EndoGo™ XF Medium

Defined, xeno-free, serum-free medium for long-term expansion of large and small vessels of endothelial cells

Price (USD):
$173.00
Item No.: 
05-400-1A
Piece
1

*Custom/bulk order quotes are provided within 72 hours of request.

EndoGo™ XF Medium is a novel xeno-free culture medium specially designed for the long-term expansion of large and small vessels endothelial cells from various sources. The medium provides an optimally balanced nutritional environment that selectively promotes the proliferation of normal human endothelial cells while maintaining typical cobblestone-like cell morphology, phenotypic surface marker profile, and angiogenic differentiation potential.

EndoGo™ XF supports human macro and microvascular endothelial cells (MVEC).

Advantages

:
  • Defined, xeno-free, serum-free medium
  • Supports long-term expansion of large and small vessels endothelial cells
  • Maintains high proliferation potential, typical morphology, and EC marker expression

The complete endothelial cell culture media consists of two components: EndoGo™ XF Medium (05-400-1) and EndoGo™ XF Supplement Mix (05-410-1). In addition, the medium required the use of human AB serum (off the clot) or human platelet lysate (not supplied with the media).

EndoGo™ XF Medium is recommended for use in conjunction with Recombinant Trypsin Solution with EDTA (Item No. 03-079-1) and Soybean Trypsin Inhibitor (SBTI) (Item No. 03-048-1).

Applications

  • Application Area
    Endothelial cell culture  

Compliance Information

  • Origin
    Xeno-Free  

Features

  • Serum Free
    Yes  

Physicochemical Information

  • Adherence/Suspension
    Adherent  
  • Formulation
    Standard  

Product Information

  • Brand
    EndoGo™  

Sterility/Purity

  • Delivery Condition
    Sterile  

Volume

  • Volume
    500 mL  
  • EndoGo™ XF Supplement Mix
    Item no.
    05-410-1-25

    $399.00

    A supplement mix for EndoGo XF Medium, a defined, xeno-free, serum-free medium for long-term expansion of large and small vessels of endothelial cells