www.multichannelsystems.com

Innovations in Electrophysiology

Technological developments

Arbogast T, Iacono G, Chevalier C, Afinowi NO, Houbaert X, van Eede MC, Laliberte C, Birling MC, Linda K, Meziane H, Selloum M, Sorg T, Nadif Kasri N, Koolen DA, Stunnenberg HG, Henkelman RM, Kopanitsa M, Humeau Y, De Vries BBA, Herault Y (2017) Mouse models of 17q21.31 microdeletion and microduplication syndromes highlight the importance of Kansl1 for cognition. PLoS Genet 13:e1006886.

Artyukhov AS, Dashinimaev EB, Tsvetkov VO, Bolshakov AP, Konovalova EV, Kolbaev SN, Vorotelyak EA, Vasiliev AV (2017) New genes for accurate normalization of qRT-PCR results in study of iPS and iPS-derived cells. Gene 626:234-240.

Blaschke BM, Tort-Colet N, Guimerà-Brunet A, Weinert J, Rousseau L, Heimann A, Drieschner S, Kempski O, Villa R, Sanchez-Vives MV, Garrido JA (2017) Mapping brain activity with flexible graphene micro-transistors. 2D Materials 4:025040.

Bottrich M, Tanskanen JMA, Hyttinen JAK (2017) Lead field theory provides a powerful tool for designing microelectrode array impedance measurements for biological cell detection and observation. Biomed Eng Online 16:85.

Bridges DC, Tovar KR, Wu B, Hansma PK, Kosik KS (2017) MEA Viewer: a High-performance Interactive Application for Visualizing Electrophysiological Data. bioRxiv.

Can UI, Nagarajan N, Vural DC, Zorlutuna P (2017) Muscle-Cell-Based “Living Diodes”. Advanced Biosystems 1:n/a-n/a.

Cools J, Copic D, Luo Z, Callewaert G, Braeken D, De Volder M (2017) 3D Microstructured Carbon Nanotube Electrodes for Trapping and Recording Electrogenic Cells. Advanced Functional Materials:n/a-n/a.

Dermutz H, Thompson-Steckel G, Forro C, de Lange V, Dorwling-Carter L, Voros J, Demko L (2017) Paper-based patterned 3D neural cultures as a tool to study network activity on multielectrode arrays. RSC Advances 7:39359-39371.

Ellis BW, Acun A, Can UI, Zorlutuna P (2017) Human iPSC-derived myocardium-on-chip with capillary-like flow for personalized medicine. Biomicrofluidics 11:024105.

Frega M, van Gestel SHC, Linda K, van der Raadt J, Keller J, Van Rhijn J-R, Schubert D, Albers CA, Nadif Kasri N (2017) Rapid Neuronal Differentiation of Induced Pluripotent Stem Cells for Measuring Network Activity on Micro-electrode Arrays. JoVE:e54900.

Giacomelli E, Bellin M, Sala L, van Meer BJ, Tertoolen LGJ, Orlova VV, Mummery CL (2017) Three-dimensional cardiac microtissues composed of cardiomyocytes and endothelial cells co-differentiated from human pluripotent stem cells. Development 144:1008-1017.

Habibey R, Latifi S, Mousavi H, Pesce M, Arab-Tehrany E, Blau A (2017) A multielectrode array microchannel platform reveals both transient and slow changes in axonal conduction velocity. Sci Rep 7:8558.

Hulsmann J, Aubin H, Wehrmann A, Lichtenberg A, Akhyari P (2017) The impact of left ventricular stretching in model cultivations with neonatal cardiomyocytes in a whole-heart bioreactor. Biotechnol Bioeng 114:1107-1117.

Jung H, Kang H, Nam Y (2017) Digital micromirror based near-infrared illumination system for plasmonic photothermal neuromodulation. Biomedical Optics Express 8:2866-2878.

Ko H, Lee S (2017) Electrical characterization of 2D and 3D microelectrodes for achieving high-resolution sensing in retinal prostheses with in vitro animal experimental results. Microsystem Technologies 23:473-481.

