Analyzing RNA from blood platelets detected up to 18 different cancers, at early as well as late stages, with a specificity of 99% in asymptomatic controls. The specificity for symptomatic controls, including those who had inflammatory diseases, cardiovascular disease, or benign tumors, was 78%.
The Massachusetts Institute of Technology (MIT) has developed collagen mimetic peptides for PET imaging to detect idiopathic pulmonary fibrosis (IPF), with [68Ga]DOTA-CMP showing selective identification of fibrotic collagen in vivo.
An administrative law judge has decreed that the acquisition of Grail Inc., by Illumina Inc., would not represent a suppression of competition in the market for multicancer early detection (MCED) tests, clearing a way for an acquisition that was initially valued at more than $7 billion.
Researchers from Baylor College of Medicine and Texas Children's Hospital detailed the discovery of CPK-03-37, a novel fluorescent organic molecule for tumor imaging.
Cell Envision Ltd. completed an angel round that will help expand its presence in the U.S. and Europe. Taiwan-based Cell Envision has developed a self-assembled cell arrangement (SACA) monitoring system that can improve patient survival rates of cancer, together with enhancements in reproductive medicine.
It’s that time of year when the U.S. Trade Representative asks for help as it prepares its list of notorious markets for counterfeiting and piracy. While it’s not exhaustive, the annual list is composed of online and physical markets around the world that deal in commercial-scale counterfeiting and piracy across all sectors, including biopharma and med tech.
A research team at the Korea Advanced Institute of Science and Technology (KAIST) has developed tattoo ink made of liquid metal and carbon nanotubes that can work as a bioelectrode. This technology could translate to a tattoo that can function as a health-monitoring device.
Integrated Graphene Ltd. is partnering with a team of scientists at the University of Edinburgh to develop a point-of-care biomedical test for liver transplants. The Sensibile project team is working to develop a prototype electrochemical biosensor that can detect biliary complications’ biomarkers in donor livers. Sterling, Scotland-based Integrated Graphene’s 3D graphene foam electrode will help to assess the viability of the biliary compartment, and the quality of the donor liver prior to transplantation.
Shanghai Aitrox Technology Co. Ltd. (Fosun Aitrox) completed strategic financing of over ¥100 million (US$14.8 million) to develop its pipelines in artificial intelligence (AI)-aided diagnosis platforms. This financing was led by Shanghai Fosun Pharmaceutical (Group) Co. Ltd. and Sinopharm-CICC (Shanghai) Private Equity Investment Management Co. Ltd.
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