MedicalResearch.com Interview with: Zhiyong Zhang PhD Key Laboratory for the Physics and Chemistry of Nanodevices Department of Electronics Peking University Beijing China MedicalResearch.com: What is the background for this study? What are the main findings? Response: Down syndrome is caused by the presence of an extra 21st chromosome within the genome and is the most common birth defect (occurring in approximately 1 in 800 births). In the absence of a multiplexed quantitative diagnostic device, pregnant women have been examined with the ultrasound and the indirect biochemical markers (Alpha-fetoprotein, chorionic gonadotropin and free estriol) which are accompanied with a high misdiagnosis rate. And the diagnostic test (such as amniocentesis) following the wrong screening test results will bring harm to both the pregnant women and the fetuses. Through PCR (polymerization chain reaction) amplification of the fetal DNA in the pregnant mother’s peripheral blood and fluorescence read-out, whole-genome sequencing (WGS)-based non-invasive prenatal testing (NIPT) sequences all the genomic DNA segments in parallel and quantitatively compares the percentage of different chromosomes, which increases the sensitivity for prenatal detection of Down syndrome. However, the complex instrumental setups and the resulted high processing cost present challenges for the large-scale application of WGS-based diagnosis at the point of care in the urban and rural areas of developing countries. Hence, beside the costly WGS method, there is an urgent need to develop a cost-effective NIPT biochip with simple instrumental setting, fast detection speed, high sensitivity, and programmable to multiple disease markers. Taking advantages of we have developed a novel field effect transistor (FET) based biosensor that reveals a fast, ultra-sensitive, highly specific and cost-effective methods and someday can be used to detect fetal Down syndrome in NIPT.  (more…)