This paper introduces improved techniques for multichannel extracellular electrophysiological recordings of neurons distributed across a single layer of topographically mapped cortex. We describe the electrode array, the surgical implant techniques, and the procedures for data collection and analysis. Neural events are acquired through an array of 25 or 100 microelectrodes with a 400-μm inter-electrode spacing. One advantage of the new methodology is that implantation is achieved through transdural penetration, thereby reducing the disruption of the cortical tissue. The overall cortical territory sampled by the 25-electrode array is 1.6x1.6 mm (2.56 mm2) and by the 100-electrode array 3.6x3.6 mm (12.96 mm2). Using a recording system with 10...
Current implantable brain devices for clinical and research applications require that each electrode...
Simultaneous recording of optical and electrophysiological signals from multiple cortical areas may ...
Neural devices have great potential to improve the treatment of neuropsychiatric, sensorimotor, and ...
This paper introduces improved techniques for multichannel extracellular electrophysiological record...
Large circuits of neurons are employed by the brain to encode and process information. How this enco...
The cortex is spontaneously active, even in the absence of any particular input or motor output. Dur...
Abstract In neuroscience, single-shank penetrating multi-electrode arrays are standard for sequentia...
Thesis: Ph. D., Massachusetts Institute of Technology, School of Architecture and Planning, Program ...
Deciphering the neural basis of brain function will require a significant departure from the reducti...
Penetrating neural probe technologies provide researchers with the capability to stimulate and recor...
The application of multi-channel recording electrodes is expanding rapidly, as neuroscientists seek ...
This paper describes the design, microfabrication, electrical characterization and biological evalua...
Our understanding of the large-scale population dynamics of neural activity is limited, in part, by ...
Advances in microelectrode neural recording systems have made it possible to record extracellular ac...
Objective: Electrocorticography grids have been used to study and diagnose neural pathophysiology fo...
Current implantable brain devices for clinical and research applications require that each electrode...
Simultaneous recording of optical and electrophysiological signals from multiple cortical areas may ...
Neural devices have great potential to improve the treatment of neuropsychiatric, sensorimotor, and ...
This paper introduces improved techniques for multichannel extracellular electrophysiological record...
Large circuits of neurons are employed by the brain to encode and process information. How this enco...
The cortex is spontaneously active, even in the absence of any particular input or motor output. Dur...
Abstract In neuroscience, single-shank penetrating multi-electrode arrays are standard for sequentia...
Thesis: Ph. D., Massachusetts Institute of Technology, School of Architecture and Planning, Program ...
Deciphering the neural basis of brain function will require a significant departure from the reducti...
Penetrating neural probe technologies provide researchers with the capability to stimulate and recor...
The application of multi-channel recording electrodes is expanding rapidly, as neuroscientists seek ...
This paper describes the design, microfabrication, electrical characterization and biological evalua...
Our understanding of the large-scale population dynamics of neural activity is limited, in part, by ...
Advances in microelectrode neural recording systems have made it possible to record extracellular ac...
Objective: Electrocorticography grids have been used to study and diagnose neural pathophysiology fo...
Current implantable brain devices for clinical and research applications require that each electrode...
Simultaneous recording of optical and electrophysiological signals from multiple cortical areas may ...
Neural devices have great potential to improve the treatment of neuropsychiatric, sensorimotor, and ...