In this study, differentiating murine cortical networks on multiwell microelectrode arrays were repeatedly exposed to an ... In this study, differentiating murine cortical networks on multiwell microelectrode arrays were repeatedly exposed to an ... Biological application of microelectrode arrays in drug discovery and basic research. Anal Bioanal Chem (2003) 377:486-95. doi: ... Microelectrode arrays: a physiologically based neurotoxicity testing platform for the 21st century. Neurotoxicology (2010) 31: ...

Alldredge A. L., Cohen Y. (1987). Can microscale chemical patches persist in the sea? microelectrode study of marine snow, ...

2009). Extracellular recordings from locally dense microelectrode arrays coupled to dissociated cortical cultures. J. Neurosci ... Revealing neuronal function through microelectrode array recordings. Front. Neurosci. 8:423. doi: 10.3389/fnins.2014.00423 ... which can be measured by extracellular microelectrode arrays. To retrieve information on the simultaneous activation of ...

... plateau in terms of the ability to provide safe stimulation at high resolution or rather with high densities of microelectrodes ... plateau in terms of the ability to provide safe stimulation at high resolution or rather with high densities of microelectrodes ... 2010). Flexible and stretchable micro-electrodes for in vitro and in vivo neural interfaces. Med. Biol. Eng. Comput. 48, 945- ... 2013). Failure mode analysis of silicon-based intracortical microelectrode arrays in non-human primates. J. Neural Eng. 10, ...

The microelectrode resistance was 5-10 MΩ; the series resistance was not compensated but continuously monitored throughout the ...

Ward, M. P., Rajdev, P., Ellison, C., and Irazoqui, P. P. (2009). Toward a comparison of microelectrodes for acute and chronic ... Prasad, A., and Sanchez, J. C. (2012). Quantifying long-term microelectrode array functionality using chronic in vivo impedance ... Ersen, A., Elkabes, S., Freedman, D. S., and Sahin, M. (2015). Chronic tissue response to untethered microelectrode implants in ... 2012). Spatial and temporal characteristics of V1 microstimulation during chronic implantation of a microelectrode array in ...

The microelectrode probe with 16 contacts was used to perform the electrophysiological recordings (A1x16-10mm-100-703-A16, ... Dolan, K., Martens, H. C., Schuurman, P. R., and Bour, L. J. (2009). Automatic noise-level detection for extra-cellular micro- ... Probes and microelectrode arrays have become available, which allow electrophysiological recordings with high temporal and ... LFP recording with high spatial resolution microelectrode arrays allows us to estimate the CSD from the LFPs (Freeman and ...

Kipke, D. R., Vetter, R. J., Williams, J. C., and Hetke, J. F. (2003). Silicon-substrate intracortical microelectrode arrays ... Selective stimulation of cat sciatic nerve using an array of varying-length microelectrodes. J. Neurophysiol. 85, 1585-1594. ...

The current standard of care to confirm DBS targets in secondary dystonia involves intra-operative microelectrode recordings, ... Simulation of microelectrode stimulation also suggests selectivity between cells and fibers may be possible (Grill and McLntyre ...

Large scale, high density microelectrode arrays (MEAs) now make it possible to record large populations comprising thousands of ... integrating 4,096 square microelectrodes (21 by 21 μm, pitch 42 μm) on an active area of 2.67 by 2.67 mm. The platform records ... A method for electrophysiological characterization of hamster retinal ganglion cells using a high-density cmos microelectrode ...

Cross-site reliability of human induced pluripotent stem cell-derived cardiomyocyte based safety assays using microelectrode ...

Multiple microelectrode and correlation studies from several cortical areas," in Induced Rhythms in the Brain, eds E. Başar and ...

Deep Brain Stimulation (DBS) has matured into a staple of modern therapeutics for movement disorders and is considered a promising tool towards the treatment of psychiatric conditions (Vedam-Mai et al. 2021). More importantly, DBS has been the engine propelling the development of a diverse ecosystem of technological innovations, ranging from surgical navigation systems that incorporate connectome data (Li et al. 2020) to algorithms that predict the therapeutic outcomes of brain stimulation (Gonzalez-Escamilla et al. 2019, and implantable neurostimulators that integrate chronic monitoring and real-time modulation of neural activity (Stanslaski et al. 2018, Topalovic et al. 2020.With the wealth of technological advancements accrued in recent years, two key questions have rapidly gained interest: (1) How do stimulation targets and settings affect the therapeutic efficacy of DBS? and (2) How can we minimize the burden associated with DBS programming while maximizing the clinical efficacy? In this research