Sentences with phrase «microfluidic technology»

With his Pioneer Award, Ismagilov will develop droplet - based microfluidic technologies for quantitative studies of protein aggregation diseases and aging at the molecular level and in entire organisms.

His lab has pioneered the use of microfluidics technology and high - throughput sequencing to accelerate the process of directed evolution.

Personalised medicine and drug development based on maximising screening of limited human cancerous tissue in 3D with microfluidic technology

In order to achieve this, his group utilizes microfluidics technology such that multiple biophysical and biochemical processes can be integrated into a single disposable device which can operate at the point - of - care.

«Microbiologists have rarely taken into account fluid flow as an ecological parameter, whereas physicists have just recently started to pay attention to microbes,» he says, adding: «The ability to directly watch microbes under the controlled flow conditions afforded by microfluidic technology — which is only about 15 years old — has made all the difference in allowing us to discover and understand this effect of flow on microbes.»

There are alternatives to centrifugation such as microfluidic technology, which has been widely studied for various applications in biological and chemical analysis, point - of - care testing and diagnostics, and clinical analysis.

«Microfluidic technology reveals potential biomarker for early pancreatic cancer.»

According to a new study, published in Lab on a Chip, enzyme properties in various conditions can now be studied in multiple parallel reactions using droplet microfluidic technology.

He specializes in microfluidic technology — the flow of fluids through channels thinner than a human hair — to understand and control complex chemical and biological systems at critical times and locations.

In parallel studies at a broader level, he will develop microfluidic technology to precisely induce and monitor protein aggregation in living cells and organisms over time.

The Fluidigm C1 ™ Single - Cell Auto Prep system employs microfluidic technology to isolate, process and prepare individual cells for downstream analysis.

The device is a unique example of microfluidics technology, sometimes called a lab - on - a-chip, that pushes water around in microscopic tubes and reservoirs made from the same cellophanelike plastic as soft contact lenses.

The microfluidic technology, developed in the lab of professor Mark Hayes in the Department of Chemistry and Biochemistry at Arizona State University, uses microscale electric field gradients, acting on extremely small samples, to tell the difference between the two strains (antibiotic - resistant and antibiotic - susceptible) of Staphylococcus epidermidis.

Said Tiffani Lash, Ph.D., director of the NIBIB program in Microfluidic Bioanalytical Systems, «It is exciting to see the continued growth of microfluidic technologies being used as miniaturized diagnostic platforms, particularly in this case for reducing the incidence of preterm labor and delivery.

That's what a researcher at Florida Atlantic University is aiming to do with his microfluidic technology for reproductive medicine.

The device, which combines acoustic cell - sorting and microfluidic technologies, could be a boon to both scientific research and medical applications.

A microfluidic technology was developed and used to probe epigenomic differences between prefrontal cortex and cerebellum.

The technology could also have applications in flexible electronics, washable sensors in textiles, microfluidic technologies, drag reduction, de-icing, electrochemical sensors and technology that uses graphene structures and electrical simulation to produce stem cells for nerve regeneration.

As Fluidigm IP counsel she supports the mass cytometry and microfluidics technologies.