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Merck
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Documenti

900496

Sigma-Aldrich

Gelatin methacryloyl

gel strength 300 g Bloom, 80% degree of substitution

Sinonimo/i:

GelMA, Gelatin methacrylamide, Gelatin methacrylate, GelMa, Gelatin Methacrylate

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About This Item

Formula condensata:
(C40H59N11O13)n
Codice UNSPSC:
12352202
NACRES:
NA.23

Livello qualitativo

100

Forma fisica

powder

Temperatura di conservazione

2-8°C

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Applicazioni

Gelatin methacrylate can be used to form cross-linked hydrogels for tissue engineering and 3D printing. It has been used for endothelial cell morphogenesis, cardiomyocytes, epidermal tissue, injectable tissue constructs, bone differentiation, and cartilage regeneration. Gelatin methacrylate has been explored in drug delivery applications in the form of microspheres and hydrogels.

Codice della classe di stoccaggio

11 - Combustible Solids

Classe di pericolosità dell'acqua (WGK)

WGK 3

Punto d’infiammabilità (°F)

Not applicable

Punto d’infiammabilità (°C)

Not applicable

Certificati d'analisi (COA)

Cerca il Certificati d'analisi (COA) digitando il numero di lotto/batch corrispondente. I numeri di lotto o di batch sono stampati sull'etichetta dei prodotti dopo la parola ‘Lotto’ o ‘Batch’.

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Alkyne functionalized gelatin degree of substitution > 80%

Sigma-Aldrich

909157

Alkyne functionalized gelatin

Thiol functionalized gelatin

Sigma-Aldrich

904643

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Gelatina gel strength 80-120 g Bloom, Type A

Sigma-Aldrich

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Low endotoxin gelatin from porcine skin gel strength 240-360 (Bloom), <10 EU/g Endotoxin

Sigma-Aldrich

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Low endotoxin gelatin from porcine skin

Facile one-step micropatterning using photodegradable methacrylated gelatin hydrogels for improved cardiomyocyte organization and alignment.
Tsang K, et al.
Advances in Functional Materials, 25(6), 977-986 (2015)
Photocrosslinkable gelatin hydrogel for epidermal tissue engineering.
Zhao X, et al.
Advanced Helathcare Materials (2015)
Covalent attachment of a three-dimensionally printed thermoplast to a gelatin hydrogel for mechanically enhanced cartilage constructs.
Boere KWM, et al.
Acta Biomaterialia, 10(6), 2602-2611 (2014)
Ruohong Shi et al.
Small (Weinheim an der Bergstrasse, Germany), 16(37), e2002946-e2002946 (2020-08-11)
Hydrogels with the ability to change shape in response to biochemical stimuli are important for biosensing, smart medicine, drug delivery, and soft robotics. Here, a family of multicomponent DNA polymerization motor gels with different polymer backbones is created, including acrylamide-co-bis-acrylamide
Jason W Nichol et al.
Biomaterials, 31(21), 5536-5544 (2010-04-27)
The cellular microenvironment plays an integral role in improving the function of microengineered tissues. Control of the microarchitecture in engineered tissues can be achieved through photopatterning of cell-laden hydrogels. However, despite high pattern fidelity of photopolymerizable hydrogels, many such materials
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