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[0] Suner S, Fellows MR, Vargas-Irwin C, Nakata GK, Donoghue JP, Reliability of signals from a chronically implanted, silicon-based electrode array in non-human primate primary motor cortex.IEEE Trans Neural Syst Rehabil Eng 13:4, 524-41 (2005 Dec)

[0] Hochberg LR, Serruya MD, Friehs GM, Mukand JA, Saleh M, Caplan AH, Branner A, Chen D, Penn RD, Donoghue JP, Neuronal ensemble control of prosthetic devices by a human with tetraplegia.Nature 442:7099, 164-71 (2006 Jul 13)

[0] Santhanam G, Linderman MD, Gilja V, Afshar A, Ryu SI, Meng TH, Shenoy KV, HermesB: a continuous neural recording system for freely behaving primates.IEEE Trans Biomed Eng 54:11, 2037-50 (2007 Nov)

{1388}
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ref: -0 tags: PEDOT PSS electroplate eletrodeposition neural recording michigan probe stimulation CSC date: 04-27-2017 01:36 gmt revision:1 [0] [head]

PMID-19543541 Poly(3,4-ethylenedioxythiophene) as a micro-neural interface material for electrostimulation

  • 23k on a 177um^2 site.
  • demonstrated in-vitro durable stimulation.
  • Electrodeposited with 6na for 900 seconds per electrode.
    • Which is high -- c.f. 100pA for 600 seconds {1356}
  • Greater CSC and lower impedance / phase than (comparable?) Ir or IrOx plating.

{1384}
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ref: -0 tags: NET probes SU-8 microfabrication sewing machine carbon fiber electrode insertion mice histology 2p date: 03-01-2017 23:20 gmt revision:0 [head]

Ultraflexible nanoelectronic probes form reliable, glial scar–free neural integration

  • SU-8 asymptotic H2O absorption is 3.3% in PBS -- quite a bit higher than I expected, and higher than PI.
  • Faced yield problems with contact litho at 2-3um trace/space.
  • Good recordings out to 4 months!
  • 3 minutes / probe insertion.
  • Fab:
    • Ni release layer, Su-8 2000.5. "excellent tensile strength" --
      • Tensile strength 60 MPa
      • Youngs modulus 2.0 GPa
      • Elongation at break 6.5%
      • Water absorption, per spec sheet, 0.65% (but not PBS)
    • 500nm dielectric; < 1% crosstalk; see figure S12.
    • Pt or Au rec sites, 10um x 20um or 30 x 30um.
    • FFC connector, with Si substrate remaining.
  • Used transgenic mice, YFP expressed in neurons.
  • CA glue used before metabond, followed by Kwik-sil silicone.
  • Neuron yield not so great -- they need to plate the electrodes down to acceptable impedance. (figure S5)
    • Measured impedance ~ 1M at 1khz.
  • Unclear if 50um x 1um is really that much worse than 10um x 1.5um.
  • Histology looks realyl great, (figure S10).
  • Manuscript did not mention (though the did at the poster) problems with electrode pull-out; they deal with it in the same way, application of ACSF.

{747}
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ref: Seymour-2007.09 tags: neural probe design recording Kipke Seymour parelene MEA histology PEDOT date: 02-23-2017 23:52 gmt revision:13 [12] [11] [10] [9] [8] [7] [head]

PMID-17517431[0] Neural probe design for reduced tissue encapsulation in CNS.

