实现胰腺靶向给药标志着胰腺疾病治疗的突破，但精确给药仍具有挑战性。由于胰腺中药物积累不足，胰腺疾病的治疗长期受到限制。在这种情况下，由于局部药物浓度增加，腹膜内给药疗法在控制腹内疾病方面显示出前景。

Tiny particles bounce light around in a unique way, a property that researchers are using to detect pollutants in water and ...

A collaborative study by Guangzhou Medical University and South China University of Technology, published in BME Frontiers, ...

The tiny fatty capsules that deliver COVID-19 mRNA vaccines into billions of arms may work better when they're a little disorganized. That's the surprising finding from researchers who developed a new ...

A near-infrared light beam appears harmless, as it is a low-frequency type of light that does not have a dramatic effect but ...

Plastic contamination in freshwater ecosystems continues to rise, resulting in micro- and nanoparticle accumulation in the aquatic environment. A new study by an aquatic ecology group at the ...

Nanoparticles coated with the molecular sensors could be used in at-home diagnostics. Researchers at MIT and Microsoft have used artificial intelligence to create molecular sensors that could detect ...

Researchers at UChicago have developed a nanoparticle system that can effectively deliver mRNA to insulin-producing cells, protecting them from the body’s autoimmune response ...

Precisely tuning the spacing between iron oxide nanoparticles optimizes their magnetic interactions to enhance MRI contrast, ...

A new generation of “theranostic” nanoparticles has been shown to both detect and reduce plaques in the arteries. Nanoparticles absorbed by immune cells in the arteries, where they work to lower ...