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Merck
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922188

Sigma-Aldrich

Low endotoxin GelMA

bloom 300, Type A, degree of substitution 80%

Synonyme(s) :

3D Bioprinting, GelMA, Gelatin methacrylamide, Gelatin methacrylate, Gelatin methacryloyl

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About This Item

Code UNSPSC :
12352202
Nomenclature NACRES :
NA.23

Niveau de qualité

100

Forme

powder or chunks

Impuretés

<10 CFU/g Bioburden
<125 EU/g Endotoxin

Couleur

white to off-white

Température de stockage

2-8°C

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Application

This is a low endotoxin GelMA for use in biomedical research applications.
GelMA can be used to form hydrogels for tissue engineering and 3D bioprinting. 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. 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.

Conditionnement

500 mg in glass bottle

Code de la classe de stockage

11 - Combustible Solids

Classe de danger pour l'eau (WGK)

WGK 3

Point d'éclair (°F)

Not applicable

Point d'éclair (°C)

Not applicable

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Certificats d'analyse (COA)

Lot/Batch Number
MKCQ5753

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Retrouvez la documentation relative aux produits que vous avez récemment achetés dans la Bibliothèque de documents.

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Preparation and characterization of gelatin-poly(methacrylic acid) interpenetrating polymeric network hydrogels as a pH-sensitive delivery system for glipizide
Gupta NV et al.
Indian journal of pharmacy and pharmacology, 69(1, 64-68 (2007)
Photocrosslinkable gelatin hydrogel for epidermal tissue engineering.
Zhao X, Khademhosseini A
Advanced Helathcare Materials (2015)
Kristel W M Boere et al.
Acta biomaterialia, 10(6), 2602-2611 (2014-03-05)
Hydrogels can provide a suitable environment for tissue formation by embedded cells, which makes them suitable for applications in regenerative medicine. However, hydrogels possess only limited mechanical strength, and must therefore be reinforced for applications in load-bearing conditions. In most
Kelly M C Tsang et al.
Advanced functional materials, 25(6), 977-986 (2015-09-04)
Hydrogels are often employed as temporary platforms for cell proliferation and tissue organization in vitro. Researchers have incorporated photodegradable moieties into synthetic polymeric hydrogels as a means of achieving spatiotemporal control over material properties. In this study protein-based photodegradable hydrogels
Anh H Nguyen et al.
Acta biomaterialia, 13, 101-110 (2014-12-03)
Gelatin has been commonly used as a delivery vehicle for various biomolecules for tissue engineering and regenerative medicine applications due to its simple fabrication methods, inherent electrostatic binding properties, and proteolytic degradability. Compared to traditional chemical cross-linking methods, such as
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