Organoid cell culture has transformed cell-based assays in drug discovery, the study of organs for disease modeling and in basic biology by conferring physiologic relevance to in vitro cell-based biological models. Recently, using organoid models to study human airways has become increasingly important for drug and vaccine development and for studying infectious human respiratory diseases such as COVID-19 and respiratory syncytial virus (RSV). Lung organoids also have utility in the study of other lung disorders such as cystic fibrosis and asthma. Additionally they act as a powerful resource in other research areas like cancer, drug toxicity and efficacy studies, as well as other translational and medical research studies.
Explore Lung Organoids
Explore Lung Organoids
Featured Resources
Airway Organoids for Drug and Vaccine Development
Airway Organoids for Drug and Vaccine Development
Airway organoids are valuable tools for studying infectivity in human respiratory diseases, such as new novel COVID-19 virus.
Airway organoids are valuable tools for studying infectivity in human respiratory diseases, such as new novel COVID-19 virus.
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Leading the Fight Against Infectious Disease
Leading the Fight Against Infectious Disease
Using lung organoid models for 3D cell culture is helping to advance viral and cellular science faster and more predictably.
Using lung organoid models for 3D cell culture is helping to advance viral and cellular science faster and more predictably.
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Using Organoids for Disease Modeling
Using Organoids for Disease Modeling
This ask-an-expert session discusses method for using organoids to study human disease models.
This ask-an-expert session discusses method for using organoids to study human disease models.
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Collaborations to Advance Organoid Studies
Collaborations to Advance Organoid Studies
See how Hubrecht Organoid Technology (HUB) and Corning are collaborating to provide advances related to organoid culture.
See how Hubrecht Organoid Technology (HUB) and Corning are collaborating to provide advances related to organoid culture.
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Studying SARS-CoV-2 Infection With Lung Organoids
Studying SARS-CoV-2 Infection With Lung Organoids
Lung organoids have helped scientists learn more about SARS-CoV-2 infection, which supports drug-screening efforts for COVID-19.
Lung organoids have helped scientists learn more about SARS-CoV-2 infection, which supports drug-screening efforts for COVID-19.
Learn MoreFeatured Application Notes & Webinars
Gene Expression and 3D Airway Orgnaoids
Learn More: Gene Expression and 3D Airway OrgnaoidsSee how researchers characterize the gene expression of airway organoids generated from healthy and asthmatic primary bronchial cells.
COVID-19 Research with Lung Organoids
Learn More: COVID-19 Research with Lung OrganoidsHuman airway epithelial (HAE) cells are commonly used models for studying the respiratory tract, and are now being used the advance the understanding of COVID-19.
HUB Organoids and Clinical Outcomes
Watch Now: HUB Organoids and Clinical OutcomesDiscover how HUB organoids are impacting clinical outcomes using organoid models.
Products in Lung Organoids
Matrigel® Matrix for Organoid Culture
Matrigel® Matrix for Organoid Culture
Keep your organoid cultures right on target with an optimized formulation.
Keep your organoid cultures right on target with an optimized formulation.
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Matrigel Matrix-3D Plates
Matrigel Matrix-3D Plates
Support consistent and robust growth of 3D cell cultures with Corning Matrigel Matrix-3D Plates.
Support consistent and robust growth of 3D cell cultures with Corning Matrigel Matrix-3D Plates.
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Transwell®, Snapwell™, Netwell®, and Falcon® Permeable Supports
Transwell®, Snapwell™, Netwell®, and Falcon® Permeable Supports
Transwell permeable supports are backed by extensive citations, protocols, and scientific support—all to help create a cell culture that more closely mimics an in vivo environment.
Transwell permeable supports are backed by extensive citations, protocols, and scientific support—all to help create a cell culture that more closely mimics an in vivo environment.
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3D Clear Tissue Clearing Reagent
3D Clear Tissue Clearing Reagent
Clear 3D cell culture models with minimal changes to morphology and without compromising sensitivity.
Clear 3D cell culture models with minimal changes to morphology and without compromising sensitivity.
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