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Image Analysis, Environmental Control and Experiment Handling via Mobile Devices for Life Science Research

By LabMedica International staff writers
Posted on 23 Jun 2014
Using a novel software platform designed for advanced life-science research in wide-field and confocal microscopy, advanced fluorescence (AF) researchers can now perform two-dimensional (2D) image analysis on multichannel experiments and completely control the environmental conditions of an experiment. Furthermore, users of wide-field systems can now connect to the acquisition station remotely anywhere at any time.

Leica Microsystems (Wetzlar, Germany) has launched the Leica Application Suite Advanced fluorescence (LAS AF), software platform in its 4.0 version. A workflow guides users step by step through the 2D image analysis from applying filters, thresholding, and binary image processing, to measurements and classification. Findings are obtained simply, rapidly, and reproducibly, even with multidimensional data sets. Each analysis step offers a set of tools that researchers can choose according to the analysis requirements. The image viewer provides immediate feedback on the applied settings. Analysis workflows can be saved as user-defined protocols and applied to further data sets at a later time. The analysis results can be saved with the experiment or exported as Excel reports together with histograms and images of intermediate steps for documentation or further analysis. For statistical purposes users can analyze several data sets of experiments in one run by simply adding the data to a batch list.

Image: Leica Application Suite Advanced fluorescence (LAS AF) 4.0 is a software platform for advanced life science research in wide-field and confocal microscopy. The image shows the 2D Analysis Module used to count nuclei automatically (Photo courtesy of Leica Microsystems).
Image: Leica Application Suite Advanced fluorescence (LAS AF) 4.0 is a software platform for advanced life science research in wide-field and confocal microscopy. The image shows the 2D Analysis Module used to count nuclei automatically (Photo courtesy of Leica Microsystems).

Samples with several fluorescent markers can be completely analyzed in one run by using separate analysis channels for different markers. Optionally, objects identified in different acquisition channels can be correlated, for example to count the number of DNA strand breaks per nucleus. 2D analysis can also be applied to color images, i.e., to determine the number of healthy cells in one analysis channel versus the number of abnormal cells in another analysis channel.

Knowledge of all environmental parameters is vital for researchers. The correct environmental conditions help minimize experiment failures and enable researchers to fully assess their results. With the Environmental Control module in LAS AF 4.0 users can monitor temperature, CO2 and O2 conditions at all times. They can also predefine changes of these environmental parameters during an experiment and even let the system wait until a specified temperature is reached before starting. The range control either displays a warning if user-defined limits are exceeded or, alternatively, it stops the whole experiment. All environmental parameter controls are combined in one user-interface, making it easy to keep track. In combination with the LAS AF Live Data Mode module, acquisition macros can be defined to run temperature profiles – for example to perform heat shock experiments.

On wide-field systems, the LAS AF Mobile Connection module enables researchers to stay connected to and interact with their experiments 24 hours a day, seven days a week—without the need to stay close to the imaging system. Users can remotely start, stop, or pause their experiments, capture images to identify the best time to start an experiment or display an image at a conference that has been taken seconds ago during a running experiment.

Mobile Connection works via web client or mobile device. As several users can be connected with the microscope system at the same time, they can also interact with each other, exchanging messages to discuss the most recent developments of a live experiment.

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