  • See conference proceedings too: PMID-17947102[1] Fabrication of polymer neural probes with sub-cellular features for reduced tissue encapsulation.
    • -- useful information.
  • They use SU8 - photoresist! - as a structural material. See also this.
    • They use silicon as a substrate for the fabrication, but ultimately remove it. Electrodes could be made of titanium, modulo low conductivity.
  • Did not / could not record from these devices. Only immunochemistry.
  • Polymer fibers smaller than 7um are basically invisible to the immune system. See [2]
  • Their peripheral recording site is 4 x 5um - but still not invisible to microglia. Perhaps this is because of residual insertion trauma, or movement trauma? They implanted the device flush with the cortical surface, so there should have been little cranial tethering.
  • Checked the animals 4 weeks after implantation.
  • Peripheral electrode site was better than shank location, but still not perfect. Well, any improvement is a good one...
  • No statistical difference between 4x5um lattice probes, 10x4um probes, 30x4um, and solid (100um) knife edge.
    • Think that this may be because of electrode micromotion -- the lateral edge sites are still relatively well connected to the thick, rigid shank.
  • Observed two classes of immune reactivity --
    • GFAP reactive hypertrophied astrocytes.
    • devoid of GFAP, neurofilament, and NEuN, but always OX-42 and often firbronectin and laminin positive as well.
    • Think that the second may be from meningeal cells pulled in with the stab wound.
  • Sensitivity is expected to increase with decreased surface area (but similar low impedance -- platinum black or oxidized iridium or PEDOT {1112} ).
  • Thoughts: it may be possible to put 'barbs' to relieve mechanical stress slightly after the probe location, preferably spikes that expand after implantation.
  • His thesis {1110}

____References____

[0] Seymour JP, Kipke DR, Neural probe design for reduced tissue encapsulation in CNS.Biomaterials 28:25, 3594-607 (2007 Sep)
[1] Seymour JP, Kipke DR, Fabrication of polymer neural probes with sub-cellular features for reduced tissue encapsulation.Conf Proc IEEE Eng Med Biol Soc 1no Issue 4606-9 (2006)
[2] Sanders JE, Stiles CE, Hayes CL, Tissue response to single-polymer fibers of varying diameters: evaluation of fibrous encapsulation and macrophage density.J Biomed Mater Res 52:1, 231-7 (2000 Oct)

{1374}
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ref: -0 tags: nanoprobe transmembrane intracellular thiol gold AFM juxtacellular date: 02-06-2017 23:45 gmt revision:3 [2] [1] [0] [head]

PMID-20212151 Fusion of biomimetic stealth probes into lipid bilayer cores

  • Used e-beam evaporation of Cr/Au/Cr 10/10/10 or 10/5/10 onto a Si AFM tip.
    • Approx 200nm diameter; 1800 lipid interaction at the circumference.
  • Exposed the Au in the sandwich via FIB
  • Functionalized the Au with butanethiol or dodecanthiol; former is mobile on the surface, latter is polycrystaline.
    • Butanethiol showed higher adhesion to the synthetic membranes
  • Measured the penetration force & displacement through synthetic multi-layer lipid bilayers.
    • These were made via a custom protocol with 1-stearoyl-2-oleoyl-sn-glycero-3-phosphocholine (SOPC) and cholesterol

PMID-21469728 '''Molecular Structure Influences the Stability of Membrane Penetrating Biointerfaces.

  • Surprisingly, hydrophobicity is found to be a secondary factor with monolayer crystallinity the major determinate of interface strength
  • Previous studies using ellipsometry and IR spectroscopy have shown that alkanethiol self-assembled monolayers display an abrupt transition from a fluid to a crystalline phase between hexanethiol and octanethiol.
    • This suggests the weakening of the membrane stealth probe interface is due to the crystallinity of the molecular surface with fluid, disordered monolayers promoting a high strength interface regime and rigid, crystalline SAMs forming weak interfaces.

{1327}
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ref: -0 tags: ice charles lieber silicon nanowire probes su-8 microwire extracellular date: 10-14-2016 23:28 gmt revision:2 [1] [0] [head]

PMID-26436341 Three-dimensional macroporous nanoelectronic networks as minimally invasive brain probes.