Kreutzer J, Yla-Outinen L, Maki AJ, Ristola M, Narkilahti S, Kallio P (2017) Cell culture chamber with gas supply for prolonged recording of human neuronal cells on microelectrode array. J Neurosci Methods 280:27-35.

Laprell L, Tochitsky I, Kaur K, Manookin MB, Stein M, Barber DM, Schon C, Michalakis S, Biel M, Kramer RH, Sumser MP, Trauner D, Van Gelder RN (2017) Photopharmacological control of bipolar cells restores visual function in blind mice. J Clin Invest 127:2598-2611.

Lecomte A, A. D, Descamps E, Dahan L, Bergaud C (2017) In vitro and in vivo biostability assessment of chronically-implanted Parylene C neural sensors. Sensors and Actuators B: Chemical.

Maoz BM, Herland A, Henry OYF, Leineweber WD, Yadid M, Doyle J, Mannix R, Kujala VJ, FitzGerald EA, Parker KK, Ingber DE (2017) Organs-on-Chips with combined multi-electrode array and transepithelial electrical resistance measurement capabilities. Lab Chip 17:2294-2302.

Narula U, Ruiz A, McQuaide M, DeMarse TB, Wheeler BC, Brewer GJ (2017) Narrow microtunnel technology for the isolation and precise identification of axonal communication among distinct hippocampal subregion networks. PLoS ONE 12:e0176868.

Sadleir RJ, Fu F, Falgas C, Holland S, Boggess M, Grant SC, Woo EJ (2017) Direct detection of neural activity in vitro using magnetic resonance electrical impedance tomography (MREIT). Neuroimage 161:104-119.

Simon DM, Charkhkar H, St John C, Rajendran S, Kang T, Reit R, Arreaga-Salas D, McHail DG, Knaack GL, Sloan A, Grasse D, Dumas TC, Rennaker RL, Pancrazio JJ, Voit WE (2017) Design and demonstration of an intracortical probe technology with tunable modulus. J Biomed Mater Res A 105:159-168.

Tochitsky I, Trautman J, Gallerani N, Malis JG, Kramer RH (2017) Restoring visual function to the blind retina with a potent, safe and long-lasting photoswitch. Sci Rep 7:45487.

Vuorenpaa H, Penttinen K, Heinonen T, Pekkanen-Mattila M, Sarkanen JR, Ylikomi T, Aalto-Setala K (2017) Maturation of human pluripotent stem cell derived cardiomyocytes is improved in cardiovascular construct. Cytotechnology.

Zeck G, Jetter F, Channappa L, Bertotti G, Thewes R (2017) Electrical Imaging: Investigating Cellular Function at High Resolution. Advanced Biosystems:1700107-n/a.

Zhang L, Li X, Yu X, Li Y, Sun A, Huang C, Xu F, Guo J, Sun Y, Zhang X, Yang X, Zhang C (2017) Construction of vascularized pacemaker tissues by seeding cardiac progenitor cells and endothelial progenitor cells into Matrigel. Life Sci 179:139-146.

Berglund K, Tung JK, Higashikubo B, Gross RE, Moore CI, Hochgeschwender U (2016) Combined Optogenetic and Chemogenetic Control of Neurons. Methods Mol Biol 1408:207-225.

Buehler S, Stubbe M, Bonk S, Nissen M, Titipornpun K, Klinkenberg E-D, Baumann W, Gimsa J (2016) Cell Monitoring and Manipulation Systems (CMMSs) based on Glass Cell-Culture Chips (GC3s). Micromachines 7:106.

Dvorkin R, Ziv NE (2016) Relative Contributions of Specific Activity Histories and Spontaneous Processes to Size Remodeling of Glutamatergic Synapses. PLoS Biol 14:e1002572.

Eleftheriou CG, Zimmermann JB, Kjeldsen HD, David-Pur M, Hanein Y, Sernagor E (2016) Carbon nanotube electrodes for retinal implants: a study of structural and functional integration over time. bioRxiv.

