934089
Ovine collagen
lyophilized, low endotoxin
Synonym(s):
CollOvine™ RDP
Product Name
Ovine collagen, lyophilized, low endotoxin
form
lyophilized
impurities
Bioburden, none detected
≤0.1 EU/mg Endotoxin
color
white to off-white
Quality Level
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Related Categories
Application
- 3D bioprinting
- Tissue engineering
- Drug delivery
- Regenerative medicine
- Cell culture, encapsulation, expansion and differentiation
Features and Benefits
- Certified Disease Free Sheep
- 93-97% Type I Collagen
- 3-7% Type III Collagen
- 99% Purity
- Prion Free
General description
Collagen is a major component of the extracellular matrix (ECM) and offers low immunogenicity, a porous structure, good permeability, and biocompatibility to promote cell viability, adhesion, spreading, proliferation and differentiation. Low endotoxin ovine collagen powder is derived from sheep and is a bovine or porcine alternative that is highly purified, fully traceable, and low endotoxin making it suitable for many biomedical applications.
Legal Information
CollOvine is a trademark of OviGenex LLC
Storage Class
11 - Combustible Solids
wgk
WGK 1
flash_point_f
Not applicable
flash_point_c
Not applicable
Regulatory Information
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Collagen as Bioink for Bioprinting: A Comprehensive Review
Osidak, et al.
International Journal of Bioprinting, 6, 270-270 (2020)
Collagen as Bioink for Bioprinting: A Comprehensive Review
Osidak E O, et al.
International Journal of Bioprinting, 6, 270-270 (2020)
Jana Stepanovska et al.
Biomedicines, 9(9), 1137-1137 (2021-09-29)
Bioprinting is a modern tool suitable for creating cell scaffolds and tissue or organ carriers from polymers that mimic tissue properties and create a natural environment for cell development. A wide range of polymers, both natural and synthetic, are used
Atiqah Salleh et al.
Biomedicines, 10(4), 816-816 (2022-04-24)
Tissue engineering products have grown rapidly as an alternative solution available for chronic wound and burn treatment. However, some drawbacks include additional procedures and a lack of antibacterial properties that can impair wound healing, which are issues that need to
Elizabeth E Antoine et al.
Tissue engineering. Part B, Reviews, 20(6), 683-696 (2014-06-14)
Type I collagen hydrogels have been used successfully as three-dimensional substrates for cell culture and have shown promise as scaffolds for engineered tissues and tumors. A critical step in the development of collagen hydrogels as viable tissue mimics is quantitative
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