Literature DB >> 21415929

Cell-laden microengineered pullulan methacrylate hydrogels promote cell proliferation and 3D cluster formation.

Hojae Bae1, Amir F Ahari, Hyeongho Shin, Jason W Nichol, Che B Hutson, Mahdokht Masaeli, Su-Hwan Kim, Hug Aubin, Seda Yamanlar, Ali Khademhosseini.   

Abstract

The ability to encapsulate cells in three-dimensional (3D) environments is potentially of benefit for tissue engineering and regenerative medicine. In this paper, we introduce pullulan methacrylate (PulMA) as a promising hydrogel platform for creating cell-laden microscale tissues. The hydration and mechanical properties of PulMA were demonstrated to be tunable through modulation of the degree of methacrylation and gel concentration. Cells encapsulated in PulMA exhibited excellent viability. Interestingly, while cells did not elongate in PulMA hydrogels, cells proliferated and organized into clusters, the size of which could be controlled by the hydrogel composition. By mixing with gelatin methacrylate (GelMA), the biological properties of PulMA could be enhanced as demonstrated by cells readily attaching to, proliferating, and elongating within the PulMA/GelMA composite hydrogels. These data suggest that PulMA hydrogels could be useful for creating complex, cell-responsive microtissues, especially for applications that require controlled cell clustering and proliferation.

Entities:  

Year:  2011        PMID: 21415929      PMCID: PMC3057074          DOI: 10.1039/C0SM00697A

Source DB:  PubMed          Journal:  Soft Matter        ISSN: 1744-683X            Impact factor:   3.679


  38 in total

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7.  Alginate-based microfluidic system for tumor spheroid formation and anticancer agent screening.

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9.  Cationized pullulan 3D matrices as new materials for gene transfer.

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  23 in total

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7.  Integrated 3D bioprinting-based geometry-control strategy for fabricating corneal substitutes.

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Review 8.  Synthesis, properties, and biomedical applications of gelatin methacryloyl (GelMA) hydrogels.

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9.  Cell-laden photocrosslinked GelMA-DexMA copolymer hydrogels with tunable mechanical properties for tissue engineering.

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10.  Elastomeric Recombinant Protein-based Biomaterials.

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