Fan X, Song Y, Ma Y, Zhang S, Xiao G, Yang L, Xu H, Zhang D, Cai X (2016) In Situ Real-Time Monitoring of Glutamate and Electrophysiology from Cortex to Hippocampus in Mice Based on a Microelectrode Array. Sensors (Basel) 17.

Frega M (2016) Neuronal Network Dynamics in 2D and 3D in vitro Neuroengineered Systems. PhD.

Hasan F, Berdichevsky Y (2016) Neural Circuits on a Chip. Micromachines 7.

Iftikhar H (2016) Transparent Indium Tin Oxide Microelectrode Arrays for Measuring Beating Cardiomyocytes.

Killian NJ, Vernekar VN, Potter SM, Vukasinovic J (2016) A Device for Long-Term Perfusion, Imaging, and Electrical Interfacing of Brain Tissue In vitro. Front Neurosci 10:135.

Klatt N, Scherschel K, Schad C, Lau D, Reitmeier A, Kuklik P, Muellerleile K, Yamamura J, Zeller T, Steven D, Baldus S, Schaffer B, Jungen C, Eickholt C, Wassilew K, Schwedhelm E, Willems S, Meyer C (2016) Development of nonfibrotic left ventricular hypertrophy in an ANG II-induced chronic ovine hypertension model. Physiol Rep 4.

Knudsen AM (2016) NTNU Cyborg: A study into embodying Neuronal Cultures through Robotic Systems. Department of Engineering Cybernetics.

Lee S, Yen SC, Sheshadri S, Delgado-Martinez I, Xue N, Xiang Z, Thakor NV, Lee C (2016) Flexible Epineural Strip Electrode for Recording in Fine Nerves. IEEE Trans Biomed Eng 63:581-587.

Li Y, Sun R, Wang Y, Li H, Zheng X (2016) A Novel Robot System Integrating Biological and Mechanical Intelligence Based on Dissociated Neural Network-Controlled Closed-Loop Environment. PLoS ONE 11:e0165600.

Massobrio P, Massobrio G, Martinoia S (2016) Interfacing Cultured Neurons to Microtransducers Arrays: A Review of the Neuro-Electronic Junction Models. Front Neurosci 10:282.

Naughton JR, Connolly T, Varela JA, Lundberg J, Burns MJ, Chiles TC, Christianson JP, Naughton MJ (2016) Shielded Coaxial Optrode Arrays for Neurophysiology. Front Neurosci 10:252.

Oyunbaatar NE, Lee DH, Patil SJ, Kim ES, Lee DW (2016) Biomechanical Characterization of Cardiomyocyte Using PDMS Pillar with Microgrooves. Sensors (Basel) 16.

Pastore VP, Poli D, Godjoski A, Martinoia S, Massobrio P (2016) ToolConnect: A Functional Connectivity Toolbox for In vitro Networks. Front Neuroinform 10:13.

Pigareva Y, Malishev E, Gladkov A, Kolpakov V, Bukatin A, Mukhina I, Kazantsev V, Pimashkin A (2016) Neural signal registration and analysis of axons grown in microchannels. Journal of Physics: Conference Series 741.

Pinnell RC, Almajidy RK, Kirch RD, Cassel JC, Hofmann UG (2016) A Wireless EEG Recording Method for Rat Use inside the Water Maze. PLoS ONE 11:e0147730.

Pisano F (2016) Advanced technologies for spatio-temporal control of neural circuits using optogenetics. Department of Physics.

Rabieh N, Ojovan SM, Shmoel N, Erez H, Maydan E, Spira ME (2016) On-chip, multisite extracellular and intracellular recordings from primary cultured skeletal myotubes. Sci Rep 6:36498.

Reinhard K, Mutter M, Gustafsson E, Gustafsson L, Vaegler M, Schultheiss M, Muller S, Yoeruek E, Schrader M, Munch TA (2016) Hypothermia Promotes Survival of Ischemic Retinal Ganglion Cells. Invest Ophthalmol Vis Sci 57:658-663.

