Angiogenesis system, Corning® BioCoat®

Supplier: Corning
Corning® BioCoat™ BD BioCoat™
734-1019EA 2663.09 EUR
734-1019 734-1021 392-2504 734-1023 734-1022
Angiogenesis system, Corning® BioCoat®
Microplates Insert Plates and Inserts
The Corning® BioCoat® Angiogenesis systems facilitate investigation of compound effects on endothelial cell invasion, migration, and tubulogenesis. The availability of these standardised assays has facilitated a better understanding of the molecular mechanism of angiogenesis and simplified the routine use of cell based assays for screening of anti- and pro-angiogenic compounds.

BD™ Human Umbilical Vein Endothelial Cells (HUVEC-2) are derived from single donors and cryopreserved at passage number 2. HUVEC-2 cells have been pre-qualified to assure a robust migratory response to angiogenic factors such as VEGF and FBS. Single donor primary HUVEC-2 cells are suitable for use in combination with BD BioCoat™ Angiogenesis Assay Systems to provide relevant models for angiogenesis (e.g., cardiovascular, vascular, and wound healing) and cancer research. BD™ Human Umbilical Vein Endothelial Cells have been qualified for use in BD BioCoat™ Angiogenesis Endothelial Cell Migration assays and may be used in BD BioCoat™ Endothelial Cell Invasion and Tube Formation assays.

  • Address key steps in the angiogenesis process using standardised cell-based assays
  • Increase throughput with screening-compatible formats and data acquisition options
  • Obtain human umbilical vein endothelial cells pre-qualified for use in the endothelial cell migration assay

Corning® BioCoat® Angiogenesis system: Endothelial Cell Invasion
For evaluation of endothelial cell invasion using real time fluorescence detection in a simplified and reproducible manner.

System includes 24-multiwell insert plate(s) with 3 μm pore size Corning® FluoroBlok™ fluorescence-blocking PET membrane pre-coated with Corning® Matrigel® Matrix, packaged ready-to-use with Falcon® companion plate.

  • Address key steps in the angiogenesis process using standardised cell-based assays
  • Increase throughput with screening-compatible formats and data acquisition options
  • Obtain human umbilical vein endothelial cells pre-qualified for use in the endothelial cell migration assay

Corning® BioCoat® Angiogenesis system: Endothelial Cell Migration
A quantitative and reproducible in vitro model system for examining the effects of prospective compounds on endothelial cell migration.

System includes 24- or 96-multiwell insert plate(s) with 3,0 μm pore size Corning® FluoroBlok™ fluorescence-blocking PET membrane pre-coated with human fibronectin, packaged ready-to-use with Falcon® companion plate.

Corning® BioCoat® Angiogenesis system: Endothelial Cell Tube Formation
An optimised system for screening compounds that modulate endothelial cell tubulogenesis, which saves time and improves reproducibility.

System includes 96-well black plate with clear bottom uniformly coated with Corning® Matrigel® Matrix, packaged ready-to-use with Falcon® companion plate.

Corning® Human Umbilical Vein Endothelial Cells
Corning® Human Umbilical Vein Endothelial Cells (HUVEC-2) are derived from single donors and cryopreserved at passage number 2. HUVEC-2 cells have been pre-qualified to assure a robust migratory response to angiogenic factors such as VEGF and FBS. Single donor primary HUVEC-2 cells are suitable for use in combination with Corning® BioCoat™ Angiogenesis systems to provide relevant models for angiogenesis (e.g. cardiovascular, vascular, and wound healing) and cancer research. Corning® Human Umbilical Vein Endothelial Cells have been qualified for use in Corning® BioCoat™ Angiogenesis Endothelial Cell Migration assays and may be used in Corning® BioCoat™ Endothelial Cell Invasion and Tube Formation assays.

BD BioCoat™ angiogenesis system: Endothelial cell migration

A quantitative and reproducible in vitro model system for examining the effects of prospective compounds on endothelial cell migration.

An optimised system for screening compounds that modulate endothelial cell tubulogenesis, which saves time and improves reproducibility.
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