Novel Method Using a Temperature-Sensitive Polymer (Methylcellulose) to Thermally Gel Aqueous Alginate as a pH-Sensitive Hydrogel

Liang, Hsiang Fa; Hong, M.; Ho, Rong Ming; Chung, Ching-Kuang; Lin, Yu Hsin; Chen, Chun Hung; Sung, Hsing‐Wen

doi:10.1021/bm049813w

Cited by 155 publications

(106 citation statements)

References 29 publications

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“…The salts blended usually have a greater affinity for water molecules than polymers, resulting in the removal of water of hydration from polymers and thus dehydrating or 'salting out' the polymeric molecules [6,19]. This can further increase the hydrophobic interaction among MC molecules and lead to a decrease in their gelation temperature [18,20].…”

Section: Construction Of Cell Aggregatesmentioning

confidence: 99%

The use of injectable spherically symmetric cell aggregates self-assembled in a thermo-responsive hydrogel for enhanced cell transplantation

et al. 2009

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Section: Construction Of Cell Aggregatesmentioning

confidence: 99%

The use of injectable spherically symmetric cell aggregates self-assembled in a thermo-responsive hydrogel for enhanced cell transplantation

et al. 2009

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“…1−4 Natural polymers such as polysaccharides (e.g., chitosan 5 and alginate 6 ) and proteins (e.g., casein 7 ), have been attracting great attention in biomedical applications, ranging from the drug delivery and cell imaging to biosensors. 8 These research efforts are mainly driven by their good in vivo biocompatibility.…”

Section: ■ Introductionmentioning

confidence: 99%

Protein Microspheres with Unique Green and Red Autofluorescence for Noninvasively Tracking and Modeling Their in Vivo Biodegradation

Wang

Song

et al. 2016

ACS Biomater. Sci. Eng.

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Bovine serum albumin (BSA) microspheres were prepared through a facile and low-cost route including a high-speed dispersion of BSA in cross-linking solution followed by spray drying. Interestingly the asprepared BSA microspheres possess unique blue-green, green, green-yellow, and red fluorescence when excited by specific wavelengths of laser or LED light. The studies of UV−visible reflectance spectra and fluorescence emission spectra indicated that four classes of fluorescent compounds are presumably formed during the fabrication processes. The formation and the potential contributors for the unique green and red autofluorescence were also discussed and proposed though the exact structures of the fluorophores formed remain elusive due to the complexity of the protein system. The effect of spray-drying conditions on the morphology of spray-dried samples was investigated and optimized. FTIR was further employed to characterize the formation of the functional groups in the as-prepared autofluorescent microspheres. Good in vitro and in vivo biocompatibility was demonstrated by the cytotoxicity test on the A549 cancer cells and tissue histological analysis, respectively. The autofluorescent BSA microspheres themselves were then applied as a novel tracer for convenient tracking/modeling of the biodegradation of autofluorescent BSA microspheres injected into mouse model based on noninvasive, time-dependent fluorescence images of the mice, in which experimental data are in good agreement with the proposed mathematical model. All these studies indicate that the as-developed protein microspheres exhibiting good biocompatibility, biodegradability, and unique autofluorescence, can significantly broaden biomedical applications of fluorescent protein particles.

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“…The latest development of protein engineering allows the production of proteins having desired properties and great potential market; 15 however, protein fragility is one of the major drawbacks for their utilization. Consequently, the discovery and development of new therapeutic proteins have also created new opportunities for drug-delivery systems involving the design of appropriate nanocarriers such as liposomes, micro-, and nanoparticles.…”

Section: Introductionmentioning

confidence: 99%

Overview of the main methods used to combine proteins with nanosystems: absorption, bioconjugation, and encapsulation

Marco¹

2009

IJN

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Novel Method Using a Temperature-Sensitive Polymer (Methylcellulose) to Thermally Gel Aqueous Alginate as a pH-Sensitive Hydrogel

Cited by 155 publications

References 29 publications

The use of injectable spherically symmetric cell aggregates self-assembled in a thermo-responsive hydrogel for enhanced cell transplantation

The use of injectable spherically symmetric cell aggregates self-assembled in a thermo-responsive hydrogel for enhanced cell transplantation

Protein Microspheres with Unique Green and Red Autofluorescence for Noninvasively Tracking and Modeling Their in Vivo Biodegradation

Overview of the main methods used to combine proteins with nanosystems: absorption, bioconjugation, and encapsulation

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