  • Xie C1, Liu J1, Fu TM1, Dai X1, Zhou W1, Lieber CM1,2.
  • Again, use silicon nanowire transistors as sensing elements. These seem rather good; can increase the signal, and do not suffer from shunt resistance / capacitance like wires.
    • They're getting a lot of mileage out of the technology; initial pub back in 2006.
  • Su-8, Cr/Pd/Cr (stress elements) and Cr/Au/Cr (conductor) spontaneously rolled into a ball, then the froze in LN2. Devices seemed robust to freezing in LN2.
  • 300-500nm Su-8 passivation layers, as with the syringe injectable electrodes.
  • 3um trace / 7um insulation (better than us!)
  • Used 100nm Ni release layer; thin / stiff enough Su-8 with rigid Si support chip permitted wirebonding a connector (!!)
    • Might want to use this as well for our electrodes -- of course, then we'd have to use the dicing saw, and free-etch away a Ni (or Al?) polyimide adhesion layer -- or use Su-8 like them. See figure S-4
  • See also {1352}

{1334}
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ref: -0 tags: micro LEDS Buzaki silicon neural probes optogenetics date: 04-18-2016 18:00 gmt revision:0 [head]

PMID-26627311 Monolithically Integrated μLEDs on Silicon Neural Probes for High-Resolution Optogenetic Studies in Behaving Animals.

  • 12 uLEDs and 32 rec sites integrated into one probe.
  • InGaN monolithically integrated LEDs.
    • Si has ~ 5x higher thermal conductivity than sapphire, allowing better heat dissipation.
    • Use quantum-well epitaxial layers, 460nm emission, 5nm Ni / 5nm Au current injection w/ 75% transmittance @ design wavelength.
      • Think the n/p GaN epitaxy is done by an outside company, NOVAGAN.
    • Efficiency near 80% -- small LEDs have fewer defects!
    • SiO2 + ALD Al2O3 passivation.
    • 70um wide, 30um thick shanks.

{1274}
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ref: -0 tags: flexible neural probe polyimide silicon polyethylene glycol dissolvable jove livermore loren frank date: 03-05-2014 19:18 gmt revision:0 [head]

http://www.jove.com/video/50609/insertion-flexible-neural-probes-using-rigid-stiffeners-attached-with

  • details the flip-chip bonding method (clever!)
  • as well as the silicon stiffener fabrication process.

{1203}
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ref: Cheung-2007.03 tags: flexible electrode array Michigan probe histology Vancouver current source density EPFL polyimide date: 12-21-2013 21:07 gmt revision:5 [4] [3] [2] [1] [0] [head]

PMID-17027251[0] Flexible polyimide microelectrode array for in vivo recordings and current source density analysis.

  • Polyimide -- PI-2611 precusor.
  • 50nm Ti adhesion, 200nm Pt, both sputtered.
  • Electrodes etched via RIE in Cl2.
    • Sputtered and photo-patterned SiO2 etch mask.
  • Used regular solder to connect to a Samtec.
  • 15um total thickness.
  • 25um electrode diameter.
  • They were inserted directly (no carrier nor guide) into the brain; can be re-used.
  • Tested to 8 weeks.
  • No figure comparing silicon and polyimide, though they claim minimal GFAP response to the electrodes.

____References____

[0] Cheung KC, Renaud P, Tanila H, Djupsund K, Flexible polyimide microelectrode array for in vivo recordings and current source density analysis.Biosens Bioelectron 22:8, 1783-90 (2007 Mar 15)

{1241}
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ref: -0 tags: parylene silicon neural recording probes date: 06-07-2013 00:15 gmt revision:4 [3] [2] [1] [0] [head]

