49 result(s) for 'Automated IHC Workflow'
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High productivity through Speed, Quality, and Universal Access
The BOND-PRIME staining platform delivers high productivity, featuring Universal Access, and can seamlessly adapt to your incoming workflow demands – whether it be batch, continuous, single slide or STAT cases, or a combination of all the above.
Coupled with the ability to produce high-quality, crisp, clear staining with an average IHC slide TAT of 95 minutes, the BOND-PRIME staining platform lets you transcend expectations for quality, timeliness, and diagnostic productivity.
Optimize your lab with BOND Consumables
SEATTLE, USA and MELBOURNE, AUSTRALIA. March 1st Leica Biosystems continues to advance its relationship with NanoString Technologies Inc., supporting translational research to build confidence in reproducibility and throughput while minimizing manual steps and reducing hands-on time with the release of the fully automated GeoMx RNA protocol on BOND RX and BOND RXm research staining systems.
“This fully automated protocol not only increased our ability to get more slides done in a week but also increased the quality of the data coming off of our instrument by reducing variability between runs,” said Carlee Hemphill, lead scientist, CDx Labcorp Drug Development.
NanoString's GeoMx Digital Spatial Profiler uses spatial images, chemistry, and workflow to enable high-plex profiling ...
Probes for the CE-IVD marked kit now available for clinical use.
Leica Biosystems, a global leader in pathology workflow solutions, previously partnered with Bio-Techne to create a fully automated, walk-away solution on the BOND-III IHC and ISH stainer, for use in automating RNA ISH. Now, Bio-Techne has registered probes for clinical utility within Europe for use with the RNAscope detection kit from Leica Biosystems. The CE-IVD marked RNAscope ISH Probe High Risk HPV is intended for use in patients diagnosed with oropharyngeal squamous cell carcinoma (OPSCC) to aid in the identification of high-risk human papillomavirus (HPV).
RNAscope in situ hybridization is a highly sensitive and specific spatial biology technology that enables users to visualize and localize biomarker expr...