Ryu JR, Jang MJ, Jo Y, Joo S, Lee do H, Lee BY, Nam Y, Sun W (2016) Synaptic compartmentalization by micropatterned masking of a surface adhesive cue in cultured neurons. Biomaterials 92:46-56.

Shmoel N, Rabieh N, Ojovan SM, Erez H, Maydan E, Spira ME (2016) Multisite electrophysiological recordings by self-assembled loose-patch-like junctions between cultured hippocampal neurons and mushroom-shaped microelectrodes. Sci Rep 6:27110.

Vardi R, Goldental A, Sardi S, Sheinin A, Kanter I (2016) Simultaneous multi-patch-clamp and extracellular-array recordings: Single neuron reflects network activity. Sci Rep 6:36228.

Wanke E, Gullo F, Dossi E, Valenza G, Becchetti A (2016) Neuron-glia crosstalk revealed in reverberating networks by simultaneous extracellular recording of spikes and astrocytes' glutamate transporter and K+ currents. J Neurophysiol:jn 00509 02016.

Welkenhuysen M, Hoffman L, Luo Z, De Proft A, Van den Haute C, Baekelandt V, Debyser Z, Gielen G, Puers R, Braeken D (2016) An integrated multi-electrode-optrode array for in vitro optogenetics. Sci Rep 6:20353.

Wijdenes P, Ali H, Armstrong R, Zaidi W, Dalton C, Syed NI (2016) A novel bio-mimicking, planar nano-edge microelectrode enables enhanced long-term neural recording. Sci Rep 6:34553.

Wilk N, Habibey R, Golabchi A, Latifi S, Ingebrandt S, Blau A (2016) Selective comparison of gelling agents as neural cell culture matrices for long-term microelectrode array electrophysiology. OCL 23.

Zhang Q, Zhang D, Li N, Lu Y, Yao Y, Li S, Liu Q (2016) Zinc Nanoparticles-equipped Bioelectronic Nose Using a Microelectrode Array for Odorant Detection. Analytical Sciences 32.

Bartsch H, Himmerlich M, Fischer M, Demkó L, Hyttinen J, Schober A (2015) LTCC-Based Multi-Electrode Arrays for 3D in Vitro Cell Cultures. Journal of Ceramic Science and Technology 6:315-324.

Biffi E (2015) Microfluidic and Compartmentalized Platforms for Neurobiological Research. Heidelberg: Springer.

Biro I, Giugliano M (2015) A reconfigurable visual-programming library for real-time closed-loop cellular electrophysiology. Front Neuroinform 9:17.

Charkhkar H (2015) Microelectrode Arrays for Neuronal Recordings: Developing Novel Technology and Applications. Doctor of Philosophy.

Dipalo M, Messina GC, Amin H, La Rocca R, Shalabaeva V, Simi A, Maccione A, Zilio P, Berdondini L, De Angelis F (2015) 3D plasmonic nanoantennas integrated with MEA biosensors. Nanoscale 7:3703-3711.

Dranias MR, Westover MB, Cash S, VanDongen AM (2015) Stimulus information stored in lasting active and hidden network states is destroyed by network bursts. Front Integr Neurosci 9:14.

Farah N, Levinsky A, Brosh I, kahn I, Shoam S (2015) Holographic fiber bundle system for patterned optogenetic activation of large-scale neuronal networks. Neurophotonics 2.

Georgiadis V, Stephanou A, Townsend PA, Jackson TR (2015) MultiElec: A MATLAB Based Application for MEA Data Analysis. PLoS ONE 10:e0129389.

Goldental A, Sabo P, Sardi S, Vardi R, Kanter I (2015) Mimicking Collective Firing Patterns of Hundreds of Connected Neurons using a Single-Neuron Experiment. Front Neurosci 9:508.