http://thesis.library.caltech.edu/4671/1/PhDThesisFinalChanglinPang.pdf

  • Notes: Michigan probes suffer from thickness limited to <15um, hence are often not stiff enough to penetrate the pia & arachnoid.
  • Likewise, utach arrays are fabricated through a substrate, so cannot be made longer than 1.5-2mm. Plus, they are connected with 25um gold wires, which is both rigid and requires a fair bit of work. (Perhaps with a wirebond machine?)
  • SiO2 suffers from high internal stress (formed at high temperature) and tends to hydrate over time, both making it a less than ideal insulator for biological applications.
    • Silicon is slowly attacked in saline.
  • Use Cr/Au traces, and Ti/Pt electrode sites on his probes.
    • 2.5um minimum trace width.
  • Importantly, they solve the problem of parylene to silicon interconnect by simply fabricating the wires on parylene -- like ours -- and only use silicon as a structural support.
    • Silicon is roughened via XeF2 for good parylene adhesion.
      • Alas, does not survive a long-term soak -- but maybe this is useful? (page 102)
        • This too can be solved via bringing the parylene in vacuum up to melting temperature to better bond with Si.
  • Metal pads on parylene are destroyed by wedge bonding -- heat and pressure are too high!
  • Their solution is to use conductive epoxy & fan the wires out to omnetics pitch (635um) in what they call parylene-PCB-omnetics connector (PPO).
  • Plated a 5um x 5um electrode with platinum black to reduce the impedance from 1.1M to 9.2k (!!)
    • Problem is that Pt black is fragile, and may be scraped off during insertion -- see figure on page 95.
  • Probe shanks are ~ 170um x 150um, tip spade-type patterned via DRIE.
  • To be able to sustain soaking and lifetime testing, thick parylene layers are needed for the flexible parylene cable. The total parylene thickness of our neural probes is about 13 μm which results in a long etching time. We use photoresist as a mask when etching parylene using RIE O2 plasma etching; the etching rate of parylene and photoresist in RIE is roughly 1:1. Thick photoresist (> 20 μm) with high resolution is needed. AZ 9260 thick-film photoresist is designed for the more-demanding higher-resolution thick-resist requirements. It provides high resolution with superior aspect ratios, as well as wide focus and exposure latitude and good sidewall profiles. A process of two spinning coats using AZ 9260 has been developed to make a high-resolution thick photoresist mask of about 30 μm. Figure 4-11 shows the thick photoresist on the probe tip to guarantee a sharp tip after plasma etching. The photoresist is hard baked in oven at 120 oC for 30 min; the thick photoresist needs to be carefully handled during baking to avoid thermal cracking.
  • Otline electrolysis-based actuators ... interesting but hopefully not needed.

{597}
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ref: Suner-2005.12 tags: Suner Utah probe electrophysiology reliability chronic electrode recording longevity histology MEA date: 01-31-2013 22:27 gmt revision:7 [6] [5] [4] [3] [2] [1] [head]

PMID-16425835Reliability of signals from a chronically implanted, silicon-based electrode array in non-human primate primary motor cortex

  • claim that they have done a logitudinal development series that included 39 array implants in 18 monkeys.
  • can get reliable recordings out to 3 months (only? probably the array was forced out of the brain?)
    • however, it seems that their recording quality did not decrease dramatically over those 3 months.
  • excellent methods section.
  • also {1027}

____References____

{1201}
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ref: Kato-2006.01 tags: bioactive neural probes flexible parylene japan Kato microspheres date: 01-28-2013 03:57 gmt revision:1 [0] [head]

PMID-17946847[0] Preliminary study of multichannel flexible neural probes coated with hybrid biodegradable polymer.

  • Conference proceedings. a little light.
  • :-)
  • probes made of parylene-C

____References____

[0] Kato Y, Saito I, Hoshino T, Suzuki T, Mabuchi K, Preliminary study of multichannel flexible neural probes coated with hybrid biodegradable polymer.Conf Proc IEEE Eng Med Biol Soc 1no Issue 660-3 (2006)

{737}
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ref: Biran-2005.09 tags: microelectrode Michigan probe glia tissue response electrode immune histology MEA Biran date: 01-24-2013 20:49 gmt revision:5 [4] [3] [2] [1] [0] [head]

PMID-16045910[0] Neuronal cell loss accompanies the brain tissue response to chronically implanted silicon microelectrode arrays.

