Di Pasqua AJ, Yuan H, Chung Y, Kim JK, Huckle JE, Li C, Sadgrove M, Tran TH, Jay M, Lu X. Neutron-activatable holmium-containing mesoporous silica nanoparticles as a potential radionuclide therapeutic agent for ovarian cancer.
J Nucl Med 2012;
54:111-6. [PMID:
23100452 DOI:
10.2967/jnumed.112.106609]
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Abstract
UNLABELLED
Mesoporous silica nanoparticles (MSNs) were explored as a carrier material for the stable isotope (165)Ho and, after neutron capture, its subsequent therapeutic radionuclide, (166)Ho (half-life, 26.8 h), for use in radionuclide therapy of ovarian cancer metastasis.
METHODS
(165)Ho-MSNs were prepared using (165)Ho-acetylacetonate and MCM-41 silica particles, and stability was determined after irradiation in a nuclear reactor (reactor power, 1 MW; thermal neutron flux of approximately 5.5 × 10(12) neutrons/cm(2)s). SPECT/CT and tissue biodistribution studies were performed after intraperitoneal administration of (166)Ho-MSNs to SKOV-3 ovarian tumor-bearing mice. Radiotherapeutic efficacy was studied by using PET/CT with (18)F-FDG to determine tumor volume and by monitoring survival.
RESULTS
The holmium-MSNs were able to withstand long irradiation times in a nuclear reactor and did not release (166)Ho after significant dilution. SPECT/CT images and tissue distribution results revealed that (166)Ho-MSNs accumulated predominantly in tumors (32.8% ± 8.1% injected dose/g after 24 h; 81% ± 7.5% injected dose/g after 1 wk) after intraperitoneal administration. PET/CT images showed reduced (18)F-FDG uptake in tumors, which correlated with a marked increase in survival after treatment with approximately 4 MBq of (166)Ho-MSNs.
CONCLUSION
The retention of holmium in nanoparticles during irradiation and in vivo after intraperitoneal administration as well as their efficacy in extending survival in tumor-bearing mice underscores their potential as a radiotherapeutic agent for ovarian cancer metastasis.
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