Tell us how we can help you with your quest
Pass us the cell lines and whatever drugs you wanna test and we will give you 3D killing and migration data, flow phenotype, nanostring data, luminex etc. Discuss with us!
But do analysis yourself
Pitch to us the idea you have and together we can make it work!
Techniques that we have developed in our cancer-fighting quest.
PRE-IN VIVO VALIDATION
A large number of experimental therapeutics can be validated in a 3D microenvironment. This mimics the human body more accurately compared to various 2D assays. Our platform enables you to test the efficiency of your therapy (??) before moving on to in vivo animal testing. This allows for higher success rate of pushing drugs into clinical trials at a lower cost.
HIGH THROUGHPUT CONFOCAL MICROSCOPY
We have developed a powerful tool for use in the identification and characterization of the processes in our model system. Major advantages of this development are its improved sensitivity, which allows it to detect subtle dynamic property changes in response to our experiments, and a significant reduction in the time required for the assay, thus greatly improving efficiency.
Flow cytometry is an effective tool to phenotype cells based on their cellular surface markers or secreted proteins. It also allows us to isolate targets of interest in order to conduct further in-depth studies on the specific cell population.
PROTOTYPE DESIGN AND ENGINEERING
We adopt various 3D design software and bench-top machinery to fabricate and validate prototypes in the lab in a cost-effective manner with the ambition of commercializing end products.
MOLECULAR TECHNIQUES (remove??)
Various techniques are employed to study in-depth the effects of experimental treatments on the molecular level such as qPCR, RNA Sequencing, nanoString Technologies, Western Blot, and Functional Proteomics Mass Spectrometry.