Create a 3D human airway model with air-liquid interface culture
Generation of a 3D human airway model with primary human nasal and tracheal epithelial cells using our Air-Liquid Interface Medium (ALI-Airway)….
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Air-liquid interface culture: getting a closer look into our airways
Air-liquid interface culture (ALI) allow scientists to generate stable and functional in vitro 3D human airway cell models that closely mimic respiratory tract epithelia. With such models, researchers can investigate physiological and pathological processes of the respiratory tract. They can study interactions between epithelial cells and respiratory pathogens or air pollutants,…
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Discover our Air-Liquid Interface (ALI) culture system
Our standardized Air-Liquid Interface (ALI) Medium in combination with ALI pre-screened Human Bronchial Epithelial Cells enables creation of a reproducible human 3D airway model with stable and predictable epithelial barrier function….
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Primary cells in respiratory research – webinar
Learn about the benefits of primary cells as model systems in respiratory research and how a 3D model at the Air-Liquid Interface can be set up and used….
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How Air-Liquid Interface (ALI) media compositions influence the epithelial barrier integrity
Selecting an appropriate medium is a crucial step to develop an ALI culture with a long-lasting barrier function. We provide the tools for a reliable epithelial barrier formation….
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Top tips for incorporating organoids into your research: expert interview
Our expert, Dr. Elfie Rödel, shares her top tips for incorporating organoids into your research in an interview with RegMedNet….
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The advantages of using primary cells in respiratory research
Respiratory research benefits from primary cell research as this biological niche has a complex array of cells influencing and acting upon each other. 3D cell culture using primary cells from a disease specific donor allows understanding of in vivo processes in disease specific states, and comparison to healthy donor cells. Learn more about the use of primary cells in respiratory research in our article….
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Tissue engineering of the respiratory epithelium: insights in culture methods and applications
This webinar addresses both interested beginners as well as advanced scientists in the field and focuses on key issues like cell sources, air liquid interface (ALI) culture, medium demands and current challenges regarding reproducibility and standardization.
In vitro culture of primary respiratory epithelial cells has constantly gained influence in disease modeling and is moreover basis for functional tissue engineering of the airways….
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Mimicking the body’s largest organ in vitro with 3D skin models
Researchers are increasingly using 3D cell cultures to study the skin’s features. Three-dimensional skin models offer the potential to study various diseases and test compounds in vitro. Dr. Florian Groeber-Becker from the Fraunhofer Institute for Silicate Research ISC in Wurzburg has developed a highly sophisticated skin model.
It is the first thing people see when they look at us….
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Starting with 3D cell culture
Making use of 3D cell culture can give you access to new and powerful in vitro models that model the in vivo environment. In this overview, you’ll be introduced to the main methods in 3D culture and how best to use them in your research….
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Accelerating regenerative medicine with air-liquid interface (ALI) technology
Gain expert insights into the increasing relevance of ALI in regenerative medicine from our in-depth interview featured on RegMedNet….
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Super-resolution microscopy: Zooming in on the eorld of the influenza A virus
It adapts quickly to the cellular defense mechanisms of the host and develops resistance against antiviral drugs: The influenza A virus is a major human pathogen with high variability. New super-resolution microscopy methods, as well as the use of human primary cells, currently allow better insights into the interactions between viruses and host cells….
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