Command-line cellular electrophysiology for conventional and real-time closed-loop experiments

• We developed a new software toolbox for performing electrophysiology experiments.
• The toolbox is composed of a suite of applications, operated by the command-line.
• The toolbox allows to perform standard as well as closed-loop real-time experiments.
• Scripts allow integrating experiments with data analysis and computational modelling.
• We present cellular electrophysiology experiments to show the features of the system.

BackgroundCurrent software tools for electrophysiological experiments are limited in flexibility and rarely offer adequate support for advanced techniques such as dynamic clamp and hybrid experiments, which are therefore limited to laboratories with a significant expertise in neuroinformatics.New methodWe have developed lcg, a software suite based on a command-line interface (CLI) that allows performing both standard and advanced electrophysiological experiments. Stimulation protocols for classical voltage and current clamp experiments are defined by a concise and flexible meta description that allows representing complex waveforms as a piece-wise parametric decomposition of elementary sub-waveforms, abstracting the stimulation hardware. To perform complex experiments lcg provides a set of elementary building blocks that can be interconnected to yield a large variety of experimental paradigms.ResultsWe present various cellular electrophysiological experiments in which lcg has been employed, ranging from the automated application of current clamp protocols for characterizing basic electrophysiological properties of neurons, to dynamic clamp, response clamp, and hybrid experiments. We finally show how the scripting capabilities behind a CLI are suited for integrating experimental trials into complex workflows, where actual experiment, online data analysis and computational modeling seamlessly integrate.Comparison with existing methodsWe compare lcg with two open source toolboxes, RTXI and RELACS.ConclusionsWe believe that lcg will greatly contribute to the standardization and reproducibility of both simple and complex experiments. Additionally, on the long run the increased efficiency due to a CLI will prove a great benefit for the experimental community.