Location History:
- Tai Po, CN (2022)
- Hong Kong, CN (2023)
Company Filing History:
Years Active: 2022-2024
Title: Innovations of Yee Ting Cheung in Molecular Analyses
Introduction
Yee Ting Cheung is a notable inventor based in Tai Po, China. He has made significant contributions to the field of molecular biology, particularly in the analysis of cell-free DNA during pregnancy. With a total of three patents to his name, Cheung's work has the potential to enhance prenatal diagnostics and improve maternal-fetal health.
Latest Patents
One of Cheung's latest patents focuses on molecular analyses using long cell-free DNA fragments in pregnancy. The methods and systems described in this patent involve utilizing long cell-free DNA fragments to analyze biological samples from pregnant subjects. The status of methylated CpG sites and single nucleotide polymorphisms (SNPs) is often used to analyze these DNA fragments. Typically, a CpG site and a SNP are separated by hundreds or thousands of base pairs, making it improbable to find consecutive sites on most cell-free DNA fragments. However, cell-free DNA fragments longer than 600 base pairs may include multiple CpG sites and/or SNPs. This presence allows for more comprehensive analysis compared to shorter fragments. The long cell-free DNA fragments can be instrumental in identifying the tissue of origin and providing valuable information about the fetus in a pregnant female.
Career Highlights
Yee Ting Cheung is affiliated with The Chinese University of Hong Kong, where he continues to advance research in molecular biology. His innovative approaches have garnered attention in the scientific community, contributing to the understanding of prenatal diagnostics.
Collaborations
Cheung has collaborated with esteemed colleagues, including Yuk-Ming Dennis Lo and Rossa Wai Kwun Chiu. These partnerships have fostered a collaborative environment that enhances research outcomes and drives innovation in the field.
Conclusion
Yee Ting Cheung's work in molecular analyses represents a significant advancement in prenatal diagnostics. His innovative methods utilizing long cell-free DNA fragments have the potential to transform how biological samples are analyzed during pregnancy.