Zinc-ferrite, nickel-ferrite and mixed nickel-zinc ferrites were successfully synthesized via the thermal decomposition method from acetylacetonate complexes. To control the particle size and enhance dispersibility in an aqueous medium, starch, a natural and biocompatible compound, was used for the first time for coating such magnetic powders. X-ray powder diffraction (XRPD) was performed to study the structural properties of all samples. The presence of a single-phase spinel structure as well as the cation distribution in both sites of all investigated magnetic powders was confirmed. The values of unit cell parameters obtained from the results of the Rietveld analysis decreased, while the average crystallite size increased with increasing Ni 2+ content. The average microstrain parameters unambiguously showed a change in the spinel structure with cation distribution. Scanning electron 2 microscopy (SEM), energy-dispersive X-ray spectroscopy (EDS) and Fourier transform infrared spectroscopy (FTIR) analyses were also utilized to characterize the synthesized materials, corroborating the XRPD data. The obtained results indicated that functionalization by starch was successfully achieved.
The extensive development of radiopharmaceuticals towards early tumour detection and treatment has increased the demand for new ligands with higher tumour selectivity. Research has been done on the potential of the novel O,O′-diethylethylenediamine-N, Tc complex showed a low lipophilic character (log P = 0.48) and low binding affinity to human serum albumin (2.51 ± 0.48%). In vitro stability studies in saline and human plasma, as well as challenge studies with cysteine and histidine, revealed high stability of the complex during 24 h. Biodistribution studies of Tc1 in female C57BL/6 mice bearing B16/F1 melanoma metastases showed significant tumour uptake: 9.81 ± 1.19%ID g À1 in the liver, 5.87 ± 0.54%ID g À1 in the lungs and 3.17 ± 0.33%ID g À1 in the ovary at 30 min post-injection. Favourable physicochemical properties, satisfactory in vitro/in vivo stability and biodistribution profile in the experimental metastatic melanoma model indicate the possible application of the radiolabelled ligand in tumour diagnosis.
Table of contentsOP03 Selective extraction of medically-related radionuclides from proton-irradiated thorium targetsV. Radchenko, J.W. Engle, C. Roy, J. Griswold, M.F. Nortier, E.R. Birnbaum, M. Brugh, S. Mirzadeh, K. D. John, M.E. FassbenderOP04 Comparison of [68Ga]FSC(succ-RGD)3 and [68Ga]NODAGA-RGD for PET imaging of αvβ3 integrin expressionChuangyan Zhai, Gerben M. Franssen, Milos Petrik, Peter Laverman, Clemens DecristoforoOP05 A new NPY-Y1R targeting peptide for breast cancer PET imagingAit-Mohand Samia, Dumulon-Perreault Véronique, Guérin BrigitteOP06 The influence of multivalency on CCK 2 receptor targetingD. Summer, A. Kroess, C. Rangger, H. Haas, P. Laverman, F. Gerben, E. von Guggenberg, C.DecristoforoOP07 SPECT Imaging of αvβ3 Expression by [99mTc(N)PNP43]- Bifunctional Chimeric RGD Peptide not Cross-Reacting with αvβ5Cristina Bolzati, Nicola Salvarese, Fiorenzo Refosco, Laura Meléndez-Alafort, Debora Carpanese, Antonio Rosato, Michele Saviano, Annarita Del Gatto, Daniela Comegna, Laura ZaccaroOP09 New dienophiles for the inverse-electron-demand Diels-Alder reaction and for pretargeted PET imagingEmilie Billaud, Muneer Ahamed, Frederik Cleeren, Elnaz Shahbazali, Tim Noël, Volker Hessel, Alfons Verbruggen and Guy BormansOP10 New complexing agent for Al18F-labelling of heat-sensitive biomolecules: Synthesis and preclinical evaluation of Al18F-RESCA1-HASCleeren F, Lecina J, Koole M, Verbruggen A and Bormans GOP11 A novel versatile precursor efficient for F-18 radiolabelling via click-chemistryB. Lugatoa, S. Stucchia, E.A. Turollaa, L. Giulianoa, S.Toddea, P. FerraboschibOP12 A general applicable method to quantify unidentified UV impurities in radiopharmaceuticalsR.P. Klok, M.P.J. Mooijer, N.H. Hendrikse, A.D. WindhorstOP13 Development of [18F]Fluoro-C-glycosides to radiolabel peptidesCollet C., Petry N., Chrétien F., Karcher G., Pellegrini-Moïse N., Lamandé-Langle S.OP14 A Microfluidic Approach for the 68Ga-labeling of PSMAHBED-CC and NODAGA-RGDSarah Pfaff, Cecile Philippe, Markus Mitterhauser, Marcus Hacker, Wolfgang WadsakOP16 Surprising reactivity of astatine in the nucleophilic substitution of aryliodonium salts: application to the radiolabeling of antibodiesFrançois Guérard, Yong-Sok Lee, Sébastien Gouard, Kwamena Baidoo, Cyrille Alliot, Michel Chérel, Martin W. Brechbiel, Jean-François GestinOP17 64Cu-NOTA-pertuzumab F(ab')2 fragments, a second-generation probe for PET imaging of the response of HER2-positive breast cancer to trastuzumab (Herceptin)Lam K, Chan C, Reilly RMOP18 Development of radiohalogenated analogues of a avb6-specific peptide for high LET particle emitter targeted radionuclide therapy of cancerSalomé Paillas, John Marshall, Jean-Pierre Pouget, Jane SosabowskiOP19 Ligand Specific Efficiency (LSE) as a guide in tracer optimizationEmmanuelle Briard, Yves P. Auberson, John Reilly, Mark Healy, David SykesOP23 The radiosynthesis of an 18F-labeled triglyceride, developed to visualize and quantify brown adipose tissue activityAndreas Paulus, Wouter van Marken Lichtenbelt,Felix Mottaghy,...
Introduction The suitability of 90 Y-labeled antimony trisulfi de colloid (ATC) for the preparation of therapeutic radiopharmaceutical was studied taking into accounts its physicochemical properties and biological behavior in rats. Material and methods The labeling effi ciency of 90 Y-and 99 mTc-labeled colloid particles was investigated by ITLC-SG and paper chromatography, the in vitro stability of the colloid was tested in human serum, while in vivo experiments were performed on healthy Wistar rats. Analysis of the particles enclosed the size (TEM), determination of the zeta potential (Zetasizer Nano) as well as radioactivity particle size distribution (fi ltration analysis). Results 90 Y-labeled ATC can be prepared in high yield under investigated conditions Labeling effi ciency was >95% and fi ltration analysis showed that more than 90% of radioactive particles were smaller than 20 nm. The particles with the size range of 6-22 nm were achieved by using polyvinyipyrrolidone (mol wt ~44,000). The 90 Y-ATC was quite stable in vitro in human serum. Tissue distribution studies in rats confi rmed that the liver and spleen uptake of 90 Y-labeled colloid was threefold lower in comparison with 99 mTc-ATC, although the bone uptake was fi ve-fold higher at 20 min post injection. Conclusions 90 Y-labeled ATC showed high labeling effi ciency and good stability, and might be well suited for therapeutic application in nuclear medicine.
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