[ 68 Ga]/[ 188 Re] Complexed [CDTMP] Trans-1,2-Cyclohexyldinitrilotetraphosphonic Acid As a Theranostic Agent for Skeletal Metastases

Metastasis of the osseous tissue is one of the frequent and severe aggravations as a result of several neoplastic conditions, such as metabolic disorders, infections, and cancer. The objective of this study was to evaluate the pertinence of [ Ga]-trans-1,2-cyclohexyldinitrilo tetramethylene phosphon...

Full description

Saved in:
Bibliographic Details
Published in:Frontiers in medicine 2017-06, Vol.4, p.72-72
Main Authors: Jaswal, Ambika P, Meena, Virendra K, Prakash, Surbhi, Pandey, Ankita, Singh, Baljinder, Mishra, Anil K, Hazari, Puja P
Format: Article
Language:English
Subjects:
188Re
68Ga
CDTMP
Medicine
positron emission tomography imaging
radionuclide
radiopharmaceutical
Citations: Items that this one cites
Items that cite this one
Online Access:Get full text
Tags: Add Tag
No Tags, Be the first to tag this record!
Description
Summary:Metastasis of the osseous tissue is one of the frequent and severe aggravations as a result of several neoplastic conditions, such as metabolic disorders, infections, and cancer. The objective of this study was to evaluate the pertinence of [ Ga]-trans-1,2-cyclohexyldinitrilo tetramethylene phosphonic acid (CDTMP) as a potential bone imaging agent for positron emission tomography (PET) applications as well as to assess [ Re]-CDTMP for bone pain palliation in metastatic skeletal disorders. Ga complex of CDTMP was prepared at 80°C at pH 3.5, and Re complex of CDTMP was prepared at room temperature. [ Ga]-CDTMP complex was investigated as PET tracer while the therapeutic efficacy was assessed for [ Re]-CDTMP. Labeling efficiency, biodistribution, myelotoxicity, and imaging studies were carried out for the complexes synthesized. Both PET and MicroPET imaging studies were performed for [ Ga]-CDTMP whereas SPECT acquisitions were acquired for [ Re]-CDTMP. Data were analyzed semiquantitatively for all the scintigraphic scans obtained. The radiolabeling efficiency was observed to be >70% for [ Ga]-CDTMP. High bone uptake of [ Ga]-CDTMP as compared to contralateral tissue was found in PET imaging in Balb/C mice and New Zealand rabbit; the similar result for bone uptake was correlated in the biodistribution study of the compound in BALB/c mice at different time intervals. Biodistribution experiments carried out in mice showed maximum uptake of 6.12 ± 1.22%ID/g at 45 min postinjection. For [ Re]-CDTMP, total skeletal uptake was 8.12 ± 1.11%ID/g observed at 1 h postinjection from biodistribution data. High renal uptake confirms renal route of excretion. A good hydroxyapatite binding too was seen for both the complexes. No evidence of destruction or adverse functioning of vital organs was observed for the Re complex. [ Ga]-CDTMP complex can be used as a promising PET bone imaging agent and [ Re]-CDTMP as a surrogate moiety for therapeutic application. Owing to the short half-life of Ga (68 min), cyclotron-independent radiopharmacy, fast clearance, and rapid renal excretion as evidenced in preclinical animal models. Very low myelotoxicity and highly selective bone uptake prove the potential of [ Re]-CDTMP for therapeutic application.
ISSN:2296-858X
2296-858X
DOI:10.3389/fmed.2017.00072