João Rodrigues scite author profile

Injectable hydrogels with biodegradability have in situ formability which in vitro/in vivo allows an effective and homogeneous encapsulation of drugs/cells, and convenient in vivo surgical operation in a minimally invasive way, causing smaller scar size and less pain for patients. Therefore, they have found a variety of biomedical applications, such as drug delivery, cell encapsulation, and tissue engineering. This critical review systematically summarizes the recent progresses on biodegradable and injectable hydrogels fabricated from natural polymers (chitosan, hyaluronic acid, alginates, gelatin, heparin, chondroitin sulfate, etc.) and biodegradable synthetic polymers (polypeptides, polyesters, polyphosphazenes, etc.). The review includes the novel naturally based hydrogels with high potential for biomedical applications developed in the past five years which integrate the excellent biocompatibility of natural polymers/synthetic polypeptides with structural controllability via chemical modification. The gelation and biodegradation which are two key factors to affect the cell fate or drug delivery are highlighted. A brief outlook on the future of injectable and biodegradable hydrogels is also presented (326 references).

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Biodegradable Polymer Nanogels for Drug/Nucleic Acid Delivery

Maciel

et al. 2015

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Laponite®: A key nanoplatform for biomedical applications?

Tomás

Alves

Rodrigues

2018

Nanomedicine: Nanotechnology, Biology and Medicine

256

187

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Functionalization of poly(amidoamine) dendrimers with hydrophobic chains for improved gene delivery in mesenchymal stem cells

Santos

Oliveira

Pandita

et al. 2010

Journal of Controlled Release

175

124

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Dendrimers in combination with natural products and analogues as anti-cancer agents

et al. 2018

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For the first time, an overview of dendrimers in combination with natural products and analogues as anti-cancer agents is presented. This reflects the development of drug delivery systems, such as dendrimers, to tackle cancers. The most significant advantages of using dendrimers in nanomedicine are their high biocompatibility, good water solubility, and their entry - with or without encapsulated, complexed or conjugated drugs - through an endocytosis process. This strategy has accelerated over the years in order to develop nanosystems as nanocarriers, to decrease the intrinsic toxicity of anti-cancer agents, to decrease the drug side effects, to increase the efficacy of the treatment, and consequently to improve patient compliance.

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João Rodrigues

Injectable and biodegradable hydrogels: gelation, biodegradation and biomedical applications

Biodegradable Polymer Nanogels for Drug/Nucleic Acid Delivery

Laponite®: A key nanoplatform for biomedical applications?

Functionalization of poly(amidoamine) dendrimers with hydrophobic chains for improved gene delivery in mesenchymal stem cells

Dendrimers in combination with natural products and analogues as anti-cancer agents

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