Affiliation:
1. UNINOVA – Instituto de Desenvolvimento de Novas Tecnologias, Portugal
2. Tampere University of Technology, Finland
Abstract
Temporal, multimodal microscopy imaging of live cells is becoming widely used in studies of cellular processes. In general, temporal sequences of images with functional and morphological data from live cells are acquired using multiple image sensors. The images from the different sources usually differ in resolution and have non-coincident fields of view, making the merging process complex. We present a new tool – iCellFusion – that performs data fusion of images from Phase-Contrast Microscopy and Fluorescence Microscopy in order to correlate the information on cell morphology, lineage and functionality. Prior to image fusion, iCellFusion performs automatic or computer-aided cell segmentation and establishes cell lineages. We exemplify its usage on time-lapse, multimodal microscopy images of bacteria producing fluorescent spots. We expect iCellFusion to assist research in Cell and Molecular Biology and the healthcare sector, where live-cell imaging is an increasingly important technique to detect and study diseases at the cellular level.
Reference66 articles.
1. Principal component analysis
2. CURVELET FUSION OF MR AND CT IMAGES
3. Robust Cell Image Segmentation Methods;E.Bengtsson;Pattern Recognition and Image Analysis,2004
4. Use of Watersheds in Contour Detection.;S.Beucher;International Workshop on Image Processing: Real-time Edge and Motion Detection/Estimation,1979
5. A guided tour into subcellular colocalization analysis in light microscopy