Nov 4, 2015 | Digital Pathology, Instruments & Equipment, Laboratory Instruments & Laboratory Equipment, Laboratory News, Laboratory Pathology, Laboratory Testing, Management & Operations
MinION could help achieve NIH’s goal of $1,000 human genome sequencing and in remote clinics and outbreak zones shift testing away from medical laboratories
Point-of-care DNA sequencing technology is edging ever closer to widespread commercial use as the Oxford Nanopore MinION sequencer draws praise and registers successes in pre-release testing.
A pocketsize gene-sequencing machine such as the MinION could transform the marketplace by shifting DNA testing to remote clinics and outbreak zones while eliminating the need to return samples to clinical laboratories for analysis. Such devices also are expected to increase the need for trained genetic pathologists and medical technologists. (more…)
Jun 1, 2012 | Digital Pathology, Laboratory Instruments & Laboratory Equipment, Laboratory Management and Operations, Laboratory News, Laboratory Pathology
Even small clinical pathology laboratories could afford this new miniaturized gene sequencer
Is the profession of pathology and clinical laboratory medicine ready to deal with point-of-care DNA sequencing technologies? A company in the United Kingdom says that, as early as next year, it can bring a portable high-throughput unit to market that will sell for around US $900.
Researchers at Oxford Nanopore Technologies Ltd. (ON) have developed new-generation sequencing technology that uses nanopores to deliver ultra-long, read-length, single molecule sequence data, the company stated in a press release. And it does this with competitive accuracy on a high-throughput electronic platform. (more…)
Jan 3, 2011 | Digital Pathology, Laboratory Instruments & Laboratory Equipment, Laboratory Pathology
High-Density Sequencing Chips Will Soon Be Able To Sequence Five Million SNPs
Rapid gene sequencing is catching the interest of progressive anatomic pathologists. These medical laboratory professionals are interested in using rapid gene sequencing technology to allow them to study tens and hundreds of genes on a patient specimen.
The technologies used in rapid gene sequencing are being developed and improved by a handful of biotech companies who are racing each other be first to deliver systems to the marketplace that can sequence whole human genomes at a cost of $1,000 or less. Some innovative medical laboratories are beginning to acquire these sequencing systems and explore how they might be used for clinical pathology laboratory testing. (more…)
