Quantitative lateral flow assay

Digital MicroFluidics

Magnetophoresis

Spiral Microfluidics

Quantitative estimation of the results of immunochromatographic tests can substantially enhance
the efficiency of their use in human and veterinary medicine, biosafety, consumer protection, and
ecological monitoring. Actually, a row of portable detectors has been developed and implemented
with the corresponding software for different kinds of immunochromatographic tests, including
assays with optical, magnetic, and electrically conductive labels. 

Following the development of microfluidic systems, there has been a high tendency towards developing lab-on-a-chip devices for biochemical applications. A great deal of effort has been devoted to improve and advance these devices with the goal of performing complete sets of biochemical assays on the device and possibly developing portable platforms for point of care applications. 

Magnetophoresis utilize non-uniform magnetic field for manipulation of microparticles and cells.
​​​​​​​It is a technique with little heat generation. Moreover, there is little limitation on the choice of device
construction material as magnetic fields can penetrate most materials of choice for fabricating
microfluidic devices such as glass and polymers.

Inertial microfluidic systems have been arousing interest in medical applications due to their simple and cost-efficient use. However, comparably small sample volumes in the microliter and milliliter ranges have so far prevented efficient applications in continuous bioprocesses. 

Cell counting image processing and recognition​​​​​​​

Cell counting image processing and recognition is a technique that involves the use of specialized software to analyze images of cell samples and count the number of cells in the image. This method is faster and less labor-intensive than manual cell counting, and it can provide more accurate results