With the availability of new confocal laser scanning microscopes, fast biological processes, such as the blood flow in living organisms at early stages of the embryonic development, can be observed with unprecedented time resolution. When the object under study has a periodic motion, e.g. a beating embryonic heart, the imaging capabilities can be extended to retrieve 4D data. We acquire nongated slice-sequences at increasing depth and retrospectively synchronize them to build dynamic 3D

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... Here, we present a synchronization procedure based on the temporal correlation of wavelet features. The method is designed to handle large data sets and to minimize the influence of artifacts that are frequent in fluorescence imaging techniques such as bleaching, nonuniform contrast, and photon-related noise.