A compact lensless microscope comprising a custom-made LED engine and a CMOS imaging sensor has been developed for live-cell culture imaging inside a cell incubator environment. The imaging technique is based on digital inline-holographic microscopy, while the image reconstruction is carried out by angular spectrum approach with a custom written software. The system was tested with various biological samples including immortalized mouse astrocyte cells inside a petri dish. Besides the imaging possibility, the capability of automated cell counting and tracking could be demonstrated. By using image sensors capable of video frame rate, time series of cell movement can be captured
International audienceCell concentration and cell vitality are key parameters to be monitored during...
Control of cultivation conditions in the~live cell imaging extends the possibilities of biological e...
Quantitative cell motility studies are necessary for understanding biophysical processes, developing...
Continuous cell culture monitoring as a way of investigating growth, proliferation, and kinetics of ...
Compact live-cell monitoring devices offering both in-situ and real-time imaging measurements have b...
Lens free inline holographic microscopy was shown to be a potent approach for many applications rely...
Cell culture in-vitro is a well-known method to develop cell and disease models for studying physiol...
AbstractTime-resolved visualization and analysis of slow dynamic processes in living cells has revol...
Multi-day tracking of cells in culture systems can provide valuable information in bioscience experi...
Lab-on-a-chip systems are increasingly applied in cell-based assays for toxicology and drug testing....
Using a digital holographic microscope setup, it is possible to measure dynamic volume changes in li...
Lensless holographic microscopy shows high potential to be a practical point of care diagnostic tool...
Conventional optical microscopes image cells by use of objective lenses that work together with othe...
Digital holography is a novel technique that has been developed recently to study living cells. The ...
During suspension cell cultures in bioreactors, traditional measure for cell count and cell viabilit...
International audienceCell concentration and cell vitality are key parameters to be monitored during...
Control of cultivation conditions in the~live cell imaging extends the possibilities of biological e...
Quantitative cell motility studies are necessary for understanding biophysical processes, developing...
Continuous cell culture monitoring as a way of investigating growth, proliferation, and kinetics of ...
Compact live-cell monitoring devices offering both in-situ and real-time imaging measurements have b...
Lens free inline holographic microscopy was shown to be a potent approach for many applications rely...
Cell culture in-vitro is a well-known method to develop cell and disease models for studying physiol...
AbstractTime-resolved visualization and analysis of slow dynamic processes in living cells has revol...
Multi-day tracking of cells in culture systems can provide valuable information in bioscience experi...
Lab-on-a-chip systems are increasingly applied in cell-based assays for toxicology and drug testing....
Using a digital holographic microscope setup, it is possible to measure dynamic volume changes in li...
Lensless holographic microscopy shows high potential to be a practical point of care diagnostic tool...
Conventional optical microscopes image cells by use of objective lenses that work together with othe...
Digital holography is a novel technique that has been developed recently to study living cells. The ...
During suspension cell cultures in bioreactors, traditional measure for cell count and cell viabilit...
International audienceCell concentration and cell vitality are key parameters to be monitored during...
Control of cultivation conditions in the~live cell imaging extends the possibilities of biological e...
Quantitative cell motility studies are necessary for understanding biophysical processes, developing...