Cancer Therapeutics: Cancer is often treated by surgery, chemotherapy, radiation therapy, targeted therapy (including immunotherapy such as monoclonal antibody therapy), hormonal therapy, and synthetic lethality. The choice of therapy depends upon the stage of the disease, and the location and grade of the tumor, as well as the patient's general status. Many clinical trial cancer treatments are also under development.
Understanding the complex interplay between a pathogen and the host response is important to developing effective vaccines and therapeutics. The nCounter® Analysis System and GeoMx®...
COVID 19 has resulted in diverse research needs ranging from mechanism and impact of the disease, to solutions to identify, combat or treat the disease. Cellular technologies such as flow an...
The RNAscope in situ hybridization technology allows high sensitivity, specificity and spatial resolution providing pivotal single-cell gene expression information to gain better insights in...
Multiplex immunofluorescence IHC is a powerful technique to address the increasing research needs in immuno-oncology to better understand the tumor microenvironment. In this webinar, we will...
Neoantigen based personalized immuno-oncology drugs are a relatively new therapeutic avenue that have shown strong anti-tumor efficacy in the clinic. Neoantigen peptides have been widely rep...
While providing indispensable insight into immune processes, the live cell imaging of immune cells poses unique challenges due to their non-adherent nature. Suspension cells such as immune c...
Gene manipulation studies in primary human immune cells can answer important biological questions within a clinically relevant cellular context. In this webinar we explore the use of several...
Multiplexed immunofluorescent imaging sheds new light on cancer and other complex conditions. This imaging technique offers a deeper understanding of cells and their surroundings by providin...
A key step in the clinical production of CAR T cells is the expansion of engineered T cells. To generate enough cells for viable adoptive cell therapy, cells must be robustly stimulated, whi...
Immune checkpoint blockade has revolutionized the treatment for patients with cancer. Great efforts remain to better understand resistant mechanisms to treatment as well as means to improve...
Cancer cells can acquire immune resistance resulting in a loss of immunosurveillance. Tumor cells can upregulate PDL-1 which binds to PD-1. This complex inhibits CD8 Tumor Infiltrating cells...
Cancer initiation and virulence depends on mechanisms to evade host immunosurveillance and suppression of early invasion and growth. Distinct phenotypes of the immune infiltrates in and arou...
Dr. Koenitzer will present an overview of her current research in immune suppression. After a brief introduction to the MILLIPLEX® multiplex immunoassay portfolio, Dr. Koenitzer will dis...
Immune checkpoint therapies targeting the CTLA-4 and PD-(L)1 pathways have been largely clinically disappointing for patients with prostate cancer. This can be attributed to the highly immun...
1. Identify 3 barriers to immune cell response to cancer 2. List 3 approaches to overcome immunosuppressive barriers to bolster the immune response to cancer 3. Explain how fusion proteins c...
Programmed death-1 (PD-1) inhibits T and B cell function upon ligand binding. PD-1 blockade revolutionized cancer treatment, and while numerous patients respond, some develop autoimmune-like...
One of the main challenges in cancer immunotherapy is the resistance to I-O therapies. Primary resistance can occur before treatment and acquired resistance can occur in patients who respond...
B cells have recently come into vogue as important contributors to the anti-tumor immune response in cancer patients. Specifically, B cells and the immune structures in which they reside (te...
NCI estimates that cancer will be the leading cause of death in 2030, worldwide. Checkpoint inhibitors and adoptive cell therapies (ACTs) cost up to ~$2 million/patient and have shown durabl...
Learning Objectives: 1. Define applications of approved and experimental (multiplexing IF) biomarker assessment in Immuno-Oncology 2. Define bottlenecks and areas of improvement to current t...
Platinum-based chemotherapy has been the cornerstone for treating metastatic urothelial cancer, which compromises the majority of bladder cancer. While urothelial cancer is chemosensitive, p...
DATE: June 2, 2020 TIME: 7:00am PT, 10:00am ET In just a few months COVID-19 has risen from a regional crisis to a global threat, and drug makers are now scrambling to develop vaccines aimed...
