Abstract: The present invention relates to, inter alia, a microfluidic device for capturing target cells and analyzing genomic DNA isolated from the target cells while under flow conditions. The microfluidic device includes a cell microchannel and a nucleic acid microchannel that intersect in an orthogonal manner, thereby forming a cell capture intersection region. The microfluidic device also includes a cell capture array and a nucleic acid entanglement array. The cell capture array includes a plurality of cell capturing micropillars and is located in the cell capture intersection region. The nucleic acid entanglement array includes a plurality of nucleic acid entanglement micropillars that function to physically entangle and maintain thereon genomic DNA isolated from the one or more target cell, and is located in a portion of the nucleic acid microchannel that is adjacent to and downstream of the cell capture intersection region. Methods of using the microfluidic device are also disclosed.

Abstract: The present invention relates to, inter alia, a microfluidic device for capturing target cells and analyzing genomic DNA isolated from the target cells while under flow conditions. The microfluidic device includes a cell microchannel and a nucleic acid microchannel that intersect in an orthogonal manner, thereby forming a cell capture intersection region. The microfluidic device also includes a cell capture array and a nucleic acid entanglement array. The cell capture array includes a plurality of cell capturing micropillars and is located in the cell capture intersection region. The nucleic acid entanglement array includes a plurality of nucleic acid entanglement micropillars that function to physically entangle and maintain thereon genomic DNA isolated from the one or more target cell, and is located in a portion of the nucleic acid microchannel that is adjacent to and downstream of the cell capture intersection region. Methods of using the microfluidic device are also disclosed.

Abstract: The present invention relates to, inter alia, a microfluidic device for capturing target cells and analyzing genomic DNA isolated from the target cells while under flow conditions. The microfluidic device includes a cell microchannel and a nucleic acid microchannel that intersect in an orthogonal manner, thereby forming a cell capture intersection region. The microfluidic device also includes a cell capture array and a nucleic acid entanglement array. The cell capture array includes a plurality of cell capturing micropillars and is located in the cell capture intersection region. The nucleic acid entanglement array includes a plurality of nucleic acid entanglement micropillars that function to physically entangle and maintain thereon genomic DNA isolated from the one or more target cell, and is located in a portion of the nucleic acid microchannel that is adjacent to and downstream of the cell capture intersection region. Methods of using the microfluidic device are also disclosed.