
J. Neurosci. Meth., 122(1):43-57, December 2002. [ bib | .pdf | Abstract ] |
| [125] |
Kevin L. Prime and George M. Whitesides.
Adsorption of proteins onto surfaces containing end-attached
oligo(ethylene oxide): A model system using self-assembled monolayers.
J. Am. Chem. Soc., 115(23):10714-10721, 1993. [ bib | .pdf | Abstract ] |
| [126] |
Astrid A. Prinz and Peter Fromherz.
Electrical synapses by guided growth of cultured neurons from the
snail Lymnaea stagnalis.
Biol. Cybern., 82(4):L1-L5, March 2000. [ bib | .pdf | Abstract ] |
| [127] |
Robert Rieger, John Taylor, Andreas Demosthenous, Nick Donaldson, and Peter J.
Langlois.
Design of a low-noise preamplifier for nerve cuff electrode
recording.
IEEE J. Solid-State Circuits, 38(8):1373-1379, August 2003. [ bib | .pdf | Abstract ] |
| [128] |
James A. Roberts, Ernest T. Tsui, and David C. Watson.
Signal-to-noise ratio evaluations for nonlinear amplifiers.
IEEE Trans. Commun., 27(1):197-201, January 1979. [ bib | .pdf | Abstract ] |
| [129] |
David A. Robinson.
The electrical properties of metal microelectrodes.
Proc. IEEE, 56(6):1065-1071, June 1968. [ bib | .pdf | Abstract ] |
| [130] |
Esther Rodríguez-Villegas, Alberto Yúfera, and Adoración
Rueda.
A 1-V micropower log-domain integrator based on FGMOS transistors
operating in weak inversion.
IEEE J. Solid-State Circuits, 39(1):256-259, January 2004. [ bib | .pdf | Abstract ] |
| [131] |
James Danger Ross.
Modeling the electrode/electrolyte interface: Discerning the cause of
the stimulation artifact.
Project Report, 2003. [ bib | .pdf | Abstract ] |
| [132] |
Wim Rutten, Jean-Marie Mouveroux, Jan Buitenweg, Ciska Heida, Teun Ruardij,
Enrico Marani, and Egbert Lakke.
Neuroelectronic interfacing with cultured multielectrode arrays
toward a cultured probe.
Proc. IEEE, 89(7):1013-1029, July 2001. [ bib | .pdf | Abstract ] |
| [133] |
Eduard Säckinger and Walter Guggenbühl.
A high-swing, high-impedance MOS cascode circuit.
IEEE J. Solid-State Circuits, 25(1):289-298, February 1990. [ bib | .pdf | Abstract ] |
| [134] |
E. Sánchez-Sinencio and J. Silva-Martínez.
CMOS transconductance amplifiers, architectures and active filters:
a tutorial.
IEE Proc. Pt. G, 147(1):3-12, February 2000. [ bib | .pdf | Abstract ] |
| [135] |
Rahul Sarpeshkar, Tobias Delbrück, and Carver A. Mead.
White noise in MOS transistors and resistors.
IEEE Circuits Devices Mag., 9(6):23-29, November 1993. [ bib | .pdf | Abstract ] |
| [136] |
A.J. Scholten, H.J. Tromp, L.F. Tiemeijer, R. Van Langevelde, R.J. Havens,
P.W.H. De Vreede, R.F.M. Roes, P.H. Woerlee, A.H. Montree, and D.B.M.
Klaassen.
Accurate thermal noise model for deep-submicron CMOS.
In Int. Electron Device Meeting Tech. Dig., pages
155-158, Washington, DC, December 1999. [ bib | .pdf | Abstract ] |
| [137] |
Jonathan V. Selinger, Joseph J. Pancrazio, and Guenter W. Gross.
Measuring synchronization in neuronal networks for biosensor
applications.
Biosens. Bioelectron., 19(7):675-683, February 2004. [ bib | .pdf | Abstract ] |
| [138] |
Goded Shahaf and Shimon Marom.
Learning in networks of cortical neurons.
J. Neurosci., 21(22):8782-8788, November 2001. [ bib | .pdf | Abstract ] |
| [139] |
Bing J. Sheu and Chen Ming Hu.
Modeling the switched-induced error voltage on a switched-capacitor.
IEEE Trans. Circuits Syst., 30(12):911-913, December 1983. [ bib | .pdf | Abstract ] |
| [140] |
Bing J. Sheu, Je-Hurn Shieh, and Mahesh Patil.
