Highly Efficient Drug Delivery with Gold Nanoparticle Vectors for in Vivo Photodynamic Therapy of Cancer
Chemical Dynamics (United States) · Case Western Reserve University · +1 more institution
Abstract
A highly efficient drug vector for photodynamic therapy (PDT) drug delivery was developed by synthesizing PEGylated gold nanoparticle conjugates, which act as a water-soluble and biocompatible "cage" that allows delivery of a hydrophobic drug to its site of PDT action. The dynamics of drug release in vitro in a two-phase solution system and in vivo in cancer-bearing mice indicates that the process of drug delivery is highly efficient, and passive targeting prefers the tumor site. With the Au NP-Pc 4 conjugates, the drug delivery time required for PDT has been greatly reduced to less than 2 h, compared to 2 days for the free drug.
Citation impact
- FWCI
- 28.76
- Percentile
- 100%
- References
- 41
Authors
6- YCYu ChengCorresponding
Chemical Dynamics (United States), Case Western Reserve University, Nanomaterials Research (United States)
- ACAnna Cristina S. Samia
Chemical Dynamics (United States), Nanomaterials Research (United States), Case Western Reserve University
- JMJoseph Meyers
Case Western Reserve University, Nanomaterials Research (United States), Chemical Dynamics (United States)
- IPIrene. Panagopoulos
Case Western Reserve University, Nanomaterials Research (United States), Chemical Dynamics (United States)
- BFBaowei Fei
Nanomaterials Research (United States), Case Western Reserve University, Chemical Dynamics (United States)
Topics & keywords
- Photodynamic therapy
- Drug delivery
- Chemistry
- In vivo
- Drug
- Conjugate
- Colloidal gold
- Targeted drug delivery
- Good health and well-being