Grundmann D, Klotz M, Rabe H, Glanemann M, Schafer KH (2015) Isolation of high-purity myenteric plexus from adult human and mouse gastrointestinal tract. Sci Rep 5:9226.

Habibey R, Golabchi A, Latifi S, Difato F, Blau A (2015) A microchannel device tailored to laser axotomy and long-term microelectrode array electrophysiology of functional regeneration. Lab Chip 15:4578-4590.

Kanner S, Bisio M, Cohen G, Goldin M, Tedesco M, Hanein Y, Ben-Jacob E, Barzilai A, Chiappalone M, Bonifazi P (2015) Design, Surface Treatment, Cellular Plating, and Culturing of Modular Neuronal Networks Composed of Functionally Inter-connected Circuits.e52572.

Kim R, Nam Y (2015) Electrochemical layer-by-layer approach to fabricate mechanically stable platinum black microelectrodes using a mussel-inspired polydopamine adhesive. J Neural Eng 12:026010.

Mondal A, Baker B, Harvey IR, Moreno AP (2015) PerFlexMEA: a thin microporous microelectrode array for in vitro cardiac electrophysiological studies on hetero-cellular bilayers with controlled gap junction communication. Lab Chip 15:2037-2048.

Nagarah JM, Stowasser A, Parker RL, Asari H, Wagenaar DA (2015) Optically transparent multi-suction electrode arrays. Front Neurosci 9:384.

Newman JP, Fong MF, Millard DC, Whitmire CJ, Stanley GB, Potter SM (2015) Optogenetic feedback control of neural activity. Elife 4:e07192.

Nick C, Schlaak HF, Thielemann C (2015) Simulation and Measurement of Neuroelectrodes´ Characteristics with Integrated High Aspect Ratio Nano Structures. Materials Science 2:189-202.

Nussinovitch U, Gepstein L (2015) Optogenetics for suppression of cardiac electrical activity in human and rat cardiomyocyte cultures. Neurophotonics 2:031204.

Pedraza E, Karajic A, Raoux M, Perrier R, Pirog A, Lebreton F, Arbault S, Gaitan J, Renaud S, Kuhn A, Lang J (2015) Guiding pancreatic beta cells to target electrodes in a whole-cell biosensor for diabetes. Lab Chip.

Piret G, Hebert C, Mazellier JP, Rousseau L, Scorsone E, Cottance M, Lissorgues G, Heuschkel MO, Picaud S, Bergonzo P, Yvert B (2015) 3D-nanostructured boron-doped diamond for microelectrode array neural interfacing. Biomaterials 53:173-183.

Pirino V, Riccomagno E, Martinoia S, Massobrio P (2015) A topological study of repetitive co-activation networks in in vitro cortical assemblies. Phys Biol 12:016007.

Rast G, Weber J, Disch C, Schuck E, Ittrich C, Guth BD (2015) An integrated platform for simultaneous multi-well field potential recording and Fura-2-based calcium transient ratiometry in human induced pluripotent stem cell (hiPSC)-derived cardiomyocytes. J Pharmacol Toxicol Methods.

Regalia G, Biffi E, Ferrigno G, Pedrocchi A (2015) A low-noise, modular, and versatile analog front-end intended for processing in vitro neuronal signals detected by microelectrode arrays. Comput Intell Neurosci 2015:172396.

Ren Y, Huang S, Mosser S, Heuschkel M, Bertsch A, Fraering PC, Chen JJ, Renaud P (2015) A Simple and Reliable PDMS and SU-8 Irreversible Bonding Method and Its Application on a Microfluidic-MEA Device for Neuroscience Research. Micromachines 6:1923-1934.

Saalfrank D, Konduri AK, Latifi S, Habibey R, Golabchi A, Martiniuc AV, Knoll A, Ingebrandt S, Blau A (2015) Incubator-independent cell-culture perfusion platform for continuous long-term microelectrode array electrophysiology and time-lapse imaging. R Soc Open Sci 2:150031.

Samba R, Herrmann T, Zeck G (2015) PEDOT-CNT coated electrodes stimulate retinal neurons at low voltage amplitudes and low charge densities. J Neural Eng 12:016014.

