Composite nanoparticle-based vesicles achieve enhanced delivery effects of the natural plant extract of the root, stem, and fruit
Xiaodong Zhuang, Ting Ma, Risheng Liu, Xingyue Fang, Liangjiu Huang

TL;DR
Researchers developed composite nanoparticles to improve the delivery of plant extracts, showing better therapeutic effects, especially for glioma treatment.
Contribution
The study introduces CaCO3-based composite nanoparticles for enhanced delivery of plant extract compounds with improved entrapment and release performance.
Findings
Ginseng extract-loaded CaCO3 NPs showed high entrapment efficiency (55.2% ± 6.7%) and good release under acidic conditions.
Intravenous injection of ginseng CaCO3 NPs significantly improved glioma treatment outcomes.
The composite nanoparticles demonstrated spherical shapes and narrow size distribution, indicating good structural consistency.
Abstract
The extract of medicinal plants is increasingly popular around the whole world due to its attractive therapeutic effects. However, the bioavailability of the extract of bioactive compounds was barely satisfactory due to its easily deactivated and untargeted properties. The use of nanotechnology to develop novel carrier delivery techniques for bioactive extracts has been proven to have significant potential and provides an amazing improvement in the therapeutic effect. Calcium carbonate nanoparticles (CaCO3 NPs), as representative biodegradable materials, are well recognized as environmentally responsive delivery vehicles for disease treatment. In this study, extracts of the root of ginseng, the fruit of Alpinia oxyphylla Miq., and the stem of Millettia speciosa Champ. were developed as a CaCO3 nanoparticle loading drug. All of the three composite nanoparticles exhibited spherical shapes…
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Taxonomy
TopicsNatural product bioactivities and synthesis · Phytochemistry and Biological Activities · Curcumin's Biomedical Applications
