Emerging Fabrication Strategies of Hydrogels and Its Applications

Ali, Fayaz; Khan, Imran; Chen, Jianmin; Akhtar, Kalsoom; Bakhsh, Esraa M.; Khan, Sher Bahadar

doi:10.3390/gels8040205

Cited by 38 publications

(19 citation statements)

References 335 publications

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“…The formation of crosslinks can be performed by the introduction of small cross-linker molecules, photosensitive agents, or by an enzyme-catalyzed reaction. The simplest form of crosslinking occurs between amino groups and aldehydes, forming a Schiff base [ 51 ]. In particular, glutaraldehyde can form imine bonds with the amino groups of chitosan through a Schiff reaction [ 52 ].…”

Section: Tissue Engineering For Bioresponsive Hydrogelsmentioning

confidence: 99%

The Use of Hydrogels for the Treatment of Bone Osteosarcoma via Localized Drug-Delivery and Tissue Regeneration: A Narrative Review

Tharakan

Raja

Pietraru

et al. 2023

Gels

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Osteosarcoma is a malignant tumor of bone that leads to poor mortality and morbidity. Management of this cancer through conventional methods involves invasive treatment options that place patients at an increased risk of adverse events. The use of hydrogels to target osteosarcoma has shown promising results both in vitro and in vivo to eradicate tumor cells while promoting bone regeneration. The loading of hydrogels with chemotherapeutic drugs provides a route for site-specific targeted therapy for osteosarcoma. Current studies demonstrate tumor regression in vivo and lysis of tumor cells in vitro when exposed to doped hydrogel scaffolds. Additionally, novel stimuli-responsive hydrogels are able to react with the tissue microenvironment to facilitate the controlled release of anti-tumor drugs and with biomechanical properties that can be modulated. This narrative review of the current literature discusses both in vitro and in vivo studies of different hydrogels, including stimuli-responsive, designed to treat bone osteosarcoma. Future applications to address patient treatment for this bone cancer are also discussed.

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Section: Tissue Engineering For Bioresponsive Hydrogelsmentioning

confidence: 99%

The Use of Hydrogels for the Treatment of Bone Osteosarcoma via Localized Drug-Delivery and Tissue Regeneration: A Narrative Review

Tharakan

Raja

Pietraru

et al. 2023

Gels

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“…The main methods to produce chemical bonds are free radical polymerization, Schiff base reaction, Michael addition reaction, condensation reaction, enzymatic reaction, and dynamic covalent bond. However, chemical cross-linking needs to be achieved by introducing cross-linking agents, most of which are toxic, which limits the application of hydrogels …”

Section: Types and Classification Of Hydrogelsmentioning

confidence: 99%

Applications and Recent Developments of Hydrogels in Ophthalmology

Wang,

Li,

Liu

et al. 2023

ACS Biomater. Sci. Eng.

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Hydrogels are a type of functional polymer material with a three-dimensional network structure composed of physically or chemically cross-linked polymers. All hydrogels have two common features: first, their structure contains a large number of hydrophilic groups; therefore, they have a high water content and can swell in water. Second, they have good regulation, and the physical and chemical properties of their cross-linked network can be changed by environmental factors and deliberate modification methods. In recent years, the application of hydrogels in ophthalmology has gradually attracted attention. By selecting an appropriate composition and cross-linking mode, hydrogels can be used in different fields for various applications, such as gel eye drops, in situ gel preparation, intravitreal injection, and corneal contact lenses. This Review provides a detailed introduction to the classification of hydrogels and their applications in glaucoma, vitreous substitutes, fundus diseases, corneal contact lenses, corneal diseases, and cataract surgery.

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“… 161 In addition, due to their excellent biocompatibility, soft structure, and appropriate mechanical strength, the hydrogels are tuned into various dosage forms for drug delivery and controlled drug release through nasal delivery, oral delivery, transdermal and subcutaneous injection, and so on. 162 For example, BP has a conjugate structure with a negative zeta potential of about −25 mV. These surface properties are suitable for loading positively charged or π-π stacked matters like small molecular drugs and small interfering RNA.…”

Section: Applications Of Xene Hydrogelsmentioning

confidence: 99%