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SAGMTM Small Airway Epithelial Cell Growth Medium BulletKit®
Catalog #: CC-3118
Culture system containing SABMTM Basal Medium and SAGMTM SingleQuots® supplements required for growth of Small Airway Epithelial cells
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S-ALITM Small Airway Air-Liquid Interface Medium BulletKit®
Catalog #: CC-4539
Culture system containing S-ALITM Basal Media (CC-3281), S-ALITM Differentiation Media (CC-3282) and S-ALITM SingleQuots® supplements (CC-4538) required for air-liquid interface differentiation of small airway epithelial cells.
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SABM™ Small Airway Epithelial Cell Growth Basal Medium
Catalog #: CC-3119
SABMTM Small Airway Epithelial Basal Medium
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SAGMTM Small Airway Epithelial Cell Growth Medium SingleQuots® Supplements and Growth Factors
Catalog #: CC-4124
SAGMTM Small Airway Epithelial SingleQuots® Kit
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D-SAEC-As – Diseased Small Airway Epithelial Cells – Asthma
Catalog #: CC-2932
D-SAEC-As, Small Airway Epithelial Cells, Asthma
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SAEC – Human Small Airway Epithelial Cells
Catalog #: CC-2547
Cryopreserved ampule of Small Airway Epithelial Cells (SAEC) containing ≥500,000 cells.
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SAEC - Small Airway Epithelial Cells for S-ALITM Small Airway Air-Liquid-Interface Medium
Catalog #: CC-2547S
SAEC, Small Airway Epithelial Cells, for ALI Culture
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D-SAEC-COPD – Diseased Small Airway Epithelial Cells – COPD
Catalog #: CC-2934
D-SAEC-COPD, Small Airway Epithelial Cells from donors with COPD
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D-SAEC-CF – Diseased Small Airway Epithelial Cells – Cystic Fibrosis
Catalog #: CC-2933
D-SAEC-CF, Small Airway Epithelial Cells, Cystic Fibrosis
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NHBE – Human Bronchial/Tracheal Epithelial Cells without Retinoic Acid
Catalog #: CC-2541
Cryopreserved ampule of Normal Human Bronchial Epithelial (NHBE) cells without Retinoic Acid containing ≥500,000 cells
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TechSheet - Small Airway Epithelial Cell SystemsTechnical Product Information Guide
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An Air-liquid Interface Culture System for Small Airway Epithelial CellsOur data demonstrate that SAEC can be differentiated in an ALI culture system that is capable of forming tight junctions, displaying cilia and secreting ASL. This system should facilitate more physiologically relevant studies of both normal SAEC and those from diseases, such as COPD and asthma.
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Modeling a 3D respiratory model with the Quasi Vivo® QV600 Fluidic Cell Culture SystemIn this Technical Note, we provide detailed information of how the Quasi Vivo® QV600 System was set up for the ALI culture of normal human bronchial or small airway epithelial (NHBE, SAE) cells.
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Airway Cells Concentration GuideTailored prmary cell media to accelerate your airway research
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Instructions - Airway Epithelial Cell SystemsInstructions for Proper Use and Culture of Airway Epithelial Cells
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Primary Cells for Airway Research – InfographicInfographic showing how Lonza primary cells can aide in your airway research
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Primary cells and other tools for in vitro ADME-ToxCD-LI019_ADME-Tox_Product_listing_sec.pdf
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Basic Transfection Protocol for Neurons (SCN) - Nucleofector™ I/II/2b Device SeriesInstructions of use for transfection of small cell numbers of primary neurons with Nucleofector™ 1/2 Devices (incl. 1, 2b, 2N, 2S)
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Transfection Protocol for Mouse Neurons (SCN) - Nucleofector™ I/II/2b Device SeriesInstructions of use for transfection of small cell numbers of mouse hippocampal neurons with Nucleofector™ 1/2 Devices (incl. 1, 2b, 2N, 2S)
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Gene Expression Differences in Airway Epithelial Cells from Asthma or COPD DonorsAccess to diseased primary cells from patients diagnosed with COPD or asthma provides a convenient, biologically relevant model to assess genetic and in some cases phenotypic changes from normal, healthy donor tissues. In this study, we grew human bronchial epithelial (HBE) cells from normal, COPD-, and asthma-diagnosed human donor lung tissues in an air-liquid interface (ALI) model to assess potential phenotypic changes in vitro as well as provide a differentiated layer of cells to harvest for gene expression studies using the StellARray™ Gene Expression System.
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