Single cell analysis is the present and future of biological research. It's be-
coming clear that sub-populations of cells within a larger group can often be
the culprit for diseases or malfunctions. In this work we aim to provide a tool
that allows biological researchers to better analyze single cells within cell pop-
ulations by removing the barrier to observing analytes contained within the
cell's membrane. By providing physical access to the intracellular compounds
in a single cell, we can analyze individual cells for levels of analytes that were
previously only available through bulk measurements of a lysed cell popula-
tion. The technique is similar to flow cytometry, but we will use droplets as a
physical analog to cells in a flow cytometer-type configuration. This distinc-
tion allows for lysis of a single cell within a droplet and prevents diffusion of
internal components outside of the droplet's barrier. Analysis of analyte lev-
els is accomplished with fluorescence labeling and laser based querying of the
fluorescence concentration. This work is accomplished through use of a plastic
microfluidic network.