This paper describes a telemetric interactive intracortical microstimulation (ICMS) and simultaneous recording device developed to deliver chronic microstimulation to the ipsilateral cortex and monitor evoked responses from the contralateral cortex. The embedded device was developed utilizing a Programmable System on a Chip (PSoC) microcontroller that can be remotely configured through Bluetooth. This device, with dimensions of 42 mm × 71 mm, can deliver monophasic, biphasic or pseudophasic stimulation pulses (peak current: ≤ 100 μA, duration: ≤ 10 ms, delay: ≤ 40 ms, repetition rate: 0.5 to 1 Hz) to a physiologically identified site in primary somatosensory cortex (SI) and record single and multiunit responses within 367 to 6470 Hz from a ...
The fundamental obstacle to neuroprostheses based on penetrating microstimulation is the tissue’s re...
Advances in neural recording technologies and electrophysiological techniques have spawned new oppor...
A new type of chip based microelectrode for acute electrophysiological recordings in the CNS has bee...
We describe for the first time the design, implementation, and testing of a telemetry controlled sim...
This paper presents a portable, embedded, microcontroller-based system for bidirectional communicati...
This paper presents long-term stable multichannel recording of neural activity using novel intracort...
This paper reports on the design, development, and test of a multi-channel wireless micro-electrocor...
In this paper a system for neural recording and stimulation is presented. The device is composed of...
Intracortical microstimulation (ICMS) is one of the most widely employed techniques for providing ca...
Recording and manipulating neuronal ensemble activity is a key requirement in advanced neuromodulato...
This project deals with the development of a multichannel implantable microstimulator that is capabl...
Electrical stimulation of nervous tissue has been extensively used as both a tool in experimental ne...
A portable 16-channels microcontroller-based wireless system for a bi-directional interaction with t...
Brain-controlled prostheses have the potential to improve the quality of life of a large number of p...
Electrical stimulation in the central nervous system is a valuable technique for studying neural sys...
The fundamental obstacle to neuroprostheses based on penetrating microstimulation is the tissue’s re...
Advances in neural recording technologies and electrophysiological techniques have spawned new oppor...
A new type of chip based microelectrode for acute electrophysiological recordings in the CNS has bee...
We describe for the first time the design, implementation, and testing of a telemetry controlled sim...
This paper presents a portable, embedded, microcontroller-based system for bidirectional communicati...
This paper presents long-term stable multichannel recording of neural activity using novel intracort...
This paper reports on the design, development, and test of a multi-channel wireless micro-electrocor...
In this paper a system for neural recording and stimulation is presented. The device is composed of...
Intracortical microstimulation (ICMS) is one of the most widely employed techniques for providing ca...
Recording and manipulating neuronal ensemble activity is a key requirement in advanced neuromodulato...
This project deals with the development of a multichannel implantable microstimulator that is capabl...
Electrical stimulation of nervous tissue has been extensively used as both a tool in experimental ne...
A portable 16-channels microcontroller-based wireless system for a bi-directional interaction with t...
Brain-controlled prostheses have the potential to improve the quality of life of a large number of p...
Electrical stimulation in the central nervous system is a valuable technique for studying neural sys...
The fundamental obstacle to neuroprostheses based on penetrating microstimulation is the tissue’s re...
Advances in neural recording technologies and electrophysiological techniques have spawned new oppor...
A new type of chip based microelectrode for acute electrophysiological recordings in the CNS has bee...