cell-BOCS: Bio-Optofluidics Cell Sorter

Publication: Research - peer-reviewConference abstract for conference – Annual report year: 2012

Standard

cell-BOCS: Bio-Optofluidics Cell Sorter. / Glückstad, Jesper; Palima, Darwin; Bañas, Andrew Rafael; Pedersen, Finn.

2012. Abstract from Focus on Microscopy, FOM 2012, Singapore, Indonesia.

Publication: Research - peer-reviewConference abstract for conference – Annual report year: 2012

Harvard

Glückstad, J, Palima, D, Bañas, AR & Pedersen, F 2012, 'cell-BOCS: Bio-Optofluidics Cell Sorter' Focus on Microscopy, FOM 2012, Singapore, Indonesia, 01/04/12 - 04/04/12,

APA

Glückstad, J., Palima, D., Bañas, A. R., & Pedersen, F. (2012). cell-BOCS: Bio-Optofluidics Cell Sorter. Abstract from Focus on Microscopy, FOM 2012, Singapore, Indonesia.

CBE

Glückstad J, Palima D, Bañas AR, Pedersen F. 2012. cell-BOCS: Bio-Optofluidics Cell Sorter. Abstract from Focus on Microscopy, FOM 2012, Singapore, Indonesia.

MLA

Vancouver

Glückstad J, Palima D, Bañas AR, Pedersen F. cell-BOCS: Bio-Optofluidics Cell Sorter. 2012. Abstract from Focus on Microscopy, FOM 2012, Singapore, Indonesia.

Author

Glückstad, Jesper; Palima, Darwin; Bañas, Andrew Rafael; Pedersen, Finn / cell-BOCS: Bio-Optofluidics Cell Sorter.

2012. Abstract from Focus on Microscopy, FOM 2012, Singapore, Indonesia.

Publication: Research - peer-reviewConference abstract for conference – Annual report year: 2012

Bibtex

@misc{730fc391e7d04b01a13a4c40eb1e018e,
title = "cell-BOCS: Bio-Optofluidics Cell Sorter",
author = "Jesper Glückstad and Darwin Palima and Bañas, {Andrew Rafael} and Finn Pedersen",
year = "2012",
type = "ConferencePaper <importModel: ConferenceImportModel>",

}

RIS

TY - ABST

T1 - cell-BOCS: Bio-Optofluidics Cell Sorter

A1 - Glückstad,Jesper

A1 - Palima,Darwin

A1 - Bañas,Andrew Rafael

A1 - Pedersen,Finn

AU - Glückstad,Jesper

AU - Palima,Darwin

AU - Bañas,Andrew Rafael

AU - Pedersen,Finn

PY - 2012

Y1 - 2012

N2 - Within the framework of the recent DTU spin-out activity OptoRobotix we are developing an active cell sorter [1] that utilizes parallel microscopic machine vision for cell identification. Particles are identified based on visual features such as shape, size and color using image processing. The sorter shares features from our previously developed BioPhotonics Workstation [2, 3]. Hence, it benefits from the extended axial manipulation range provided by the low numerical aperture geometry. Detected particles are catapulted axially by several<br/>hundred microns – all with full parallelism over a large field of view, allowing them to be displaed from one laminar flow region to another. As the sorting motion is transverse to the viewing plane, multiple particles can be catapulted at the same time, therefore enabling a fully parallel sorting process [4, 5]. The cell-BOCS is developed with small footprint such that it can operate as a table top device, a significant advantage over flow cytometry or FACS systems.

AB - Within the framework of the recent DTU spin-out activity OptoRobotix we are developing an active cell sorter [1] that utilizes parallel microscopic machine vision for cell identification. Particles are identified based on visual features such as shape, size and color using image processing. The sorter shares features from our previously developed BioPhotonics Workstation [2, 3]. Hence, it benefits from the extended axial manipulation range provided by the low numerical aperture geometry. Detected particles are catapulted axially by several<br/>hundred microns – all with full parallelism over a large field of view, allowing them to be displaed from one laminar flow region to another. As the sorting motion is transverse to the viewing plane, multiple particles can be catapulted at the same time, therefore enabling a fully parallel sorting process [4, 5]. The cell-BOCS is developed with small footprint such that it can operate as a table top device, a significant advantage over flow cytometry or FACS systems.

UR - http://www.focusonmicroscopy.org/2012/

ER -