Structure-property relationship of a model network containing solvent

Fujiyabu, Takeshi; Yoshikawa, Yuki; Chung, Ung‐il; Sakai, Takamasa

doi:10.1080/14686996.2019.1618685

Cited by 34 publications

(33 citation statements)

References 54 publications

(106 reference statements)

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“…Hydrogel, a three‐dimensional mesh gel constituted by interlaced hydrophilic polymers, has powerful water absorbing ability, appropriate porosity, and suitable constraining force, 40,41 which provides homelike media for cells to live and serves as a biomolecule container for sustained local treatment 42‐44 …”

Section: The Classification Preparation Of Hydrogel and Its Advantamentioning

confidence: 99%

Advances and trends of hydrogel therapy platform in localized tumor treatment: A review

Tan

Huang

et al. 2020

J Biomedical Materials Res

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Due to limitations of treatment and the stubbornness of infiltrative tumor cells, the outcome of conventional antitumor treatment is often compromised by a variety of factors, including severe side effects, unexpected recurrence, and massive tissue loss during the treatment. Hydrogel‐based therapy is becoming a promising option of cancer treatment, because of its controllability, biocompatibility, high drug loading, prolonged drug release, and specific stimuli‐sensitivity. Hydrogel‐based therapy has good malleability and can reach some areas that cannot be easily touched by surgeons. Furthermore, hydrogel can be used not only as a carrier for tumor treatment agents, but also as a scaffold for tissue repair. In this review, we presented the latest researches in hydrogel applications of localized tumor therapy and highlighted the recent progress of hydrogel‐based therapy in preventing postoperative tumor recurrence and improving tissue repair, thus proposing a new trend of hydrogel‐based technology in localized tumor therapy. And this review aims to provide a novel reference and inspire thoughts for a more accurate and individualized cancer treatment.

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Section: The Classification Preparation Of Hydrogel and Its Advantamentioning

confidence: 99%

Advances and trends of hydrogel therapy platform in localized tumor treatment: A review

Tan

Huang

et al. 2020

J Biomedical Materials Res

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“…According to the swelling dynamic theory, the response rate of the hydrogel is proportional to the square of the size of the hydrogel and inversely proportional to the diffusion coefficient, as shown in Equation (8). Therefore, the response rate of the hydrogel can be improved by decreasing the hydrogel size and increasing the diffusion coefficient (D) [75].…”

Section: Factors Influencing Swelling Dynamic Of Hydrogelsmentioning

confidence: 99%

Recent Developments and Future Challenges of Hydrogels as Draw Solutes in Forward Osmosis Process

Wang

Gao

Tian

et al. 2020

Water

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Forward osmosis (FO) has been recently regarded as a promising water treatment technology due to its lower energy consumption and lower membrane fouling propensity compared to the reverse osmosis (RO). The absence of suitable draw solute constraints the wide-range application of the FO. Hydrogels are three-dimensional hydrophilic polymer networks that can absorb a huge amount of water. Particularly, stimuli-responsive polymer hydrogels can undergo a reversible volume change or solution-gel phase transition in response to external environmental stimuli, including temperature, light, pressure, solvent composition, and pH. These intrinsic properties indicate the lowest regeneration cost of draw solutes compared to the thermal method and other membrane processes. This review aims to introduce the research progress on hydrogels as draw solutes, clarify the existing problems and point out the further research direction.

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“…Previously in our group, we fabricated a polymer gel with a well-controlled network structure based on the combination of two tetra-armed poly (ethylene glycol)s through an AB-type crosslink-coupling reaction, and this was named a Tetra-PEG gel [ 22 , 23 , 24 ]. As the tetra-armed building blocks were precisely synthesized via anionic polymerization, the resultant networks were expected to have a regular network structure with tetrafunctional cross-linking points and a uniform strand length.…”

Section: Introductionmentioning

confidence: 99%

Effect of Nonlinear Elasticity on the Swelling Behaviors of Highly Swollen Polyelectrolyte Gels

Jian

Katashima

et al. 2021

Gels

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Polyelectrolyte gels exhibit swelling behaviors that are dependent on the external environment. The swelling behaviors of highly charged polyelectrolyte gels can be well explained using the Flory–Rehner model combined with the Gibbs–Donnan effect and Manning’s counterion condensation effect (the FRGDM model). This study investigated the swelling properties of a series of model polyelectrolyte gels, namely tetra-polyacrylic acid-polyethylene glycol gels (Tetra-PAA-PEG gels), and determined the applicability of the FRGDM model. The swelling ratio (Vs/V0) was well reproduced by the FRGDM model in the moderate swelling regime (Vs/V0 < 10). However, in the high swelling regime (Vs/V0 > 10), the FRGDM model is approx. 1.6 times larger than the experimental results. When we introduced the finite extensibility to the elastic free energy in the FRGDM model, the swelling behavior was successfully reproduced even in the high swelling regime. Our results reveal that finite extensibility is one of the factors determining the swelling equilibrium of highly charged polyelectrolyte gels. The modified FRGDM model reproduces well the swelling behavior of a wide range of polyelectrolyte gels.

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Structure-property relationship of a model network containing solvent

Cited by 34 publications

References 54 publications

Advances and trends of hydrogel therapy platform in localized tumor treatment: A review

Advances and trends of hydrogel therapy platform in localized tumor treatment: A review

Recent Developments and Future Challenges of Hydrogels as Draw Solutes in Forward Osmosis Process

Effect of Nonlinear Elasticity on the Swelling Behaviors of Highly Swollen Polyelectrolyte Gels

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