Title :
In vivo bio-distribution of intravenously injected Tc-99 m labeled ferrite nanoparticles bounded with biocompatible medicals
Author :
Fu, Chao-Ming ; Wang, Yuh-Feng ; Guo, Yu-Feng ; Lin, Tang-Yi ; Chiu, Jainn-Shiun
Author_Institution :
Appl. Phys. Dept., Nat. Univ. of Kaoshiung, Taiwan
Abstract :
In vivo bio-distribution of directly radioisotope (Tc-99 m) labeled with ferrite (Fe3O4) nanoparticles, conjugated with Poly(ethyelene glycol) (PEG), upon intravenous injection into rats was studied. The time evolution of bio-distribution of the radio-beads was investigated by analyzing the scintigrams monitored with a planar gamma camera. From the scintigraphic images, the PEG conjugated ferrite radiobeads have demonstrated a reduction of uptake by organs. Whereas, the ferrite-radiobeads have shown a fast and great uptake by the liver during the first few blood circulations. Therapeutic applications by further conjugation of the ferrite radiobeads with herb medicals, such as Gentiana combination and Trionyx sinensis, are feasible.
Keywords :
iron compounds; nanoparticles; radioactive tracers; radioisotope imaging; superparamagnetism; Fe3O4; Tc-99 m; biocompatible medicals; directly radioisotope; ferrite nanoparticles; ferrite radiobeads; gentiana combination; herb medicals; in vivo bio-distribution; intravenous injection; nuclear imaging; planar gamma camera; poly(ethyelene glycol); radioisotopes; scintigraphic images; trionyx sinensis; Biomedical imaging; Cameras; Ferrites; In vivo; Iron; Liver; Monitoring; Nanoparticles; Radioactive materials; Rats; Bio-distribution; ferrites; nano-particles; nuclear imaging; radioisotopes;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2005.855335
