A Recent Perspective on Noncovalently Formed Polymeric Hydrogels

Ke-min, Xue; Liow, Sing Shy; Karim, Anis Abdul; Liu, Yupeng; Loh, Xian Jun

doi:10.1002/tcr.201800015

Cited by 35 publications

(31 citation statements)

References 137 publications

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“…2) [45]. Hydrogels have been used as promising materials for a variety of ophthalmic applications [46][47][48][49][50][51][52][53]. However, developing sustained drug delivery systems for biologics such as anti-VEGF molecules is a challenging task.…”

Section: Novel Sustained Drug Delivery Systems For Anti-vegf Agentsmentioning

confidence: 99%

Use of biomaterials for sustained delivery of anti-VEGF to treat retinal diseases

Seah

Zhao

Lin

et al. 2020

Eye

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Anti-vascular endothelial growth factors (anti-VEGF) have become the most common treatment modality for many retinal diseases. These include neovascular age-related macular degeneration (n-AMD), proliferative diabetic retinopathy (PDR) and retinal vein occlusions (RVO). However, these drugs are administered via intravitreal injections that are associated with sight-threatening complications. The most feared of these complications is endophthalmitis, a severe infection of the eye with extremely poor visual outcomes. Patients with retinal diseases typically have to undergo multiple injections before achieving the desired therapeutic effect. Each injection incurs the risk of the sight-threatening complications. As such, there has been great interest in developing sustained delivery platforms for anti-VEGF agents to the posterior segment of the eye. In recent years, there have been various strategies that have been conceptualised. These include non-biodegradable implants, nano-formulations and hydrogels. In this review, the barriers of drug delivery to the posterior segment of the eye will be explained. The characteristics of an ideal sustained delivery platform will then be discussed. Finally, the current available strategies will be analysed with the above-mentioned characteristics in mind to determine the advantages and disadvantages of each sustained drug delivery modality. Through the above, this review attempts to provide an overview of the sustained delivery platforms in their various phases of development.These authors contributed equally: Ivan Seah Yu Jun, Zhao Xin Xin 1234567890();,:1234567890();,:

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Section: Novel Sustained Drug Delivery Systems For Anti-vegf Agentsmentioning

confidence: 99%

Use of biomaterials for sustained delivery of anti-VEGF to treat retinal diseases

Seah

Zhao

Lin

et al. 2020

Eye

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“…Self-healing and shear-thinning properties of supramolecular hydrogels have been demonstrated in different types of polymeric entities (Abdul Karim and Loh, 2015;Kai et al, 2015;Xue et al, 2018). Studies have found that the complexation with non-covalent interaction made the hydrogels reversible under shear cycles (Xue et al, 2018). Studies have also reported the sustained release properties for these materials (Ye et al, 2015;Abdul Karim et al, 2016).…”

Section: Supramolecular Guest-host Interactionsmentioning

confidence: 99%

Recent Progress in 3D Printing of Elastic and High-Strength Hydrogels for the Treatment of Osteochondral and Cartilage Diseases

Dai

Sun

Leng

et al. 2020

Front. Bioeng. Biotechnol.

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Despite considerable progress for the regenerative medicine, repair of full-thickness articular cartilage defects and osteochondral interface remains challenging. This low efficiency is largely due to the difficulties in recapitulating the stratified zonal architecture of articular cartilage and engineering complex gradients for bone-soft tissue interface. This has led to increased interest in three-dimensional (3D) printing technologies in the field of musculoskeletal tissue engineering. Printable and biocompatible hydrogels are attractive materials for 3D printing applications because they not only own high tunability and complexity, but also offer favorable biomimetic environments for live cells, such as porous structure, high water content, and bioactive molecule incorporation. However, conventional hydrogels are usually mechanically weak and brittle, which cannot reach the mechanical requirements for repair of articular cartilage defects and osteochondral interface. Therefore, the development of elastic and high-strength hydrogels for 3D printing in the repairment of cartilage defects and osteochondral interface is crucial. In this review, we summarized the recent progress in elastic and high-strength hydrogels for 3D printing and categorized them into six groups, namely ion bonds interactions, nanocomposites integrated in hydrogels, supramolecular guest–host interactions, hydrogen bonds interactions, dynamic covalent bonds interactions, and hydrophobic interactions. These 3D printed elastic and high-strength hydrogels may provide new insights for the treatment of osteochondral and cartilage diseases.

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“…Hydrogels, in particular, can potentially be a useful three-dimensional scaffold for tissue engineering 2 due to their flexibility and water retention ability, similar to biological tissues. [3][4][5][6][7][8][9][10][11] The prefix ''hydro'' indicates hydrophilicity although most gel structures do not dissolve in water. 12 However, the hydrophilicity renders such gel structures capable of holding large amounts of water in their three dimensional networks.…”

Section: Introductionmentioning

confidence: 99%

Fluorescent gels: a review of synthesis, properties, applications and challenges

Young

Loh

2019

Mater. Chem. Front.

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129

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A Recent Perspective on Noncovalently Formed Polymeric Hydrogels

Cited by 35 publications

References 137 publications

Use of biomaterials for sustained delivery of anti-VEGF to treat retinal diseases

Use of biomaterials for sustained delivery of anti-VEGF to treat retinal diseases

Recent Progress in 3D Printing of Elastic and High-Strength Hydrogels for the Treatment of Osteochondral and Cartilage Diseases

Fluorescent gels: a review of synthesis, properties, applications and challenges

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