Characterization of autoimmune inflammation induced prostate stem cell expansion.

Background: The presence of inflammation in prostate cancer (PCa) and benign prostate hyperplasia (BPH) has been well described but the cellular mechanisms by which inflammation modulates the prostate are currently unclear. Prostate stem cells (PSC) not only maintain prostate homeostasis but also are considered to be the cell of origin of PCa and an important contributor to BPH. However, the impact of inflammation on PSC is not well understood.

Concurrent Detection of Cellular and Molecular Cancer Markers Using an Immunomagnetic Flow System.

We report a detection system for simultaneous measurement of cellular and molecular markers of cancer. Magnetic beads conjugated with antibodies against a specific antigen are used to capture both free molecules and whole cells overexpressing the antigen. The target-bound beads then flow through a microfluidic chamber where they are drawn to a glass surface by an external magnetic field.

Circulating tumor cell detection using a parallel flow micro-aperture chip system.

We report on-chip isolation and detection of circulating tumor cells (CTCs) from blood samples using a system that integrates a microchip with immunomagnetics, high-throughput fluidics and size-based filtration. CTCs in a sample are targeted via their surface antigens using magnetic beads functionalized with antibodies. The mixture is then run through a fluidic chamber that contains a micro-fabricated chip with arrays of 8 μm diameter apertures.

On-demand weighing of single dry biological particles over a 5-order-of-magnitude dynamic range.

We report a simple and highly versatile system to select and weigh individual dry biological particles. The system is composed of a microtweezer to pick and place individual particles and a cantilever-based resonator to weigh them. The system can weigh entities that vary from a red blood cell (~10(-11) g) to the eye-brain complex of an insect (~10(-6) g), covering a 5-order-of-magnitude mass range.

A humidity-sensitive hydrogel-Bacillus spore composite for micropatterning of biomolecular gradients.

A composite material consisting of Bacillus subtilis spores suspended in a humidity sensitive hydrogel can be used to pattern biomolecules in different concentrations directly onto glass surfaces using a mechanical micromanipulator. By altering the relative humidity surrounding the composite gel during deposition, surface concentration of patterned biomolecules can be controlled and varied to create user-defined, biomolecular surface concentrations.