Samhaber R, Schottdorf M, Hady AE, Broking K, Daus A, Thielemann C, Stuhmer W, Wolf F (2015) Growing neuronal islands on multi-electrode arrays using an Accurate Positioning-muCP device. J Neurosci Methods.

Schonecker S, Kraushaar U, Guenther E, Gerst F, Ullrich S, Haring HU, Konigsrainer A, Barthlen W, Drews G, Krippeit-Drews P (2015) Human Islets Exhibit Electrical Activity on Microelectrode Arrays (MEA). Exp Clin Endocrinol Diabetes.

Smith I, Haag M, Ugbode C, Tams D, Rattray M, Przyborski S, Bithell A, Whalley BJ (2015) Neuronal-glial populations form functional networks in a biocompatible 3D scaffold. Neurosci Lett 609:198-202.

Smith I, Silveirinha V, Stein JL, de la Torre-Ubieta L, Farrimond JA, Williamson EM, Whalley BJ (2015) Human neural stem cell-derived cultures in three-dimensional substrates form spontaneously functional neuronal networks. J Tissue Eng Regen Med.

Spanu A, Lai S, Cosseddu P, Tedesco M, Martinoia S, Bonfiglio A (2015) An organic transistor-based system for reference-less electrophysiological monitoring of excitable cells. Sci Rep 5:8807.

Tedesco M, Frega M, Martinoia S, Pesce M, Massobrio P (2015) Interfacing 3D Engineered Neuronal Cultures to Micro-Electrode Arrays: An Innovative In Vitro Experimental Model. J Vis Exp:e53080.

Tessadori J, Chiappalone M (2015) Closed-loop Neuro-robotic Experiments to Test Computational Properties of Neuronal Networks.e52341.

Tolstosheeva E, Gordillo-Gonzalez V, Biefeld V, Kempen L, Mandon S, Kreiter AK, Lang W (2015) A multi-channel, flex-rigid ECoG microelectrode array for visual cortical interfacing. Sensors (Basel) 15:832-854.

Bertotti G, Velychko D, Dodel N, Keil S, Wolansky D, Tillak B, Schreiter M, Grall A, Jesinger P, Möller A, Boven KH, Röhler S, Eickenscheidt M, Stett A, Zeck G, Thewes R (2014) A CMOS-Based Sensor Array for In-Vitro Neural Tissue Interfacing with 4225 Recording Sites and 1024 Stimulation Sites. In: BioCAS. Lausanne.

Bingen BO, Engels MC, Schalij MJ, Jangsangthong W, Neshati Z, Feola I, Ypey DL, Askar SF, Panfilov AV, Pijnappels DA, de Vries AA (2014) Light-induced termination of spiral wave arrhythmias by optogenetic engineering of atrial cardiomyocytes. Cardiovasc Res 104:194-205.

Eglen SJ, Weeks M, Jessop M, Simonotto J, Jackson T, Sernagor E (2014) A data repository and analysis framework for spontaneous neural activity recordings in developing retina. Gigascience 3:3.

Fattahi P, Yang G, Kim G, Abidian MR (2014) A review of organic and inorganic biomaterials for neural interfaces. Adv Mater 26:1846-1885.

Frega M, Tedesco M, Massobrio P, Pesce M, Martinoia S (2014) Network dynamics of 3D engineered neuronal cultures: a new experimental model for in-vitro electrophysiology. Sci Rep 4:5489.

George JB, Abraham GM, Singh K, Ankolekar SM, Amrutur B, Sikdar SK (2014) Input coding for neuro-electronic hybrid systems. Biosystems 126C:1-11.

Keren H, Marom S (2014) Controlling neural network responsiveness: tradeoffs and constraints. Front Neuroeng 7:11.

Kim R, Joo S, Jung H, Hong N, Nam Y (2014) Recent trends in microelectrode array technology for in vitro neural interface platform. Biomedical Engineering Letters 4:129-141.

