Analysis of Ca2+ waves dynamics with ImageJ

Hello everyone,
I have an image time series from an LSM800 confocal microscope in .czi format. I image Ca2+ signal in cells with long processes. My task is to see the direction and the velocity of the Ca2+ wave movement over the distance of the cell process over time. Is there some way ImageJ can help me to do it? So far I only know how to import a .czi file in ImageJ and see the mean fluorescence in a ROI over time, but no idea how to track the movement of the fluorescent signal.
Thank you in advance, Olfa

Hi Olga,

two possible ways (I assume you have stack files):
1- if you have clear the path which speed you want to calculate, simply mark two ROIs, plot their Ca2+ traces and calculate the time needed for the signal to reach a given threshold (50 of maximal response is typical, but I prefer the real initiation of the local (ROI) response -for example the response point reaching x2 standard deviation of preceding resting trace-). You divide space/time and that´s all.

2- you can also draw a line or polyline and use Stack--Reslice along the pathway you want to investigate. You´ll get a kymograph (Y will be time and X will be space) and each horizontal line is the fluorescence along the path -the line you drew- for each frame  -each time point- of your stack. Response will show as gradients ane slope would be speed.

Hope this helps

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Hi Pedro,
Thank you so much for your help! The first method is very easy to understand. I also tried to do the kymograph, but I have some concerns. I do not have only one wave travelling along the process during the recording, it looks there are 2-3 waves per recording time (see attached), in the kymograph won't they just overlay on each other? How can I be sure some fluorescence point in space and time still reflects the propagation of the first wave and not initiation of the second wave?