Demo on Demand: Modern Virology Assays Using Image Cytometry
Many leading labs in the field of virology have used the Celigo Image Cytometer to directly measure multiplex cell-based assays in real-time.
Many leading labs in the field of virology have used the Celigo Image Cytometer to directly measure multiplex cell-based assays in real-time.
Watch the demo on demand: Modern Cell-based Assays for Cell and Gene Therapy Using Image Cytometry
Detection of novel CD276-CAR NK-92 mediated cytotoxicity of neuroblastoma tumor spheroids using plate-based image cytometry
Drug repurposing, also known as drug repositioning is a powerful tool for the rapid expansion of available therapy options by identifying new therapeutic uses from pre-existing drugs.
The Celigo Image Cytometer reduces assay time while providing richer, quantitative readouts to accelerate assessment of vaccine and antiviral compound candidates.
There are many methods to determine a viral titer, with each having its pros and cons, however the increasing need to have high throughput methods to determine viral titers are ever-pressing.
Many factors and considerations must be optimized to develop the appropriate cell-based assays for gene therapy development.
The microneutralization assay is a powerful, high-throughput screening tool crucial to the efficient development of novel vaccines and the discovery of compounds that can prevent or treat viral disease.
Syngeneic tumor models and human immune cell-engrafted mice are two of the popular preclinical tools in immuno-oncology studies.
There is no single “one size fits all” cell-based assay however 3D cell cultures have been shown to be more physiologically relevant in oncology, immune oncology and other fields.