We are pleased to announce that the Zeiss LSM 880 Upright Microscope, featuring a state-of-the-art 2 Photon laser, will be back and fully operational by the end of July. This advanced imaging system will significantly boost our research capabilities, offering high-resolution imaging and deep tissue penetration for various applications.
Continue reading "Zeiss LSM 880 with 2 Photon Laser Returns"
The Tissue-Tek® TEC™ 6, our latest addition to the Histology Core, facilitates the embedding of processed tissues into paraffin, allowing for the creation of precise paraffin blocks essential for subsequent sectioning. This advanced embedder ensures efficient and accurate tissue preparation, supporting high-quality histological analyses for researchers across various scientific disciplines.
Starting on November 1st, 2023, requests for liquid nitrogen dewer fill-ups will be channeled through the iLab service request platform overseen by Core Labs. This transition streamlines the process, eliminates paperwork, and enhances efficiency. Researchers can now request liquid nitrogen with a few clicks and reduce administrative burdens. Order tracking features provide transparency on the status of requests. Moreover, this shift towards a paperless workflow contributes to a more sustainable research environment. Core Labs will ensure that the pursuit of liquid nitrogen remains unhindered.
Microscopy & Histology Core is excited to announce an upcoming training session for the Axioscan 7. This cutting-edge slide scanning system is set to revolutionize the field of microscopy, and we invite you to join us for an in-depth training session.
Date: Monday, May 8, 2023
Time: 1:00 PM - 4:00 PM
Remote option available
To ensure your participation in the training session, please RSVP to kishor.kunwar@unthsc.edu
The Histology Core has recently enhanced its tissue processing capabilities by acquiring the Tissue-Tek VIP 6 AI Vacuum Infiltration Processor. The Tissue-Tek VIP 6 AI system leverages advanced infiltration techniques and vacuum technology to optimize and streamline the tissue processing workflow. With this tissue processor, the Core can achieve rapid and efficient tissue infiltration, ensuring uniform distribution of processing reagents throughout the sample. The vacuum infiltration process improves the penetration of reagents into the tissue, resulting in improved quality and consistency of the processed samples. This advanced technology also offers enhanced control over processing parameters, allowing for precise customization based on the specific tissue types and experimental requirements. HSC researchers can now benefit from improved tissue quality, accelerated processing times, and increased reproducibility while obtaining higher-quality tissue samples enabling more accurate and reliable downstream analyses.
Read more about the system here.
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