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Merck

919373

Sigma-Aldrich

Low endotoxin alginate

Medium viscosity

别名:

Alginic acid, Sodium alginate

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About This Item

分類程式碼代碼:
12352201
NACRES:
NA.23

品質等級

形狀

lyophilized powder

雜質

<10 CFU/g Bioburden
<100 EU/g Endotoxin

顏色

white to pale yellow

儲存溫度

2-8°C

應用

This product is low endotoxin version alginate, it is lyophilized powder and ready to be used in biomedical applications.

Alginate is an anionic polysaccharide that is widely used in pharmaceutical and biomedical applications due to its non-animal origin, low toxicity, biocompatibility, and biodegradability. Alginate hydrogels are commonly used to fabricate tissue engineering scaffolds, bioinks for 3D bioprinting, and nanocarriers for drug & gene delivery. Alginate is commonly crosslinked into a hydrogel via ionic-crosslinking with divalent cations (e.g., Ca2+).

包裝

500mg in glass bottle

儲存類別代碼

13 - Non Combustible Solids

水污染物質分類(WGK)

WGK 2


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Jia Jia et al.
Acta biomaterialia, 10(10), 4323-4331 (2014-07-08)
Recent advances in three-dimensional (3-D) printing offer an excellent opportunity to address critical challenges faced by current tissue engineering approaches. Alginate hydrogels have been used extensively as bioinks for 3-D bioprinting. However, most previous research has focused on native alginates
Eneko Axpe et al.
International journal of molecular sciences, 17(12) (2016-11-30)
Three-dimensional (3D) bioprinting is on the cusp of permitting the direct fabrication of artificial living tissue. Multicellular building blocks (bioinks) are dispensed layer by layer and scaled for the target construct. However, only a few materials are able to fulfill
Kuen Yong Lee et al.
Progress in polymer science, 37(1), 106-126 (2011-11-30)
Alginate is a biomaterial that has found numerous applications in biomedical science and engineering due to its favorable properties, including biocompatibility and ease of gelation. Alginate hydrogels have been particularly attractive in wound healing, drug delivery, and tissue engineering applications
Tarun Agarwal et al.
ACS applied materials & interfaces, 8(47), 32132-32145 (2016-12-10)
Success of bone tissue engineering (BTE) relies on the osteogenic microarchitecture of the biopolymeric scaffold and appropriate spatiotemporal distribution of therapeutic molecules (growth factors and drugs) inside it. However, the existing technologies have failed to address both the issues together.

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