Lifeink® 240, Acidic Type I Collagen Bioink

Cat.-Nr.: 5267-5ML

Description

Lifeink® 240 is an acidic Type I collagen bioink at a concentration of 35 mg/ml for extrusion-based 3D bioprinting. The product is a highly concentrated acidified collagen solution intended to be extrusion printed employing FRESH bioprinting (see LifeSupport® Catalog No. 5244-8GM).

Lifeink® 240 produces printed structures with a high print resolution and good mechanical strength. The product is formulated in an acidic saline buffer solution. Once the collagen is printed into LifeSupport®, the pH and salts concentration of the printed structure become physiological. Cells can then be seeded onto the printed structure allowing for cell adherence and cellular remodeling of the 3D bioprinted structure.

 

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  • SUPPLIER:

    Advanced BioMatrix

  • STATUS:

    In Stock

  • SIZE:

    5 ml

Overview

  • Species: Bovine
  • Additional Attributes: 3D Hydrogels, Bioinks for 3D Bioprinting, collagen
  • Specific Attributes: atelocollagen/pepsin treatment, steril, Type I
  • Features:30-40 mg/ml

Related Files

Datasheet
Certificate of Origin
Declaration of Material Source

References

  • References for Lifeink® collagen bioinks:
  • Lee, A. et al. 3D bioprinting of collagen to rebuild components of the human heart. Science 365, 482–487 (2019).
  • Maxson, Eva L., et al. "In vivo remodeling of a 3D-Bioprinted tissue engineered heart valve scaffold." Bioprinting (2019): e00059.
  • Filardo, G. et al.Patient-specific meniscus prototype based on 3D bioprinting of human cell-laden scaffold. Bone & Joint Research 8,101–106 (2019).
  • Schmitt, T. Analysis and Classification of 3-D Printed Collagen-Bioglass Matrices for Cellular Growth Utilizing Artificial Neural Networks. University Thesis (2018).
  • Balakhovsky, Y. M., Ostrovskiy, A. Y. & Khesuani, Y. D. Emerging Business Models Toward Commercialization of Bioprinting Technology. 3D Printing and Biofabrication1–22 (2017). doi:10.1007/978-3-319-40498-1_25-1
  • Fox, S. et al. A simplified fabrication technique for cellularized high-collagen dermal equivalents. Biomedical Materials14,041001 (2019).

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