Estimating the correlation between bursty spike trains and local field potentials |
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| Institution: | 1. Department of Neurology, Jinling Hospital, Southern Medical University, Nanjing 210002, Jiangsu, China;2. Department of Neurology, Jinling Hospital, Medical School of Nanjing University, Nanjing 210002, Jiangsu, China;3. Department of Neurology, The First People''s Hospital of Changzhou, Changzhou 213000, Jiangsu, China;4. Melbourne Brain Centre, Royal Melbourne Hospital, University of Melbourne, Melbourne, Australia |
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| Abstract: | To further understand rhythmic neuronal synchronization, an increasingly useful method is to determine the relationship between the spiking activity of individual neurons and the local field potentials (LFPs) of neural ensembles. Spike field coherence (SFC) is a widely used method for measuring the synchronization between spike trains and LFPs. However, due to the strong dependency of SFC on the burst index, it is not suitable for analyzing the relationship between bursty spike trains and LFPs, particularly in high frequency bands. To address this issue, we developed a method called weighted spike field correlation (WSFC), which uses the first spike in each burst multiple times to estimate the relationship. In the calculation, the number of times that the first spike is used is equal to the spike count per burst. The performance of this method was demonstrated using simulated bursty spike trains and LFPs, which comprised sinusoids with different frequencies, amplitudes, and phases. This method was also used to estimate the correlation between pyramidal cells in the hippocampus and gamma oscillations in rats performing behaviors. Analyses using simulated and real data demonstrated that the WSFC method is a promising measure for estimating the correlation between bursty spike trains and high frequency LFPs. |
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| Keywords: | Burst Correlation Local field potential Phase locking Spike train |
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