@CONFERENCE\{IMM2014-06844,
    author       = "P. Wantiya and R. Burger and T. S. Alstr{\o}m and M. Donolato and M. F. Miniotis and M. F. Hansen and A. G. Wingren and A. Boisen",
    title        = "Imaging based agglutination measurement of magnetic micro-particles on a Lab-on-a-Disc platform",
    year         = "2014",
    pages        = "1419-1421",
    booktitle    = "Proceedings of the 18th International Conference on Miniaturized Systems for Chemistry and Life Sciences",
    volume       = "",
    series       = "",
    editor       = "",
    publisher    = "",
    organization = "",
    address      = "",
    note         = "http://orbit.dtu.dk/en/publications/imaging-based-agglutination-measurement-of-magnetic-microparticles-on-a-labonadisc-platform\%287f799a78-f927-486d-a1c7-8ed883ac45a8\%29-full.html",
    url          = "http://www2.compute.dtu.dk/pubdb/pubs/6844-full.html",
    abstract     = "In this work we present a magnetic micro beads based agglutination assay on a centrifugal microfluidic platform. An imaging based method is used to quantify bead agglutination and measure the concentration of analyte in solution.

Low-cost and fast point-of-care (POC) testing has been of central interest in the last decade, both in the microfluidics research community as well as for industry. Among the large range of microfluidic platforms available (e.g. pressure driven, electroosmotic or capillary driven), the centrifugal platform is one of the most suitable ones for {POC} testing due to its robust working principle, low complexity and straight-forward separation of cells.

In summary we demonstrate two agglutination based assays on a centrifugal platform which are read out using an imaging based technology. Currently work is focused on optimizing the {CRP} assay and integrating sample treatment on disc to perform {CRP} detection in blood."
}