  • See also {1190} (wow, I'm redundant!)
  • Important point: ED1 up-regulation and neuronal loss were not observed in microelectrode stab controls, indicating that the phenotype did not result from the initial mechanical trauma of electrode implantation, but was associated with the foreign body response.
    • CD68 = ED1 is a marker for microglia and other macrophages. (wikipedia article is informative).
    • GFAP = glial fibrillary acidic protein, marker for astrocytes.
  • Recording failure is caused by chronic inflammation (mostly activated microglia) at the microelectrode brain tissue interface.
  • Only tested response 2 and 4 weeks after implantation. Makes sense for stab wound, but didn't the want to see a longer term response? Or do their electrodes just not last that long?
  • What did they coat the silicon probes in?
  • Used silastic to shock-mount their floating electrodes, but this apparently made no difference compared to conventional dental cement and bone screw mounting.
  • Suggest that chronic inflammatory response may be related to the absorption of fibrogen and complement to the surface of the device (device should not be porous?), the subsequent release of pro-inflammatory and cytotoxic cytokines by activated microphages, and the persistence of activated macrophages around materials which cannot be broken down.
    • Well then, how do you make the electrodes biochemically / biologically 'invisible'?
    • Persistently activated microglia are found around insoluble plaques in AD (plaques that cannot be / are not removed from the brain via proteolysis. Microglia form 'glitter cells' when they engulf undigestible stubstances). This has been termed 'frustrated phagocytosis', which results in increased secretion of proinflamatory cytokines that directly or indirectly cause neuronal death.
  • Significant reductions in neurofiliament reactivity was seen up to 230um from the microelectrode interface; this was not seen for stab wounds. Maximum recording distance is about 130um; 100um more reasonable in normal conditions.
  • Accumulating evidence from postmortem analysis of patients implanted with DBS electrodes reveals that chronic neuroinflamation is part of the response to such (duller, larger) implants as well. They have seen cell loss up to 1mm fromt the electrode surface here.

____References____

[0] Biran R, Martin DC, Tresco PA, Neuronal cell loss accompanies the brain tissue response to chronically implanted silicon microelectrode arrays.Exp Neurol 195:1, 115-26 (2005 Sep)

{749}
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ref: Biran-2007.07 tags: tresco biocompatibility tether skull electrodes Michigan probe recording Tresco date: 01-24-2013 20:11 gmt revision:6 [5] [4] [3] [2] [1] [0] [head]

PMID-17266019[0] The brain tissue response to implanted silicon microelectrode arrays is increased when the device is tethered to the skull.

  • Good, convincing, figures.

____References____

[0] Biran R, Martin DC, Tresco PA, The brain tissue response to implanted silicon microelectrode arrays is increased when the device is tethered to the skull.J Biomed Mater Res A 82:1, 169-78 (2007 Jul)

{270}
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ref: Hochberg-2006.07 tags: BMI Donoghue Utah probe Nature tetraplegia Hochberg 2006 date: 01-23-2013 18:49 gmt revision:4 [3] [2] [1] [0] [head]

PMID-16838014[] Neuronal ensemble control of prosthetic devices by a human with tetraplegia

  • patient was able to talk?
  • 96-channel microelectrode array implanted in arm/hand knob or right precentral gyrus.
  • around 30 units / day observed.
  • 90% of units showed significantly varied firing rates (K-S test) during imagined movements.
  • 2D control. Good pursuit tracking and center-out performance.
  • Used Wiener filter.
  • also see the technology review

____References____

{1175}
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ref: -0 tags: flexible polymer neural probes compliant MIT EPFL 2008 date: 12-22-2012 01:28 gmt revision:0 [head]

Demonstration of cortical recording using novel flexible polymer neural probes

  • Two layer platinum process minimizes probe size -- nice. Might be useful for our purposes.
  • used electrochemical etching to release the lithographically patterned devices from the sacrificial aluminum layer.
  • Impedance looks pretty high -- 500k at 1kHz.
  • They talk about PCA as though it's unusual to them (?)
  • Histology uncontrolled and un-quantitiative.

