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Video: The Brave New World of Immuno-Oncology
December 21st, 2018
To develop and validate next generation immuno-oncology therapies researchers have a need to study the basic functions of tumor and immune cells in isolation and together. In vitro tumor cell proliferation, migration and invasion assays enable the assessment of cancer cell growth and metastatic potential. Immune cell activation and chemotactic migration assays are used to study how the body mobilizes its forces against foreign cancer cells. Models of immune cell killing and tumor cell clearance are used to characterize therapeutic activity.
View articleVideo: Why is Cell-by-Cell Analysis Important?
December 21st, 2018
Answer more questions about your non-adherent cell models with IncuCyte® S3 Cell-by-Cell Analysis. Watch the video now.
View articleVideo: IncuCyte Poster Snapshots | Quantitative Live-Cell Imaging Assays for Immunotherapy
December 21st, 2018
Watch as Nicola Bevan walks us through this scientific poster: Quantitative live-cell imaging assays for immunotherapy: chemotaxis, immune cell killing & phagocytosis. Presented at CIMT 2016, Germany
View articleLive Cell Insights Publications Newsletter — Vol. 2, 2018
December 11th, 2018
Keep up with the latest IncuCyte® research. Read our summaries of new and notable research articles featuring the IncuCyte Live Cell Analysis System, including hand-picked publications for applications and research areas like immunology, oncology, neurology, and more!
View articleLive Cell Insights Publication Newsletter — Vol. 1 2018
December 11th, 2018
Read our summaries of new and notable research articles featuring the IncuCyte® Live Cell Analysis System, including hand-picked publications for applications and research areas like immunology, oncology, tumor spheroids, and more!
View articleVideo: Oncology — Exploring the hallmarks of cancer with live-cell analysis
December 11th, 2018
The hallmarks of cancer are continually being updated. This constantly evolving picture of tumor biology is helping to shed new light on the behavior of many cancers, as well as providing new pharmacological targets and treatment strategies. Much of this progress has been driven by technological advances, and the last decade has seen huge strides made in the field of live-cell assays, using both traditional 2D techniques and advanced 3D cell culture models.
View articleIn Bad Company: How Dysfunctional Glia Affect Neighboring Neurons
November 14th, 2018
RNA toxicity due to repeat-containing RNA can cause neurological diseases through gain of function. One such RNA repeat disorder is myotonic dystrophy type 1 (DM1), affecting intellectual abilities and central nervous system impairment, among other symptoms. Although a well-known RNA toxicity disorder, the molecular and cellular pathways affected in DM1 brain remain largely unknown.
View articleHarnessing the Power of the Immune System: Optimizing T Cell Killing Cancer Immunotherapy
October 29th, 2018
Immunotherapy has emerged as a real game-changer in cancer therapeutics. After decades of research, there is now hope of boosting an individual’s own immune system to fight cancer by tapping into T cell-based therapies. One group of patients particularly benefiting from these new approaches are those with malignancies previously considered ‘difficult to treat’. Novel immune therapies include chimeric antigen receptor T cell (CAR-T) therapy and TCR-based adoptive T cell (TCR-T) therapy.
View articleSoftware: Scan on Demand
October 10th, 2018 | Debi Chakraborty
Use Scan on Demand to image plates at another objective and linking those scans together using the Add Scans feature in the software. This can provide additional information about morphology and help to easily identify contamination or other plating issues over time without the need to remove the plate from the incubator and look at it under a manual scope.
View articleExpert view: New developments in real‑time live‑cell analysis
September 5th, 2018 | Del Trezise, Senior Director at Sartorius
Live-cell analysis is now a well-established method that is part of the everyday cell biologist’s armoury for understanding cell biology. For over a decade, the functionality, throughput, and ease of use offered by real-time live-cell analysis has provided a platform for accurate and reproducible cell biology analysis in multiple biomedical research areas, including oncology, immuno-oncology, immunology and now neuroscience.
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