Lin ZC, Xie C, Osakada Y, Cui Y, Cui B (2014) Iridium oxide nanotube electrodes for sensitive and prolonged intracellular measurement of action potentials. Nat Commun 5:3206.

Mahmud M, Pulizzi R, Vasilaki E, Giugliano M (2014) QSpike tools: a generic framework for parallel batch preprocessing of extracellular neuronal signals recorded by substrate microelectrode arrays. Front Neuroinform 8:26.

Nick C, Thielemann C (2014) Are Carbon Nanotube Microelectrodes Manufactured from Dispersion Stable Enough for Neural Interfaces? BioNanoScience:1-10.

Pan ZH, Ganjawala TH, Lu Q, Ivanova E, Zhang Z (2014) ChR2 mutants at L132 and T159 with improved operational light sensitivity for vision restoration. PLoS ONE 9:e98924.

Quasthoff K, Ferrea S, Fleischer W, Theiss S, Schnitzler A, Dihne M, Walter J (2014) Freshly frozen E18 rat cortical cells can generate functional neural networks after standard cryopreservation and thawing procedures. Cytotechnology.

Reinhard K, Tikidji-Hamburyan A, Seitter H, Idrees S, Mutter M, Benkner B, Munch TA (2014) Step-By-Step Instructions for Retina Recordings with Perforated Multi Electrode Arrays. PLoS ONE 9:e106148.

Schonecker S, Kraushaar U, Dufer M, Sahr A, Hardtner C, Guenther E, Walther R, Lendeckel U, Barthlen W, Krippeit-Drews P, Drews G (2014) Long-term culture and functionality of pancreatic islets monitored using microelectrode arrays. Integr Biol (Camb).

Stutzki H, Leibig C, Andreadaki A, Fischer D, Zeck G (2014) Inflammatory stimulation preserves physiological properties of retinal ganglion cells after optic nerve injury. Front Cell Neurosci 8:38.

Xu B, Binczak S, Jacquir S, Pont O, Yahia H (2014) Complexity analysis of experimental cardiac arrhythmia. In: 2014 IEEE Region 10 Technical Symposium (TENSYMP). Kuala Lumpur.

Blau A (2013) Cell adhesion promotion strategies for signal transduction enhancement in

microelectrode array in vitro electrophysiology: An introductory overview and

critical discussion. Current Opinion in Colloid & Interface Science 18:481-492.

Brewer GJ, Boehler MD, Leondopulos S, Pan L, Alagapan S, Demarse TB, Wheeler BC (2013) Toward a self-wired active reconstruction of the hippocampal trisynaptic loop: DG-CA3. Front Neural Circuits 7:165.

David-Pur M, Bareket-Keren L, Beit-Yaakov G, Raz-Prag D, Hanein Y (2013) All-carbon-nanotube flexible multi-electrode array for neuronal recording and stimulation. Biomed Microdevices.

Gabriel G, Illa X, Guimera A, Rebollo B, Hernández-Ferrer J, Martin-Fernandez I, Martínez MT, Godignon P, Sanchez-Vives MV, Villa R (2013) Carbon Nanotubes as Suitable Interface for Improving Neural Recordings. In.

Huang S, Uusisaari MY (2013) Physiological temperature during brain slicing enhances the quality of acute slice preparations. Front Cell Neurosci 7:48.

Jahnke HG, Heimann A, Azendorf R, Mpoukouvalas K, Kempski O, Robitzki AA, Charalampaki P (2013) Impedance spectroscopy--an outstanding method for label-free and real-time discrimination between brain and tumor tissue in vivo. Biosens Bioelectron 46:8-14.

Kim YH, Kim GH, Baek NS, Han YH, Kim AY, Chung MA, Jung SD (2013) Fabrication of multi-electrode array platforms for neuronal interfacing with bi-layer lift-off resist sputter deposition. JOURNAL OF MICROMECHANICS AND MICROENGINEERING 23.

