MANILA – As the Philippines hopes to transition from the coronavirus disease 2019 (Covid-19)-induced community quarantine to the new normal, it is imperative that targeted mass testing is in place to contain further spread of the SARS-CoV2 virus.
While national and local efforts to source diagnostic kits have been successful, there is an imminent testing bottleneck in the country due to the lack of capable of polymerase chain reaction (PCR) instruments on which to run these specialized kits.
Recognizing this problem, the Department of Science and Technology through the Philippine Council for Health Research and Development (DOST-PCHRD) has signified support to the “Accelerated development of a cost-efficient microPCR (miPCR) and lateral flow diagnostic (LFD) system to enable expanded near-point-of-care testing for Covid-19” or the AMPLiFieD System.
The system will be developed by a multi-disciplinary team of biologists, clinicians and engineers led by Dr. Jeremie de Guzman, Dr. Keith Moore, and Mr. Ricardo Jose Guerrero, PhD and from the Ateneo Research Institute for Science and Engineering (ARISE).
The AMPLiFieD system will combine the outputs of two newly-initiated DOST-PCHRD supported projects -- the miPCR Project, a microfluidic PCR device for portable DNA/RNA amplification, and the ADDS Project, an amplified DNA detection system based on low-cost LFD strips to selectively detect the viral nucleic acids that are the output of the miPCR device.
Once the team has fabricated the proof of concept devices, further validation and verification of these devices will be conducted to ensure reliability and robustness.
If successful, AMPLiFieD could provide a functional alternative to commercial qPCR instruments at a significantly lower cost and a much smaller size.
The availability of this alternative system can also potentially lead to creating more cost-effective, more distributed testing laboratories and provide the much-needed testing infrastructure for more responsive testing and tracing of suspected Covid-19 cases. (PR)