A Microphysiological Model of Metastatic Progression
CN Bio Webinar Series 2 - 2020
In this webinar, we discuss how to use systems to model metastatic progression, evaluate therapeutics and improve our understanding of the bidirectional crosstalk that occurs between host tissue cells and the metastatic cancer cells.
Metastatic disease is the leading cause of mortality in patients with solid tumors. Despite decades of research, we only partially understand the underlying cellular and molecular mechanisms.
This gap in knowledge represents a significant barrier for the prevention and treatment of metastasis. In part, a lack of relevant accessible model systems capable of capturing the complexities of metastatic disease progression has hindered our progress. As a result, researchers are turning towards tissue engineered ex vivo biomimetic microphysiological systems.
Watch this webinar to learn:
How to model dormant-emergent metastatic progression
The impact of scaffolding materials on the metastatic niche and therapeutic efficacy
The impact of Organ-on-a-Chip technologies on our understanding of:
- bidirectional crosstalk between parenchymal cells
- metastatic tumor cells
Видео A Microphysiological Model of Metastatic Progression канала CN Bio
In this webinar, we discuss how to use systems to model metastatic progression, evaluate therapeutics and improve our understanding of the bidirectional crosstalk that occurs between host tissue cells and the metastatic cancer cells.
Metastatic disease is the leading cause of mortality in patients with solid tumors. Despite decades of research, we only partially understand the underlying cellular and molecular mechanisms.
This gap in knowledge represents a significant barrier for the prevention and treatment of metastasis. In part, a lack of relevant accessible model systems capable of capturing the complexities of metastatic disease progression has hindered our progress. As a result, researchers are turning towards tissue engineered ex vivo biomimetic microphysiological systems.
Watch this webinar to learn:
How to model dormant-emergent metastatic progression
The impact of scaffolding materials on the metastatic niche and therapeutic efficacy
The impact of Organ-on-a-Chip technologies on our understanding of:
- bidirectional crosstalk between parenchymal cells
- metastatic tumor cells
Видео A Microphysiological Model of Metastatic Progression канала CN Bio
Показать
Комментарии отсутствуют
Информация о видео
Другие видео канала
Organ-on-Chip Studies with Physiomimix OOC from CNBio (60 second walkthrough)
ALL STEPS
CN BIO
WEBINAR: Organ on a Chip: Improving Preclinical Studies for Faster Drug Development
Benchtop Organ-on-Chip Device: Physiomimix from CNBio (60 second walkthrough)
Organ-on-Chip Studies Workflow Walk-Through (1/6): PhysioMimix T1 from CN Bio
Engineering Mucosal Barriers: From Organoids to Organs-on-Chips
Testing on Humans: Predict Hepatotoxicity and Drug Clearance Ahead of Clinical Trials Using OOC
Organ-on-Chip Studies Workflow (3/6) Dosing with PhysioMimix T1 from CN Bio
PhysioMimix™ OOC - Single and multi organ-on-a-chip systems
Introducing the benefits of a human-relevant organ-on-a-chip approach to drug discovery - CN Bio.
We are CN Bio - About Us
Introducing our NEW PhysioMimix HT (Higher Throughput)
Predicting the future: humanised drug evaluation testing using organ-on-a-chip technology
Organ-on-Chip Studies Workflow (5/6) Multi-Organ Analysis with PhysioMimix T1 from CN Bio
The Rhythm of Life: Using Microfluidics to Mimic Blood Flow. Single and Multi-Organ-on-a-Chip Models
5 Minute Guide to Human Organ-on-Chip Studies: Cells, Tissues, Organs and Multi-Organ Experiments
How our PhysioMimix system (Organ-on-a-Chip) works
Organ-on-Chip Studies Workflow (5/6) Multi-Organ Analysis with PhysioMimix OOC from CN Bio
Go with the Flow: Application of Microfluidic 3D Liver Chip Models for Genotoxity Testing
Organ-on-Chip Studies Workflow (2/6) Cell Culture with PhysioMimix T1 from CN Bio