SOPHiA GENETICS’ Solid Tumor Solution (STS) application was recently granted a CE-IVD designation, a regulatory stamp that a product has satisfied the EU’s in vitro diagnostic device requirements. We spoke to Gioia Althoff, SOPHiA’s Senior Vice President, Genomics Business Area, about the STS application and where SOPHiA is going from here.
Initial Study on Plasma Samples and Liquid Biopsy Potential Completed by Genomics England, Inivata and Thermo Fisher Scientific
The first stage of a collaboration between Genomics England, Inivata and Thermo Fisher Scientific looking to assess the suitability of circulating tumour DNA (ctDNA) samples collected during the 100,000 Genomes Project has now concluded. The collaboration was also created to objectively evaluate liquid biopsy market offerings and find evidence for implementing that technology in healthcare for better disease treatment and prevention.
A new large-scale study of depression, analysing more than 620,000 individuals, has found that there is no single gene for the disorder, rewriting years of hypotheses and striking a blow to clinical agencies who hoped to create diagnostic tools and treatments for the faulty genes.
AstraZeneca has signed a $6.9 billion deal with Daiichi Sankyo for a single antibody-drug conjugate (ADC), trastuzumab deruxtecan.
A collaboration between Viapath, NIHR Guy’s and St Thomas’ Biomedical Research Centre has created the world’s first nanopore-based genetic sequencing test for Huntington’s disease, now available at Guy’s and St Thomas’ hospitals. If successful, the test could cut waiting time for complicated Huntington’s cases, and could have big ramifications for other disorders in the future.
Heating solid tumours during CAR-T cell therapy could increase change of success, researchers from the UCLA Jonsson Comprehensive Cancer Center have found. Combining a heating technique called photothermal ablation with the infusion of CAR-T cells suppressed melanoma tumor growth for up to 20 days in mice.
Out of a whole host of engaging and enjoyable moments at Front Line Genomics’ recent Data Driven Drug Development (D4) conference, held in Boston on 20-21 March, one of the most memorable was definitely the triumph of nQ Medical in our innovation showcase, beating out three other contenders for the claim to be “most innovative” of the technologies on display.
For the first time, CRISPR-Cas9 has been combined with electronic graphene transistors to create a new handheld device which can detect specific mutations in the genome within minutes. The device can be used to quickly diagnose genetic disorders and diseases or determine the accuracy of gene-editing techniques.
The scientists of seven nations have called for a halt to gene-editing experiments seeking to alter heritable traits in human babies.
Oxford Nanopore has made its Flongle starter packs available to purchase, following an early-access testing programme. The Flongle machine allows for smaller, on-demand DNA sequence testing at low cost.
A combination of immunotherapy drug avelumab and targeted agent axitinib has been seen to increases progression-free survival in patients with metastatic kidney cancer, scientists from the Dana-Farber Institute have reported following a phase 3 clinical trial.
A new AI program can predict the symptoms of a patient’s cancer and their severity of the course of treatment.
The first findings from a comprehensive genomic analysis of the human brain have been unveiled, potentially uncovering a good deal about the inherited component of diseases such as schizophrenia and autism.
Scientists from the University of Pennsylvania have created a test using gene-editing tools such as CRISPR to identify a gene variant responsible for severe hypertrophic cardiomyopathy (SHC). SHC is an often-familial disease which thickens heart walls and is linked to a variant in the TNNT2 gene.
Time to pop the champagne – 100,000 genomes have been reached. Well done Genomics England!