{740}
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ref: BeMent-1986.02 tags: Najafi Michigan probe recording silicon MEA date: 01-15-2012 06:59 gmt revision:6 [5] [4] [3] [2] [1] [0] [head]

PMID-3957372[0] Solid-state electrodes for multichannel multiplexed intracortical neuronal recording.

  • 1986 (!!) - but same basic technology for manufacture of these devices. Modern Michigan probes are much smaller, though - this paper uses 6um feature sizes. It seems like the rate-limiting step for a lot of this is marketization/selling it & getting the money for further R&D.
  • Mention closed-loop neuroprotheses ... 26 years ago. Why do we not have this yet? This is a really important question!
  • 12 channel on-chip analog processing, G=100, bandwidth 100-6kHz.
  • Mention that they think most of the current has to flow around other cells (glia), which makes it possible to record considerably further from the soma (ref [1],); see also PMID-14490040 which through modeling claims much smaller spread of current.
  • Electrode sites are highly capacitive, phase angle 80 deg.
  • 8 um interconnect leads.
  • Enhancement-mode LOCOS NMOS process.

____References____

[0] BeMent SL, Wise KD, Anderson DJ, Najafi K, Drake KL, Solid-state electrodes for multichannel multiplexed intracortical neuronal recording.IEEE Trans Biomed Eng 33:2, 230-41 (1986 Feb)

{598}
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ref: Santhanam-2007.11 tags: HermesB Shenoy continuous neural recording Utah probe flash wireless date: 01-09-2012 00:00 gmt revision:4 [3] [2] [1] [0] [head]

PMID-18018699[0] HermesB: a continuous neural recording system for freely behaving primates.

  • saved the data to compact flash. could record up to 48 hours continuously.
  • recorded from an acceleromter, too - neuron changes were associated with high head accelerations (unsurprisingly).
  • also recorded LFP, and were able to tell with some accuracy what behavioral state the monkey was in.
  • interfaces to the Utah probe
  • not an incredibly small system, judging from the photos.
  • 1600maH battery, 19 hour life @ 2/3 recording duty cycle -> current draw is 120mA, or 450mW.
    • can only record from two channels at once!
    • amplifier gain 610.
    • used ARM microcontroller ADUC2106

____References____

{779}
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ref: Song-2005.06 tags: recording wireless silicon utah probe Donoghue 2005 date: 01-08-2012 23:24 gmt revision:3 [2] [1] [0] [head]

PMID-16003903[0] Development of a chipscale integrated microelectrode/microelectronic device for brain implantable neuroengineering applications.

-- second from this

  • They have mated a 16-channel silicon microprobe to a low-power (50uW/channel) VLSI chip, including a CMOS amplifier.
    • Epoxy ball-bond.
    • 7mW total power.
  • Suggest photovoltaic power using GaAs/AlGaAs photodiodes. 3 in series yielding 3V at about 20% efficiency. Not bad! Then they can use the fiber to get data out, too.

____References____

[0] Song YK, Patterson WR, Bull CW, Beals J, Hwang N, Deangelis AP, Lay C, McKay JL, Nurmikko AV, Fellows MR, Simeral JD, Donoghue JP, Connors BW, Development of a chipscale integrated microelectrode/microelectronic device for brain implantable neuroengineering applications.IEEE Trans Neural Syst Rehabil Eng 13:2, 220-6 (2005 Jun)

{1032}
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ref: Dickey-2009.08 tags: Utah probe MEA stability date: 01-05-2012 22:07 gmt revision:1 [0] [head]

PMID-19535480[0] Single-unit stability using chronically implanted multielectrode arrays.

  • We found that 57% of the original units were stable through 7 days, 43% were stable through 10 days, and 39% were stable through 15 days.
  • Still not that good. Actual neurons / synapses last .. well, the lifetime of an individual.

____References____

[0] Dickey AS, Suminski A, Amit Y, Hatsopoulos NG, Single-unit stability using chronically implanted multielectrode arrays.J Neurophysiol 102:2, 1331-9 (2009 Aug)

{1022}
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ref: Kuperstein-1981.03 tags: MEA Michigan probe MIT 1981 date: 01-05-2012 02:27 gmt revision:3 [2] [1] [0] [head]

IEEE-4121195 (pdf) A Practical 24 Channel Microelectrode for Neural Recording in Vivo

  • Molybdenum substrate (??).
  • progenitor to the Michigan probe?

