Next-Gen Sequencing

Next generation sequencing allows for the identification of genetic variations that
cause various diseases or disorders like cancers. It is the backbone of personalized medicine, as it provides high specificity and sensitivity of genome isolation and enrichment. The use of NGS can unlock rapid forms of diagnosis, prognosis, and biomarker discoveries for diseases. Clinicians can receive improved point-of-care (POC) diagnostics and information about disease characteristics with automated molecular technologies such as NGS. 

TE designs, develops, and manufactures microfluidic technologies used in advanced DNA sequencing devices and platforms. Typical library preparation methods require large amounts of input DNA and complicated manual processes. Our microfluidic devices automate multiple steps in the assay process, from sample collection and preparation through to the final readout of the gene sequence. The result is improved throughput, cost-effectiveness, and automation over traditional sequencing, in addition to improved understanding of molecular properties and biology. Another benefit us that microfluidic devices allow for smaller volumes of samples and reagents, further reducing final costs.

TE provides end-to-end NGS solutions that automate, multiplex, and integrate with proprietary systems. Our chip designs are encapsulated entirely within the
device to speed output, lower costs, and minimize the potential for human error and contamination. For example, we can design microfluidic geometry that achieves the desired performance, flow conditions, and fluid properties while applying microfluidic droplet isolation techniques with PCR processes to increase target gene concentration. We also design microstructures and develop devices that can automate NGS workflows including template amplification, fragmentation, droplet generation, barcoding (unique tagging), PCR, and final read of the gene sequence.