Langhammer CG, Kutzing MK, Luo V, Zahn JD, Firestein BL (2013) A topographically modified substrate-embedded MEA for directed myotube formation at electrode contact sites. Ann Biomed Eng 41:408-420.

Martinelli V, Cellot G, Fabbro A, Bosi S, Mestroni L, Ballerini L (2013) Improving cardiac myocytes performance by carbon nanotubes platforms. Front Physiol 4:239.

Menz MD, Oralkan O, Khuri-Yakub PT, Baccus SA (2013) Precise neural stimulation in the retina using focused ultrasound. J Neurosci 33:4550-4560.

Moretti D, Garenne A, Haro E, Poulletierde Gannes F, Lagroye I, Leveque P, Veyret B, Lewis N (2013) InVitro Exposureof Neuronal Networkstoa GSM-1800 Signal. Bioelectromagnetics.

Narkilahti S (2013) SpikeBooster culture chambers for MEA. In.

Ness TB, Hagen E, Negwer M, Bakker R, Schubert D, Einevoll GT (2013) Modeling Extracellular Potentials in Microelectrode Array Recordings. In.

Nguyen QV, Caro A, Raoux M, Quotb A, Floderer JB, Bornat Y, Renaud S, Lang J (2013) A novel bioelectronic glucose sensor to process distinct electrical activities of pancreatic beta-cells. Conf Proc IEEE Eng Med Biol Soc 2013:172-175.

Nick C, Goldhammer M, Bestel R, Steger F, Daus AW, Thielemann C (2013) DrCell – A Software Tool for the Analysis of Cell Signals Recorded with Extracellular Microelectrodes Signal Processing: An International Journal (SPIJ) 7.

Pradhapan P, Kuusela J, Viik J, Aalto-Setala K, Hyttinen J (2013) Cardiomyocyte MEA data analysis (CardioMDA)--a novel field potential data analysis software for pluripotent stem cell derived cardiomyocytes. PLoS ONE 8:e73637.

Schmidt J, Foulser A, Frohlich F (2013) Brain Stimulation by Network Resonance with Weak Electric Fields Probed by Optogenetics in Vitro. In.

Schönecker S, Kraushaar U, Guenther E, Düfer M, Sahr A, Härdtner C, Walther R, Lendeckel U, Barthlen W, Krippeit-Drews P, Drews G (2013) Microelectrode arrays as a new approach in beta-cell research: from mice to men In: EASD-Meeting. Barcelona.

Sivasubramaniapandian M (2013) The effect of coatings on the performance of microelectrode arrays. Faculty of Natural Sciences Master of Science 80.

Spira ME, Hai A (2013) Multi-electrode array technologies for neuroscience and cardiology. Nat Nanotechnol 8:83-94.

Vardi R, Guberman S, Goldental A, Kanter I (2013) An experimental evidence-based computational paradigm for new logic-gates in neuronal activity. EPL (Europhysics Letters) 103.

Bareket-Keren L, Hanein Y (2012) Carbon nanotube-based multi electrode arrays for neuronal interfacing: progress and prospects. Front Neural Circuits 6:122.

Becchetti A, Gullo F, Bruno G, Dossi E, Lecchi M, Wanke E (2012) Exact distinction of excitatory and inhibitory neurons in neural networks: a study with GFP-GAD67 neurons optically and electrophysiologically recognized on multielectrode arrays. Front Neural Circuits 6:63.

Bestel R, Daus AW, Thielemann C (2012) A novel automated spike sorting algorithm with adaptable feature extraction. J Neurosci Methods 211:168-178.

Biffi E, Piraino F, Pedrocchi A, Fiore GB, Ferrigno G, Redaelli A, Menegon A, Rasponi M (2012) A microfluidic platform for controlled biochemical stimulation of twin neuronal networks. Biomicrofluidics 6:24106-2410610.

Daus AW, Layer PG, Thielemann C (2012) A spheroid-based biosensor for the label-free detection of drug-induced field potential alterations. Sensors and Actuators B: Chemical 165:53-58.

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