2020
DOI: 10.1039/d0bm00027b
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Methylcellulose – a versatile printing material that enables biofabrication of tissue equivalents with high shape fidelity

Abstract: This minireview highlights the use of the polysaccharide methylcellulose for biofabrication applications. Its properties are useful for printing of dissolvable support structures as well as the development of novel bioinks.

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Cited by 81 publications
(64 citation statements)
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“…[33] Methylcellulose is biocompatible and has been used as food and drug additive in many countries. [34] MCs soluble in cold water but insoluble in hot water, with increasing viscosity observed as temperature increases, such that gel formation occurs at a temperature of 50-55°C. [35] In the sol state, MC is hydrophilic, but its hydrophobic properties increase due to the gelation process.…”
Section: Methylcellulosementioning
confidence: 99%
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“…[33] Methylcellulose is biocompatible and has been used as food and drug additive in many countries. [34] MCs soluble in cold water but insoluble in hot water, with increasing viscosity observed as temperature increases, such that gel formation occurs at a temperature of 50-55°C. [35] In the sol state, MC is hydrophilic, but its hydrophobic properties increase due to the gelation process.…”
Section: Methylcellulosementioning
confidence: 99%
“…Methylcellulose as a thermal gelling polymer has mainly been used in 3D printing as a blending material with other polymers such as alginate [41] and hyaluronic acid [42] to improve the printing process of these polymers. Readers are referred to the review articles [34] regarding the recent development in applying methylcellulose for 3D printing for biomaterials engineering.…”
Section: Methylcellulosementioning
confidence: 99%
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“…Using 3D bioprinting techniques, bioink (mainly comprised of biomaterials, living cells, and/or bioactive molecules) is printed in a predesigned manner and incorporated with living cells as dynamic structures with functions (e.g., growth and proliferation) within scaffolds to regenerate target tissues [14][15][16]. Besides, it is a rapid and inexpensive method to generate geometrically well-defined scaffolds [17], and offers precise control over the composition of cells and biomaterials, associated with spatial distributions, and architectural accuracy [12,18]. Moreover, its ability for precise placement of high-density cells in the desired location and multiple types of cells in an orderly fashion mimics heterogeneous architectures of native tissues.…”
Section: Introductionmentioning
confidence: 99%