DATE: May 27, 2020 TIME: 8:00am PT, 11:00am ET Multiplexed immunofluorescent imaging sheds new light on cancer and other complex conditions. This imaging technique offers a deeper understand...
Understanding the complex interplay between a pathogen and the host response is important to developing effective vaccines and therapeutics. The nCounter® Analysis System and GeoMx®...
COVID 19 has resulted in diverse research needs ranging from mechanism and impact of the disease, to solutions to identify, combat or treat the disease. Cellular technologies such as flow an...
The RNAscope in situ hybridization technology allows high sensitivity, specificity and spatial resolution providing pivotal single-cell gene expression information to gain better insights in...
Multiplex immunofluorescence IHC is a powerful technique to address the increasing research needs in immuno-oncology to better understand the tumor microenvironment. In this webinar, we will...
Neoantigen based personalized immuno-oncology drugs are a relatively new therapeutic avenue that have shown strong anti-tumor efficacy in the clinic. Neoantigen peptides have been widely rep...
While providing indispensable insight into immune processes, the live cell imaging of immune cells poses unique challenges due to their non-adherent nature. Suspension cells such as immune c...
Gene manipulation studies in primary human immune cells can answer important biological questions within a clinically relevant cellular context. In this webinar we explore the use of several...
Multiplexed immunofluorescent imaging sheds new light on cancer and other complex conditions. This imaging technique offers a deeper understanding of cells and their surroundings by providin...
A key step in the clinical production of CAR T cells is the expansion of engineered T cells. To generate enough cells for viable adoptive cell therapy, cells must be robustly stimulated, whi...
Immune checkpoint blockade has revolutionized the treatment for patients with cancer. Great efforts remain to better understand resistant mechanisms to treatment as well as means to improve...
Cancer cells can acquire immune resistance resulting in a loss of immunosurveillance. Tumor cells can upregulate PDL-1 which binds to PD-1. This complex inhibits CD8 Tumor Infiltrating cells...
Cancer initiation and virulence depends on mechanisms to evade host immunosurveillance and suppression of early invasion and growth. Distinct phenotypes of the immune infiltrates in and arou...
Dr. Koenitzer will present an overview of her current research in immune suppression. After a brief introduction to the MILLIPLEX® multiplex immunoassay portfolio, Dr. Koenitzer will dis...
Immune checkpoint therapies targeting the CTLA-4 and PD-(L)1 pathways have been largely clinically disappointing for patients with prostate cancer. This can be attributed to the highly immun...
1. Identify 3 barriers to immune cell response to cancer 2. List 3 approaches to overcome immunosuppressive barriers to bolster the immune response to cancer 3. Explain how fusion proteins c...
Programmed death-1 (PD-1) inhibits T and B cell function upon ligand binding. PD-1 blockade revolutionized cancer treatment, and while numerous patients respond, some develop autoimmune-like...
One of the main challenges in cancer immunotherapy is the resistance to I-O therapies. Primary resistance can occur before treatment and acquired resistance can occur in patients who respond...
B cells have recently come into vogue as important contributors to the anti-tumor immune response in cancer patients. Specifically, B cells and the immune structures in which they reside (te...
NCI estimates that cancer will be the leading cause of death in 2030, worldwide. Checkpoint inhibitors and adoptive cell therapies (ACTs) cost up to ~$2 million/patient and have shown durabl...
Learning Objectives: 1. Define applications of approved and experimental (multiplexing IF) biomarker assessment in Immuno-Oncology 2. Define bottlenecks and areas of improvement to current t...
Platinum-based chemotherapy has been the cornerstone for treating metastatic urothelial cancer, which compromises the majority of bladder cancer. While urothelial cancer is chemosensitive, p...
DATE: June 2, 2020 TIME: 7:00am PT, 10:00am ET In just a few months COVID-19 has risen from a regional crisis to a global threat, and drug makers are now scrambling to develop vaccines aimed...
DATE: May 27, 2020 TIME: 8:00am PT, 11:00am ET Multiplexed immunofluorescent imaging sheds new light on cancer and other complex conditions. This imaging technique offers a deeper understand...
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