Detection of spontaneous synaptic events with an optimally scaled template

Spontaneous synaptic events can be difficult to detect when their amplitudes are close to the background noise level. Here we report a sensitive new technique for automatic detection of small asynchronous events. A waveform with the time course of a typical synaptic event (a template) is slid along...

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Bibliographic Details
Published in:Biophysical journal 1997-07, Vol.73 (1), p.220-229
Main Authors: Clements, J.D., Bekkers, J.M.
Format: Article
Language:English
Subjects:
Animals
Computer Simulation
Dentate Gyrus - physiology
Electric Stimulation
Evoked Potentials - physiology
Hippocampus - physiology
In Vitro Techniques
Models, Neurological
Rats
Rats, Wistar
Software
Synapses - physiology
Synaptic Transmission - physiology
Time Factors
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Summary:Spontaneous synaptic events can be difficult to detect when their amplitudes are close to the background noise level. Here we report a sensitive new technique for automatic detection of small asynchronous events. A waveform with the time course of a typical synaptic event (a template) is slid along the current or voltage trace and optimally scaled to fit the data at each position. A detection criterion is calculated based on the optimum scaling factor and the quality of the fit. An event is detected when this criterion crosses a threshold level. The algorithm automatically compensates for changes in recording noise. The sensitivity and selectivity of the method were tested using real and simulated data, and the influence of the template parameter settings was investigated. Its performance was comparable to that obtained by visual event detection, and it was more sensitive than previously described threshold detection techniques. Under typical recording conditions, all fast synaptic events with amplitudes of at least three times the noise standard deviation (3 sigma) could be detected, as could 75% of events with amplitudes of 2 sigma. The scaled template technique is implemented within a commercial data analysis application and can be applied to many standard electrophysiological data file formats.
ISSN:0006-3495
1542-0086
DOI:10.1016/S0006-3495(97)78062-7