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Neural recording

Rearce, T. M., WiUiams, J. J., Kmzel, S. R, Gidden, M. J., and Williams, J. C., Dynamic control of extraceUnlar environment in in vitro neural recording systems, LEEE Trans Neural Syst Rehabil Eng, 13, 207, 2005. [Pg.1000]

Hoogerwerf, A.C. and Wise, K.D. A three-dimensional microelectrode array for chronic neural recording. IEEE Trans. Biomed. Eng. 41 1136-1146. [Pg.559]

The otoconial layer transfer function can be compared to recent data from single fiber neural recording. The only discrepancy between the experimental data and theoretical model is a low-frequency phase lead and accompanying amplitude reduction. This has been observed in most experimental single-fiber recordings and has been attributed to the hair cell. [Pg.1082]

Maintenance of contact with neural cells is integral to the performance of the implant device and the use of biosynthetic CP coatings will potentially improve the long-term efficacy of such devices. Limited research is available on the long-term interactions of CPs with neural tissue. Two studies by the Martin research group at Michigan University have examined the chronic performance of nanostructured PEDOT on neural recording electrodes [52,144]. The microelectrode arrays coated with surfactant-templated PEDOT and... [Pg.727]

K.A. Ludwig, J.D. Uram, J. Yang, and D.C. Martin, Chronic neural recordings using silicon microelectrode arrays electrochemicaUy deposited with poly(3,4-ehtylenediox3fthiophene) (pedot) film, J. Neural Eng., 3, 59-70 (2006). [Pg.731]

Neural recording/ Polymer sub- PPy Neural prosthetics 10-6M / (2007) George et al. [Pg.94]

Circular with a 200 pm diameter of 15pm 10 pm of DuPont Pyrahn 2525 (for the bottom) and 2555 (for the top) Gold and titanium Neural recordings [38]... [Pg.12]

Unknown Unknown 1.3 pm of polyimide, type unknown 75 A of chrome and 0.4 pm of gold Neural recordings [40]... [Pg.12]

Cui, X., V.A. Lee, Y. Raphael, JjV. Wiler, J.F. Hetke, D.J. Anderson, and D.C. Martin. 2001. Surface modification of neural recording electrodes with conducting polymer/biomolecule blends. 7 Biomed Mater Res 56 261. [Pg.1483]

Williams, J. C., Rennaker, R. L., and Kipke, D. R. (1999), Long-term neural recording characteristics of wire microelectrode arrays implanted in cerebral cortex. Brain Res. Brain Res. Protoc. 4(3) 303-313. [Pg.390]

R.R. Harrison et al., "A low-power integrated circuit for a wireless 100-electrode neural recording system," IEEE. Solid-State Circuits, vol. 42, no. 1, pp. 123-133, Jan. 2007. [Pg.637]

Bioelectrodes for neural recording and neurostimulation are an essential part of neuroprosthetic devices. Designing an optimal, stable electrode that records long-term and interacts adequately with neural tissue remains a priority for neural engineers. The implementation of microsystem technology opens new perspectives in the field. [Pg.1284]

Vetter, R. J., Williams, J. C., Hetke, J. F., et al. (2004) Qironic neural recording using silicon-substrate microelectrode arrays implanted in cerebral cortex. IEEE Trans. Biomed. Eng. 51,896-904. [Pg.298]

Spike-train analysis, of neural recordings, 11-9 Spinning motion, in joints, 49-2-49-7... [Pg.1550]

McIntyre CC, Thakor NV (2002) Uncovering the mechanisms of deep brain stimulation for Parkinson s disease though functional imaging, neural recording, and neural modeling. Grit Rev Biomed Eng 30(4-6) 249-281... [Pg.138]

Over the past several decades, microelectrodes for extracellular neural recording and stimulation have evolved from single wires to microfabricated arrays [9]. In the development of a breakthrough technique, Strumwasser used single 80-pm diameter stainless steel microwires to record from unanesthetized, freely moving animals... [Pg.160]

Bai Q, Wise KD (2001) Single-unit neural recording with active micro-electrode arrays. IEEE Transactions on Biomedical Engineering 48 911-920. [Pg.184]

Norlin P, Kindlundh M, Mouroux A (2002) A 3 2-site neural recording probe fabricated by DRIE of SOI substrates. Journal of Micromechanics and Microengineering 12 414. [Pg.184]

Yamato H, Ohwa M, Wemd W (1995) Stability of polypyrrole and poly(3,4-ethylenedioxythiophene) for biosensor application. J Electroanal Chem 397 163-170 Ludwig KA, Uram JD, Yang JY et al (2006) Chronic neural recordings using silicon microelectrode arrays electrochemicaUy deposited with a poly(3,4-ethylemedioxythiophene) (PEDOT) film. J Neural Eng 3 59-70... [Pg.248]

Recording 128-Channel Wireless Neural-Recording System. 307... [Pg.254]

Input impedance is also important and should be considered at the design stage with care. Figure 1 shows the simplified circuit model for the neural recording. [Pg.256]

See other pages where Neural recording is mentioned: [Pg.230]    [Pg.181]    [Pg.443]    [Pg.708]    [Pg.709]    [Pg.731]    [Pg.420]    [Pg.435]    [Pg.285]    [Pg.293]    [Pg.387]    [Pg.206]    [Pg.497]    [Pg.219]    [Pg.234]    [Pg.243]    [Pg.253]    [Pg.253]    [Pg.254]    [Pg.255]    [Pg.255]   
See also in sourсe #XX -- [ Pg.709 ]



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128-Channel wireless neural-recording system

Multichannel neural-recording system

Neural recording amplifier

Neural-recording electrode

Neural-recording systems

Neural-recording systems amplifier

Neural-recording systems stimulators

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