Enhancement of the Temporal Resolution of Fluorescent Signals Acquired by the Confocal Microscope

Here, we describe a method of acquisition of fast fluorescent signals with the help of the laser scanning confocal microscope (LSCM). Our method permits an increase in the temporal resolution of acquired signals. The method is based on LSCM recordings of fast fluorescent signals with the shortest ac...

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Veröffentlicht in:	Microscopy and microanalysis 2020-04, Vol.26 (2), p.204-210
Hauptverfasser:	Arkhipov, Arsenii Y, Khaziev, Eduard F, Skorinkin, Andrey I, Bukharaeva, Ellya A, Samigullin, Dmitry V
Format:	Artikel
Sprache:	eng
Schlagworte:	Algorithms Calcium Cameras Convolution Dyes Electrical stimuli Fluorescence High speed cameras Laboratory animals Lasers Microscopes Microscopy Nerve endings Parameters Peripheral nerves Photodiodes Physiology Registration Temporal resolution
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container_title	Microscopy and microanalysis
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creator	Arkhipov, Arsenii Y Khaziev, Eduard F Skorinkin, Andrey I Bukharaeva, Ellya A Samigullin, Dmitry V
description	Here, we describe a method of acquisition of fast fluorescent signals with the help of the laser scanning confocal microscope (LSCM). Our method permits an increase in the temporal resolution of acquired signals. The method is based on LSCM recordings of fast fluorescent signals with the shortest achievable time sweep, which are performed with the help of a proprietary algorithm. A series of recordings is made in multiple steps; at each step, the fluorescent signal is incremented by a time interval smaller than the time sweep of the frame of LSCM. The size of the increment determines the achievable time resolution. The convolution of the recorded images results in a signal with the temporal resolution determined by the chosen time increment. This method was applied to register the change in fluorescence (calcium transient) of calcium dye preloaded into peripheral nerve endings by electrical stimulation of the motor nerve. Calculated parameters of the calcium transient were identical to the parameters obtained earlier with the help of a high-speed camera and photodiode. We conclude that the method described here can be applied for the registration of fast fluorescent signals by LSCM with a high spatial and temporal resolution.
doi_str_mv	10.1017/S1431927620000148
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subjects	Algorithms Calcium Cameras Convolution Dyes Electrical stimuli Fluorescence High speed cameras Laboratory animals Lasers Microscopes Microscopy Nerve endings Parameters Peripheral nerves Photodiodes Physiology Registration Temporal resolution
title	Enhancement of the Temporal Resolution of Fluorescent Signals Acquired by the Confocal Microscope
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