Modeling charge injection in MOS analog switches.
IEEE Trans. Circuits Syst., 34(2):214-216, February 1987. [ bib | .pdf | Abstract ] |
| [141] |
Je-Hurn Shieh, Mahesh Patil, and Bing J. Sheu.
Measurement and analysis of charge injection in MOS analog
switches.
IEEE J. Solid-State Circuits, 22(2):277-281, April 1987. [ bib | .pdf | Abstract ] |
| [142] |
Shy Shoham, Matthew R. Fellows, and Richard A. Normann.
Robust, automatic spike sorting using mixtures of multivariate
t-distributions.
J. Neurosci. Meth., 127(2):111-122, August 2003. [ bib | .pdf | Abstract ] |
| [143] |
Enrique Mario Spinelli, Nolberto Martínez, Miguel Angel Mayosky, and Ramon
Pallàs-Areny.
A novel fully differential biopotential amplifier with DC
suppression.
IEEE Trans. Biomed. Eng., 51(8):1444-1448, August 2004. [ bib | .pdf | Abstract ] |
| [144] |
Enrique Mario Spinelli, Ramon Pallàs-Areny, and Miguel Angel Mayosky.
AC-coupled front-end for biopotential measurements.
IEEE Trans. Biomed. Eng., 50(3):391-395, March 2003. [ bib | .pdf | Abstract ] |
| [145] |
Richard B. Stein and Douglas J. Weber.
Editing trains of action potentials from multi-electrode arrays.
J. Neurosci. Meth., 134(1):91-100, March 2004. [ bib | .pdf | Abstract ] |
| [146] |
Michel S.J. Steyaert, Willy M.C. Sansen, and Chang Zhongyuan.
A micropower low-noise monolithic instrumentation amplifier for
medical purposes.
IEEE J. Solid-State Circuits, 22(6):1163-1168, December
1987. [ bib | .pdf | Abstract ] |
| [147] |
Jürg Streit, Anne Tscherter, Marc O. Heuschkel, and Philippe Renaud.
The generation of rhythmic activity in dissociated cultures of rat
spinal cord.
Eur. J. Neurosci., 14(2):191-202, July 2001. [ bib | .pdf | Abstract ] |
| [148] |
Kazunori Takahashi, Yoshihiro Sugio, Hiroyuki Moriguchi, Yasuhiko Jimbo, and
Kenji Yasuda.
On-chip neural cell-cultivation system for long-term observation with
multi-electrode and microchamber arrays.
In Micro Total Analysis Systems, 2002. [ bib ] |
| [149] |
Pierre Thiébaud, Cynthia Beuret, Milena Koudelka-Hep, Marco Bove, Sergio
Martinoia, Massimo Grattarola, Henrik Jahnsen, Renata Rebaudo, Maurizio
Balestrino, Jens Zimmer, and Yves Dupont.
An array of Pt-tip microelectrodes for extracellular monitoring of
activity of brain slices.
Biosens. Bioelectron., 14(1):61-65, January 1999. [ bib | .pdf | Abstract ] |
| [150] |
C. A. Thomas, Jr, P. A. Springer, G. E. Loeb, Y. Berwald-Netter, and L. M.
Okun.
A miniature microelectrode array to monitor the bioelectric activity
of cultured cells.
Exptl. Cell Res., 74(1):61-66, 1972. [ bib | .pdf | Abstract ] |
| [151] |
Anne Tscherter, Marc O. Heuschkel, and Jürg Renaud, Philippe Streit.
Spatiotemporal characterization of rhythmic activity in rat spinal
cord slice cultures.
Eur. J. Neurosci., 14(2):179-190, July 2001. [ bib | .pdf | Abstract ] |
| [152] |
Y. P. Tsividis, V. Gopinathan, and L. Tóth.
Companding in signal processing.
Electron. Lett., 26(17):1331-1332, August 1990. [ bib | .pdf | Abstract ] |
| [153] |
Yannis P. Tsividis.
Integrated continuous-time filter design-an overview.
IEEE J. Solid-State Circuits, 29(3):166-176, March 1994. [ bib | .pdf | Abstract ] |
| [154] |
A. Uranga, X. Navarro, and N. Barniol.
Integrated CMOS amplifier for ENG signal recording.
