Topic: COMMUNITY INTEREST
The device consists of three tiny molded channels through which cells flow and can be cultivated for at least three weeks in culture. Cell survival in existing microfluidic systems is measured on the order of days, preventing observations of cancer cell change with time.
In the new system, cells appear as a thin milky line in a chamber that’s smaller than a pillbox. They are actually suspended in three dimensions, unlike typical fluidic devices that capture cells in two dimensions. Researchers can feed cancer cells into the device with very minimal disturbance or change to the cells.
Cells are fed into one channel while fluid flows through a parallel channel to provide pressure and flow without disturbing the culture. The flow of fluid through the outer channel mimics what happens with the body’s capillaries. In testing two lines of metastatic prostate cancer cells, researchers successfully isolated leader cells that induce metastasis.
After two weeks, cells from one line were observed to be twice as invasive as the other cell line. That difference disappeared by three weeks, suggesting that the invasive potential of cells may change over time.
By determining differences in the molecular signature between cells that invade and those that don’t, researchers could target the molecular underpinning with therapies to prevent cancer from invading—essentially keeping the cancer confined and preventing metastasis.
The microfluidic device will next be used to analyze triple-negative breast cancer, a particularly aggressive form of the disease. Once the leader cells are identified, the team will begin looking at whether these cells have different genetic or molecular markers than the less-aggressive cells.