925055
TissueFab® GelAlg − LAP Bioink
low endotoxin, 0.2 μm filtered, suitable for 3D bioprinting applications
Synonyme(s) :
GelMA-alginate bioink
About This Item
Produits recommandés
Niveau de qualité
Stérilité
0.2 μm filtered
Forme
viscous liquid (gel)
Impuretés
<5 cfu/mL Bioburden
<50 EU/mL Endotoxin
Couleur
pale yellow to colorless
pH
6.5-7.5
Viscosité
10-40 cP
Application(s)
3D bioprinting
Température de stockage
2-8°C
Catégories apparentées
Description générale
Alginate is a naturally occurring polymer widely applied for bioprinting applications as its printability can be easily modified by altering the polymer density and crosslinking with the addition of calcium chloride (CaCl2). Alginate is often combined with gelatin to facilitate cell adhesion and differentiation.
Temporal and spatial control of the crosslinking reaction can be obtained by adjusting the degree of functionalization and polymerization conditions, allowing for the fabrication of hydrogels with unique patterns, 3D structures, and morphologies.
Application
- osteogenic [1],
- chondrogenic [2] [3],
- hepatic [4] [5] [6],
- adipogenic [7],
- vasculogenic [8],
- epithelial [6],
- endothelial [9] [10],
- cardiac valve [11],
- skin [12],
- tumors [10]
Caractéristiques et avantages
- Ready-to-use formulation optimized for high printing fidelity and cell viability, eliminating the lengthy bioink formulation development process
- Step-by-step protocols developed and tested by MilliporeSigma 3D Bioprinting Scientists, no prior 3D bioprinting experience needed
- Suitable for different extrusion-based 3D bioprinter model
- Methacrylamide functional group can also be used to control the hydrogel physical parameters such as pore size, degradation rate, and swell ratio.
Informations légales
Code de la classe de stockage
10 - Combustible liquids
Classe de danger pour l'eau (WGK)
WGK 3
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Articles
Learn how 3D bioprinting is revolutionizing drug discovery with highly-controllable cell co-culture, printable biomaterials, and its potential to simulate tissues and organs. This review paper also compares 3D bioprinting to other advanced biomimetic techniques such as organoids and organ chips.
Learn how 3D bioprinting is revolutionizing drug discovery with highly-controllable cell co-culture, printable biomaterials, and its potential to simulate tissues and organs. This review paper also compares 3D bioprinting to other advanced biomimetic techniques such as organoids and organ chips.
Learn how 3D bioprinting is revolutionizing drug discovery with highly-controllable cell co-culture, printable biomaterials, and its potential to simulate tissues and organs. This review paper also compares 3D bioprinting to other advanced biomimetic techniques such as organoids and organ chips.
Learn how 3D bioprinting is revolutionizing drug discovery with highly-controllable cell co-culture, printable biomaterials, and its potential to simulate tissues and organs. This review paper also compares 3D bioprinting to other advanced biomimetic techniques such as organoids and organ chips.
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