IEEE Trans. Biomed. Eng., 51(12):2188-2194, December 2004. [ bib | .pdf | Abstract ] |
| [155] |
William H. van der Schalie, Hank S. Gardner, Jr, John A. Bantle, Chris T.
De Rosa, Robert A. Finch, John S. Reif, Roy H. Reuter, Lorraine C. Backer,
Joanna Burger, Leroy C. Folmar, and William S. Stokes.
Animals as sentinels of human health hazards of environmental
chemicals.
Environ. Health Perspect., 107(4):309-315, April 1999. [ bib | .pdf | Abstract ] |
| [156] |
Martin Vetterli and Cormac Herley.
Wavelets and filter banks: Theory and design.
IEEE Trans. Signal Processing, 40(9):2207-2232, September
1992. [ bib | .pdf | Abstract ] |
| [157] |
D. A. Wagenaar and Steve M. Potter.
Real-time multi-channel stimulus artifact suppression by local curve
fitting.
J. Neurosci. Meth., 120(2):17-24, October 2002. [ bib | .pdf | Abstract ] |
| [158] |
Daniel A. Wagenaar, Jerry Pine, and Steve M. Potter.
Effective parameters for stimulation of dissociated cultures using
multi-electrode arrays.
J. Neurosci. Meth., 138:27-37, September 2004. [ bib | .pdf | Abstract ] |
| [159] |
Daniel A. Wagenaar and Steve M. Potter.
A versatile all-channel stimulator for electrode arrays, with
real-time control.
J. Neural Eng., 1(1):39-45, March 2004. [ bib | .pdf | Abstract ] |
| [160] |
George Wegmann, Eric A. Vittoz, and Fouad Rahali.
Charge injection in analog MOS switches.
IEEE J. Solid-State Circuits, 22(6):1091-1097, December
1987. [ bib | .pdf | Abstract ] |
| [161] |
Thomas Wichmann.
A digital averaging method for removal of stimulus artifacts in
neurophysiologic experiments.
J. Neurosci. Meth., 98(1):57-62, May 2000. [ bib | .pdf | Abstract ] |
| [162] |
William B. Wilson, Hisham Z. Massoud, Eric J. Swanson, Rhett T. George, Jr, and
Richard B. Fair.
Measurement and medeling of charge feedthrough in n-channel MOS
analog switches.
IEEE J. Solid-State Circuits, 20(6):1206-1213, December
1985. [ bib | .pdf | Abstract ] |
| [163] |
P. Xu and Rolf Schaumann.
Very-high-frequency CMOS analogue buffer.
Electron. Lett., 29(16):1458-1460, August 1993. [ bib | .pdf | Abstract ] |
| [164] |
Howard C. Yang and David J. Allstot.
Considerations for fast settling operational amplifiers.
IEEE Trans. Circuits Syst., 37(3):326-334, March 1990. [ bib | .pdf | Abstract ] |
| [165] |
Y. Yao, M. N. Gulari, J. F. Hetke, and K. D. Wise.
A self-testing multiplexed CMOS stimulating probe for a 1024-site
neural prosthesis.
In Proc. of the Innational Conference on Solid-State Sensors,
Actuators and Microsystems, volume 2, pages 1213-1216, June 2003. [ bib | .pdf | Abstract ] |
| [166] |
E. Yeager.
Electrocatalysts for O2 reduction.
Electrochim. Acta, 29(11):1527-1537, November 1984. [ bib | .pdf | Abstract ] |
| [167] |
Chong-Gun Yu and Randall L. Geiger.
An automatic offset compensation scheme with ping-pong control for
CMOS operational amplifiers.
IEEE J. Solid-State Circuits, 29(5):601-610, May 1994. [ bib | .pdf | Abstract ] |
| [168] |
Gunther Zeck and Peter Fromherz.
Noninvasive neuroelectronic interfacing with synaptically connected
snail neurons immobilized on a semiconductor chip.
Proc. Natl. Acad. Sci. U.S.A., 98(18):10457-10462, August
2001. [ bib | .pdf | Abstract ] |
| [169] |
Pu-Ming Zhang, Jin-Yong Wu, Yi Zhou, Pei-Ji Liang, and Jing-Qi Yuan.
Spike sorting based on automatic template reconstruction with a
partial solution to the overlapping problem.
J. Neurosci. Meth., 135(1-2):55-65, May 2004. [ bib | .pdf | Abstract ] |