Human CD19+ B cells isolated from peripheral blood using negative immunomagnetic selection, cryopreserved, ≥10 million cells
Human CD3+ T cells, isolated from peripheral blood using negative immunomagnetic selection, ≥ 25 million cells, cryopreserved
Cryopreserved ampule of Human Peripheral Blood CD14+ Monocytes, negative selection, containing ≥10 million cells
Cryopreserved ampule of negatively selected Human Peripheral Blood CD14+ Monocytes, containing ≥ 50 million cells
Cryopreserved ampule of Human CD34+ Progenitor Cells from Mobilized Peripheral Blood using positive immunomagnetic selection containing 10 million cells
Cryopreserved ampule of Human CD34+ Progenitor Cells from Mobilized Peripheral Blood using positive immunomagnetic selection containing ≥ 25 million cells
Cryopreserved ampule of Human CD34+ Progenitor Cells from Mobilized Peripheral Blood using positive immunomagnetic selection containing ≥ 1 million cells
Cryopreserved ampule of Human CD34+ Progenitor Cells from Mobilized Peripheral Blood using positive immunomagnetic selection containing ≥ 5 million cells
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Cryopreserved Human LeukopakA brief guide and introduction to Lonza Cryopreserved Leukopak
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Cold Storage of Fresh Leukopak Maintains Cell Viability and FunctionalityLearn how advanced cold storage approaches enable optimal levels of product integrity, quality, stability and viability
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Inventory - Non-Parenchymal CellsListing of available non-parenchymal cells inventory; updated monthly March 2019 NPC Inventory
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Primary Human Hepatocyte SpheroidsThe culture of human primary hepatocytes as spheroids supports long-term cell viability and functionality. In this study, we compared different spheroid culture systems and present optimized culture conditions.
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A Quantitative, High-throughput, Real-time Angiogenic Tube Formation AssayAngiogenic Assay - Human Umbilical Vein Endothelial Cells and Human Dermal Fibroblasts in Co-culture
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Normal Human Adult Epidermal MelanocytesNormal human epidermal melanocytes (NHEM) are neural crest-derived cells that reside in the basal stratum of the epidermis. The distinct stellate or dendritic morphology of these cells allows the cell body to remain in the basal layer of the epidermis while the dendrites associate with keratinocytes in the basal and spinosum layers.
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OsteoAssay™ Human Bone PlateInformational application notes for OsteoAssay™ Human Bone Plate
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Instructions - Human Fibroblast Cell SystemsTechnical Instructions for culturing Clonetics™ Human Fibroblasts Cells
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Instructions - Cryopreserved Human Stellate CellsTechnical Instructions for culturing human stellate cells
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Poietics® Human Bone MarrowInformation for Lonza bone marrow primary cell products