____References____

Kuperstein, Michael and Whittington, Douglas A. A Practical 24 Channel Microelectrode for Neural Recording in Vivo Biomedical Engineering, IEEE Transactions on BME-28 3 288 -293 (1981)

{739}
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ref: Najafi-1990.05 tags: Najafi Michigan probe silicon strength electrodes recording MEA date: 01-03-2012 22:45 gmt revision:5 [4] [3] [2] [1] [0] [head]

PMID-2345003[0] Strength characterization of silicon microprobes in neurophysiological tissues.

  • These active (with amplification/buffering circuitry) electrodes were around since 1990! It's been a while, and at least the devices are commercially available now.
  • Show that thin-film silicon is remarkably flexible and tough - about six times as strong as bulk silicon.
  • Have developed a silicon probe with an integrated phosphorous-doped polysilicon strain guague - nice.

____References____

[0] Najafi K, Hetke JF, Strength characterization of silicon microprobes in neurophysiological tissues.IEEE Trans Biomed Eng 37:5, 474-81 (1990 May)

{841}
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ref: Tian-2010.08 tags: nanowire nanoprobe silicon FET doping cis trans extracellular intracellular recording neuro MEA date: 01-03-2012 16:35 gmt revision:4 [3] [2] [1] [0] [head]

PMID-20705858[0] Three-Dimensional, Flexible Nanoscale Field-Effect Transistors as Localized Bioprobes

  • Made a silicon nanowire with 60 deg. kinks via trans/cis manipulation.
  • Doped one part of the N nanowire P to make a 200nm long FET whose gate is simply the surface of the nanowire (I think, have to check the refs)
  • Attached the nanoprobe / nanowire to flexible PMMA / SM-8 support which, due to interfacial stress, rose off the substrate (clever!)
  • Coated tip with phospholipid layers -> better cell attachment / penetration.
    • Possible to have the cell pull the nanoprobe in via endocytic pathways.
  • Were able to record intracellular and extracellular AP from rabbit cardiocytes. (!!!)

____References____

[0] Tian B, Cohen-Karni T, Qing Q, Duan X, Xie P, Lieber CM, Three-dimensional, flexible nanoscale field-effect transistors as localized bioprobes.Science 329:5993, 830-4 (2010 Aug 13)

{741}
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ref: Sodagar-2006.31 tags: Najafi michigan probe silicon recording 2006 date: 01-03-2012 00:56 gmt revision:5 [4] [3] [2] [1] [0] [head]

IEEE-4463150 (pdf) A neural signal processor for an implantable multi-channel cortical recording microsystem

  • Full 64 ch NPU (neural processing unit). The 'competition'.
    • Scan mode: all 64 channels are searched for the occurence of neural spikes. Addresses with neural activity are sorted, packed, and sent to the outside world.
      • Each channel can be individually set to +, -, or +- spikes. (no templates).
    • monitor mode: 2 channels of broadband transmission.
  • ref [3] claims 100 channels integrated.
  • inductive bidirectional wireless link.
  • Hierarchical design: 64 channels = 2 32 channel master/slave NPUs, each 4 8-channel modules.
  • External 8-bit A/D converter.
  • One 32-ch NPU in 0.5um AMI N-well CMOS process, 3.5mm x 2.7mm.
  • channel scan rate 64ksample/sec; 64 kspikes/sec, typical 8:1 data compression.
  • 2mbps output rate.
  • see also {393} and {149} - they report the same results, perhaps in more detail.

____References____

Sodagar, A.M. and Wise, K.D. and Najafi, K. Engineering in Medicine and Biology Society, 2006. EMBS '06. 28th Annual International Conference of the IEEE 5900 -5903 (2006)