Themed collection JMC B Top Picks collection: Recent advances in drug delivery

Multilevel structures of electrospun membranes can be controlled and the designed structures can strongly affect cell behavior and drug delivery.

Gold nanoparticles and their conjugates as drug delivery vehicles for selective targeting of cancer cells.

Schematized types of interactions of dendrimers with drugs or biologically active substances.

This review summarized the most advanced designs of stimuli-responsive drug delivery systems based on inorganic nanoparticles.

In the last decade, using polymer and mesoporous silica materials as efficient drug delivery carriers has attracted great attention.

This review addresses the advantages of remote triggers, e.g. ultrasounds, near infrared light and alternating magnetic fields, the fabrication of the hybrid nanovehicles, the release mechanisms and the next challenges.

The synthesis of porphyrin-functionalized ethylene-based mesoporous organosilica nanoparticles was performed.

Herein, the luminescent GQD gated nanocarriers not only responded to the pH signals in cancer cells, but also tracked the delivery of anticancer drugs.

The carbonized fluorescence hyaluronic acid (HA-FCN) for triggered target bioimaging ability have conjugated with β-cyclodextrin (CD) to release PTX by intracellular pH as well as remote photothermal NIR light control.

Doxorubicin is effectively loaded into disulfide-crosslinked poly(N-isopropylacrylamide-co-acrylic acid) nanogels, which can be triggerably released in a heating or reducing acidic tumor microenvironment.

Cationic nanovectors loaded with Ru-based nucleolipids exert a high growth-inhibitory activity against human cancer cells (MCF-7 (A), WiDr (B), and HeLa (C)).

An illustration of versatile construction of biodegradable glycopolymer-PCL micelles with tailored LBA-functionality for hepatoma-targeted drug delivery.

Microwave-assisted hydrothermal synthesis of porous hollow microspheres of amorphous calcium phosphate using adenosine triphosphate, CaCl₂ and soybean lecithin is reported.

Tunable stellate mesoporous silica nanoparticles are functionalized with low molecular poly(ethylene imine) for efficient label-free intracellular drug delivery.

This paper reports the development of a multifunctional nanocarrier platform consisting of paramagnetic graphene quantum dots, folate, and doxorubicin for simultaneous fluorescence and MR imaging, and cancer treatment.

A smart drug delivery system, DOX@MSN-S-S-RGD, was constructed by anchoring the RGD containing peptides onto the surface of MSNs using disulfide bonds for enhanced tumor cellular uptake and subsequent efficient cell killing.

Antimicrobial activity of antibiotic-loaded silica nanoparticle–collagen composite hydrogels.

A self-assembly approach is developed for the fabrication of doxorubicin-loaded supramolecular nanoparticles for targeted drug delivery for in vitro and in vivo cancer treatment.

We demonstrate that g-C₃N₄ nanosheets with excellent biocompatibility can be employed as photosensitizers and drug nanocarriers for cancer imaging and therapy.

GCMC simulation is the workhorse for simulating adsorption phenomena, explaining and predicting new experimental results for drug delivery applications.