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Merck

927058

Sigma-Aldrich

TissueFab® bioink kit

(Gel)ma Laminin -UV/365 nm, low endotoxin

Sinónimos:

0.2 um sterile filtered, 3D Bioprinting, GelMA, Gelatin methacrylamide, Gelatin methacrylate, Gelatin methacryloyl, Laminin

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About This Item

UNSPSC Code:
12352201
NACRES:
NA.25

Quality Level

form

viscous liquid (gel)

impurities

<5 CFU/g Bioberden: Aerobic
<5 CFU/g Bioberden: Fungal
<50 EU/mL Endotoxin

color

pale yellow to colorless

pH

6.5-7.5

viscosity

3-30 cP

storage temp.

−20°C

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General description

Gelatin methacryloyl (GelMA) is a polymerizable hydrogel material derived from natural extracellular matrix (ECM) components. Due to its low cost, abundance, and retention of natural cell binding motifs, gelatin has become a highly sought material for tissue engineering applications. Laminin is an extracellular matrix multidomain trimeric glycoprotein and is the main non-collagenous component of basal lamina that supports adhesion, proliferation and differentiation. Laminin is composed of both A, B1 and B2 chains, which are connected by many disulfide bonds. This laminin product was isolated from mouse Engelbreth-Holm-Swarm tumor. Laminin proteins are integral components of structural scaffolding in animal tissues. They associate with type IV collagen via entactin and perlecan and bind to cell membranes through integrin receptors, dystroglycan glycoprotein complexes and Lutheran blood group glycoproteins.

Application

The addition of photocrosslinkable methacrylamide functional groups in GelMA allows the synthesis of biocompatible, biodegradable, and non-immunogenic hydrogels that are stable in biologically relevant conditions and promote cell adhesion, spreading, and proliferation Gelatin methacrylate based bioinks have been used to bioprint osteogenic , chondrogenic , hepatic , adipogenic , vasculogenic , epithelial , endothelial , cardiac valve , skin , tumor and other tissues and constructs. Laminin has active domains for collagen binding, cell adhesion, heparin binding, and neurite outgrowth fragment. Laminin has been used in tissue engineering applications for corneal , organoids and neurodegenerative diseases .
TissueFab® bioink kit
(Gel)ma Laminin -UV/365 nm, low endotoxin features a ready-to-use bioink that is formulated for high cell viability, and printability and is designed for extrusion-based 3D bioprinting and subsequent 365 nm light crosslinking and a solution of Laminin to enhance the bioink. The bioink kit can be used with most extrusion-based bioprinters, are biodegradable, and are compatible with human mesenchymal stem cells (hMSCs) and other diverse cell types. TissueFab®- Low endotoxin GelMA-UV Laminin kit enables the precise fabrication of 3D cell models and tissue constructs for research in 3D cell biology, tissue engineering, in vitro tissue models, and regenerative medicine. Suitable for final Laminin concentrations up to 200ug/ml.

Features and Benefits

In addition to fast gelation, the methacrylamide functional group can also be used to control the hydrogel physical parameters such as pore size, degradation rate, and swell ratio. 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.

Low Endotoxin, low bioburden: Endotoxins have been demonstrated negatively impact cellular growth, morphology, differentiation, inflammation and protein expression. Bioburden is defined as the number of contaminated organisms found in a given amount of material. We test each lot for endotoxins as well as total bioburden (aerobic and fungal) to minimize unwanted interactions. For more information: https://www.sigmaaldrich.com/US/en/technical-documents/technical-article/microbiological-testing/pyrogen-testing/what-is-endotoxin

Legal Information

TISSUEFAB is a registered trademark of Merck KGaA, Darmstadt, Germany

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Storage Class

10 - Combustible liquids


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Anni Sorkio et al.
Biomaterials, 171, 57-71 (2018-04-24)
There is a high demand for developing methods to produce more native-like 3D corneal structures. In the present study, we produced 3D cornea-mimicking tissues using human stem cells and laser-assisted bioprinting (LaBP). Human embryonic stem cell derived limbal epithelial stem
Daniela Barros et al.
Biomaterials science, 7(12), 5338-5349 (2019-10-18)
Laminin incorporation into biological or synthetic hydrogels has been explored to recapitulate the dynamic nature and biological complexity of neural stem cell (NSC) niches. However, the strategies currently explored for laminin immobilization within three-dimensional (3D) matrices do not address a
Nicolas Broguiere et al.
Advanced materials (Deerfield Beach, Fla.), 30(43), e1801621-e1801621 (2018-09-12)
Epithelial organoids are simplified models of organs grown in vitro from embryonic and adult stem cells. They are widely used to study organ development and disease, and enable drug screening in patient-derived primary tissues. Current protocols, however, rely on animal-
Rachel R Besser et al.
Biomaterials science, 8(2), 591-606 (2019-12-21)
We report a water-soluble and non-toxic method to incorporate additional extracellular matrix proteins into gelatin hydrogels, while obviating the use of chemical crosslinkers such as glutaraldehyde. Gelatin hydrogels were fabricated using a range of gelatin concentrations (4%-10%) that corresponded to
Y Shi et al.
Biomedical materials (Bristol, England), 13(3), 035008-035008 (2018-01-09)
Three-dimensional bioprinting is an emerging technology for fabricating living 3D constructs, and it has shown great promise in tissue engineering. Bioinks are scaffold materials mixed with cells used by 3D bioprinting to form a required cell-laden structure. In this paper

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