María Molina scite author profile

Nanogels are nanosized crosslinked polymer networks capable of absorbing large quantities of water. Specifically, smart nanogels are interesting because of their ability to respond to biomedically relevant changes like pH, temperature, etc. In the last few decades, hybrid nanogels or composites have been developed to overcome the ever increasing demand for new materials in this field. In this context, a hybrid refers to nanogels combined with different polymers and/or with nanoparticles such as plasmonic, magnetic, and carbonaceous nanoparticles, among others. Research activities are focused nowadays on using multifunctional hybrid nanogels in nanomedicine, not only as drug carriers but also as imaging and theranostic agents. In this review, we will describe nanogels, particularly in the form of composites or hybrids applied in nanomedicine.

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Micro- and nanogels with labile crosslinks – from synthesis to biomedical applications

Zhang

et al. 2015

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Micro- or nanosized three-dimensional crosslinked polymeric networks have been designed and described for various biomedical applications, including living cell encapsulation, tissue engineering, and stimuli responsive controlled delivery of bioactive molecules. For most of these applications, it is necessary to disintegrate the artificial scaffold into nontoxic residues with smaller dimensions to ensure renal clearance for better biocompatibility of the functional materials. This can be achieved by introducing stimuli-cleavable linkages into the scaffold structures. pH, enzyme, and redox potential are the most frequently used biological stimuli. Moreover, some external stimuli, for example light and additives, are also used to trigger the disintegration of the carriers or their assembly. In this review, we highlight the recent progress in various chemical and physical methods for synthesizing and crosslinking micro- and nanogels, as well as their development for incorporation of cleavable linkages into the network of micro- and nanogels.

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Thermosensitive dendritic polyglycerol-based nanogels for cutaneous delivery of biomacromolecules

Witting

Molina

Obst

et al. 2015

Nanomedicine: Nanotechnology, Biology and Medicine

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NIR- and thermo-responsive semi-interpenetrated polypyrrole nanogels for imaging guided combinational photothermal and chemotherapy

Theune

Buchmann

Wedepohl

et al. 2019

Journal of Controlled Release

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Pressure and microwave sensors/actuators based on smart hydrogel/conductive polymer nanocomposite

Rivero

Molina

Rivarola

et al. 2014

Sensors and Actuators B: Chemical

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María Molina

Stimuli-responsive nanogel composites and their application in nanomedicine

Micro- and nanogels with labile crosslinks – from synthesis to biomedical applications

Thermosensitive dendritic polyglycerol-based nanogels for cutaneous delivery of biomacromolecules

NIR- and thermo-responsive semi-interpenetrated polypyrrole nanogels for imaging guided combinational photothermal and chemotherapy

Pressure and microwave sensors/actuators based on smart hydrogel/conductive polymer nanocomposite

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