Innovative Cytotoxicity Assays Utilizing Imaging Cytometry to Investigate Anti-Tumor Immunity

The ongoing pursuit of novel anti-cancer therapeutics must consider the potential for off-target effects on the immune system.

High-Throughput Imaging Cytometry for Rapid Investigation in the Role of MEX3A in Glioma

The researchers in this study first utilized various techniques to explore the role of MEX3A in glioma, including immunohistochemistry to assess MEX3A expression levels in glioma tissues, knockdowns of MEX3A in conjunction with a transwell assay to assess migration and an in-vivo mouse model of tumor burden.

By |2022-01-19T19:38:13+00:00January 19th, 2022|Categories: Celigo, Latest News, Neurology|Tags: , , , |0 Comments

High-Throughput Imaging Assessing Virus-Neutralizing Activity of Sera from Vaccinated Individuals

The severe acute respiratory coronavirus 2 (SARS-CoV-2) has caused the ongoing COVID-19 pandemic, infecting more than 206 million people and causing upwards of 4.34 million deaths at the time of writing.

Celigo Continues to be a Valuable Tool for 3D Immunotherapy Models

Metastatic spreading from solid tumors continues to be one of the greatest challenges facing oncologists and clinicians, often leading to a fatal outcome for many patients.

By |2022-01-31T21:34:42+00:00September 20th, 2021|Categories: 3D Models, Latest News|Tags: , , , |0 Comments

Is your 2D assay giving superficial information?

Perform simultaneous imaging and analysis to rapidly capture and quantify spheroid images in every well with advanced software segmentation.

Establishing a High-throughput Screening Platform for NK mediated Cytotoxicity using Image Cytometry

Researchers highlight the need for large-scale screening of cytotoxic cells and their ability to kill target cell lines in both a 2D and 3D fashion.

Taking Advantage of Viral Cytopathic Effects to Aid in the Rapid Screening of Effective Viral Therapies

Virology researchers use CPE effects pathogens elicit on the host to study host-pathogen interactions.

Dissecting the Genetic Code of SARS-CoV-2 with Reverse Genetics

The COVID-19 pandemic has increased SARS-CoV-2 research globally resulting in three publicly available vaccines from Moderna, Pfizer (mRNA-based), and Johnson & Johnson (viral vector-based).

Using Deep Machine Learning to Enhance Monoclonal Cell Line Identification

Monoclonal cell culture is critical for many research areas however, the process to establish monoclonal cell lines is time-consuming, and many methods used to monitor monoclonality of cell culture still rely on manual and low-throughput methods.

Cold-chain Storage Optimization for Umbilical Cord Human Mesenchymal Stem Cells

Effective long-term cryopreservation of human mesenchymal stem cells is an essential component of regenerative medicine and tissue engineering applications.

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