Neuralynx, Inc. is organized around the development of electrophysiology data recording systems and solutions for neuroscience research, as well as for practical human medical data recording. The firm specializes in customizable hardware and software data acquisition research-application systems used to measure neural signals down to the individual nerve cell activity! Having invented a method for detecting, extracting and classifying Single Electrode and Stereo-Trode Spike Waveforms in software, as well as a low noise programmable amplifier, Neuralynx was formed to address development of data acquisition systems. Neuralynx's Cheetah system was the heart of the University of Arizona E100 experiment for the NASA NeuraLab Space Shuttle Mission which flew on Columbia in April, 1998. The rigorous space flight requirements dictated the design of a new, high performance, low power, compact system with extreme reliability. In 2011, Neuralynx released the FDA-cleared ATLAS Neurophysiology System for use in clinical environments for the identification and analysis of epileptic signals, allowing doctors to treat and research this debilitating disease. In 2015, Neuralynx released its revolutionary Cube-64, the only wireless multi-subject digital 64 channel acquisition system. By 2017, the firm's wireless technologies provided 16 to 256 configurable channels of wide bandwidth neural recording and real-time signal processing. Since its inception, Longtime users of Neuralynx systems in their research, May-Britt and Edvard Moser (Norway), were awarded the 2014 Nobel Prize in Medicine for their discovery of the brainâs spatial navigation system.
