With our modular approach, we prototype all units of our diagnostic device, and integrate them into a customizable platform. We use cell-free synthetic biology to distinguish between pathogens with our universal detection cascade.
Sensitive and Rapid
Robust and Universal
Portable and low-cost
Sample processing
We chose to combine heat lysis and isothermal amplification (RPA) to extract our target RNA from patient samples.
We used RPA to amplify DNA from heat lysed E. coli.
We conducted RPA and transcription from an in vitro DNA on paper.
We validated the three necessary modules of the sample processing (cell lysis, DNA amplification and transcription) with a rapid and sensitive method, RPA.
Readout circuit
We chose Cas13a for pathogen identification because of its specificity for nucleic acid sequence detection.
We characterized Cas13a and its detection limit with native and lyophilized protein, with
in vitro and in vivo sources of RNA, in bulk and on paper.
We created a detection chip that is portable, functional and affordable, for the distribution of our diagnosis device, CascAID.
To show the speed and usage simplicity of CascAID, we recorded the setup of our detection reaction on paper using Lightbringer to detect the fluorescence produced by the RNaseAlert system. In less than half an hour you can see the increase in fluorescence and determine if pathogens were present in the sample.