2019
DOI: 10.1007/978-981-13-2050-7_1
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Advances in Penetrating Multichannel Microelectrodes Based on the Utah Array Platform

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Cited by 14 publications
(17 citation statements)
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“…Significant improvements in materials, designs and fabrication procedures of implantable electrodes have been realized during the last two decades, overpassing the traditional, wafer-based integrated electronics (Patil and Thakor, 2016). To further improve the usability of the neural electrodes, considerable efforts are being devoted in the engineering field for increasing robustness and flexibility at the same time of miniaturizing the electrodes (Boehler et al, 2017;Won et al, 2018;Leber et al, 2019), improving the electrical connectors (Koch et al, 2019), and in the biological field to increase biocompatibility of the substrates and to modulate the foreign body reaction (Lotti et al, 2017;De la Oliva et al, 2019).…”
Section: Electrode Failuresmentioning
confidence: 99%
“…Significant improvements in materials, designs and fabrication procedures of implantable electrodes have been realized during the last two decades, overpassing the traditional, wafer-based integrated electronics (Patil and Thakor, 2016). To further improve the usability of the neural electrodes, considerable efforts are being devoted in the engineering field for increasing robustness and flexibility at the same time of miniaturizing the electrodes (Boehler et al, 2017;Won et al, 2018;Leber et al, 2019), improving the electrical connectors (Koch et al, 2019), and in the biological field to increase biocompatibility of the substrates and to modulate the foreign body reaction (Lotti et al, 2017;De la Oliva et al, 2019).…”
Section: Electrode Failuresmentioning
confidence: 99%
“…Here, we used two different viral-based strategies to genetically target and image either pan-neuronal or excitatory neuron-biased populations as a first step toward imaging of more specific cell populations. Another limitation of electrophysiological approaches, is the relatively sparse spatial sampling density of today's commercially available multi-electrode arrays, typically having a minimum inter-electrode spacing of approximately 400 μm (Leber et al, 2019; but see Jun et al, 2017;Trautmann et al, 2019a for use of 20 μm spacing NeuroPixels in rhesus macaque). In contrast, cellular-resolution optical imaging enables much higher sampling densities, as evidenced by our study here where we were able to simultaneously record from more than 100 cells per session on average in the left hemisphere PMd (Figures 1-2), which equates to a sampling density of approximately 150 cells per mm 2 .…”
Section: Discussionmentioning
confidence: 99%
“…These pins are prone to irreparable damage caused by contact with headstage guide pins and other objects. Utilizing fully implanted systems would reduce the opportunity for external mechanical damage, but design challenges regarding power consumption, device size, and data transmission bandwidth must be resolved to successfully translate fully implantable technology for human BMI applications (Leber et al, 2019 ). Furthermore, implanted hardware in BMI systems are also at risk for traumatic damage.…”
Section: Mechanical Disruptionsmentioning
confidence: 99%
“…In contrast, invasive recording systems utilizing electrocorticography (ECoG) grids or microelectrode arrays (MEAs) provide a richer source of neural information. Penetrating cortical MEAs including microwire arrays (Nicolelis et al, 2003 ; Krüger et al, 2010 ; Schwarz et al, 2014 ; Obaid et al, 2020 ), Michigan-style arrays (Wise, 2005 ), and the Utah array ( Figure 1 ; Campbell et al, 1991 ; Leber et al, 2019 ) acquire neural activity with unparalleled signal resolution. MEAs can record single- and multi-unit neural activity correlated with the kinetics (Fagg et al, 2009 ) and kinematics (Vargas-Irwin et al, 2010 ; Aggarwal et al, 2013 ) of the arm during reaching and grasp (Downey et al, 2018b ).…”
Section: Introductionmentioning
confidence: 99%