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Optical force-based sorting and orientation of biological objects

Project description

Motivation: In cell biology and biotechnology, optical tweezers are the first choice for optical manipulation such as sorting or orientation of biological objects, since they offer contactless, non-damaging, and flexible forces on a specimen. Especially for studies on signaling pathways within or between cells, a natural, three-dimensional confirmation is essential. Therefore, a high-resolution microscope is equipped with a powerful and flexible optical tweezers setup. Sorting of suspension cells: With an additional microfluidic chamber, very different kinds of suspension cells can be sorted by multiply criteria, which can be extracted from CCD camera images. These criteria, such as intensity of fluorescence signal and morphological properties like size or shape, can be evaluated and used for classification during a single run. Orientation of large cell clusters: For orientation of large cell clusters, strategies must be developed which result in a maximum of optical force (with limited laser power) on a complex, irregular object. Especially for movements perpendicular to the observation plane, suitable locations on the cluster must be identified and the efficiency of each optical trap at each location must be controlled online. A spatial light modulator (SLM) and a fast hologram calculation algorithm are used to position many optical traps in 3D.

Start/End of project

01.11.2007 until 31.10.2012

Project manager

Rohrbach A

Contact person

Rohrbach A
Phone:+49 761 2037534

Partners

Carl Zeiss MicroImaging GmbH, Jena

Funding

DFG
Benutzerspezifische Werkzeuge