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ISBI
2006
IEEE

Nonuniform temporal alignment of slice sequences for four-dimensional imaging of cyclically deforming embryonic structures

15 years 5 days ago
Nonuniform temporal alignment of slice sequences for four-dimensional imaging of cyclically deforming embryonic structures
The temporal alignment of nongated slice-sequences acquired at different axial positions in the living embryonic zebrafish heart permits the reconstruction of dynamic, three-dimensional data. This approach overcomes the current acquisition-speed limitation of confocal microscopes for real-time three-dimensional imaging of fast processes. Current synchronization methods align and uniformly scale the data in time, but do not compensate for slight variations in the heart rhythm that occur within a heartbeat. Therefore, they impose constraints on the admissible data quality. Here, we derive a nonuniform registration procedure based on the minimization of the absolute value of the intensity difference between adjacent slice-sequence pairs. The method compensates for temporal intra-sample variations and allows the processing of a wider range of data to build functional, dynamic models of the beating embryonic heart. We show reconstructions from data acquired in living, fluorescent zebrafish...
Michael Liebling, Julien Vermot, Arian S. Forouhar
Added 20 Nov 2009
Updated 20 Nov 2009
Type Conference
Year 2006
Where ISBI
Authors Michael Liebling, Julien Vermot, Arian S. Forouhar, Morteza Gharib, Mary E. Dickinson, Scott E. Fraser
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