Towards standardization of absolute SPECT/CT quantification: a multi-center and multi-vendor phantom study

Abstract: Absolute quantification of radiotracer distribution using SPECT/CT imaging is of great importance for dosimetry aimed at personalized radionuclide precision treatment. However, its accuracy depends on many factors. Using phantom measurements, this multi-vendor and multi-center study evaluates the quantitative accuracy and inter-system variability of various SPECT/CT systems as well as the effect of patient size, processing software and reconstruction algorithms on recovery coefficients (RC). Methods: Five SPECT/CT systems were included: Discovery™ NM/CT 670 Pro (GE Healthcare), Precedence™ 6 (Philips Healthcare), Symbia Intevo™, and Symbia™ T16 (twice) (Siemens Healthineers). Three phantoms were used based on the NEMA IEC body phantom without lung insert simulating body mass indexes (BMI) of 25, 28, and 47 kg/m2. Six spheres (0.5–26.5 mL) and background were filled with 0.1 and 0.01 MBq/mL 99mTc-pertechnetate, respectively. Volumes of interest (VOI) of spheres were obtained by a region growing technique using a 50% threshold of the maximum voxel value corrected for background activity. RC, defined as imaged activity concentration divided by actual activity concentration, were determined for maximum (RCmax) and mean voxel value (RCmean) in the VOI for each sphere diameter. Inter-system variability was expressed as median absolute deviation (MAD) of RC. Acquisition settings were standardized. Images were reconstructed using vendor-specific 3D iterative reconstruction algorithms with institute-specific settings used in clinical practice and processed using a standardized, in-house developed processing tool based on the SimpleITK framework. Additionally, all data were reconstructed with a vendor-neutral reconstruction algorithm (Hybrid Recon™; Hermes Medical Solutions). Results: RC decreased with decreasing sphere diameter for each system. Inter-system variability (MAD) was 16 and 17% for RCmean and RCmax, respectively. Standardized reconstruction decreased this variability to 4 and 5%. High BMI hampers quantification of small lesions (< 10 ml). Conclusion: Absolute SPECT quantification in a multi-center and multi-vendor setting is feasible, especially when reconstruction protocols are standardized, paving the way for a standard for absolute quantitative SPECT

An international multi-center investigation on the accuracy of radionuclide calibrators in nuclear medicine theragnostics

Background: Personalized molecular radiotherapy based on theragnostics requires accurate quantification of the amount of radiopharmaceutical activity administered to patients both in diagnostic and therapeutic applications. This international multi-center study aims to investigate the clinical measurement accuracy of radionuclide calibrators for 7 radionuclides used in theragnostics: 99mTc, 111In, 123I, 124I, 131I, 177Lu, and 90Y. Methods: In total, 32 radionuclide calibrators from 8 hospitals located in the Netherlands, Belgium, and Germany were tested. For each radio

Monte Carlo simulations of ceiling scatter in nuclear medicine:^99mTc, ¹³¹I and ¹⁸F

Purpose: In the design of nuclear medicine treatment and examination rooms, an important consideration is the shielding required for ionizing radiation from the radioactive isotopes used. The shielding in the walls is normally limited to a height lower than the actual ceiling height. The direct radiation, possibly with build-up correction, can be calculated relatively easily. However, little data are available to estimate the dose contribution from ionizing radiation traveling over the wall shielding and scattering off the ceiling. We aim to determine the contribution of the ceiling scatter to the radiation dose outside nuclear medicine rooms. Methods: Monte Carlo simulations were performed using Gate for different heights of lead shielding in the wall, and different ceiling heights. A point source in air of (99)m Tc (141 keV), I-131 (365 keV) or F-18 (511 keV) was placed 1.0 m above the floor, 3.0 m from the lead shielding. Simulations of ceiling scatter only and for the total radiation dose were performed for these 3 isotopes, 5 different ceiling heights and 4-8 different wall shielding heights, resulting in a total of 165 simulations. This allowed us to compare the contribution of the radiation passing through the shielding and the ceiling scatter. Results: We find that the shielding required for the primary radiation, measured in half-value layers, is an important factor in determining the relative contribution of ceiling scatter. When more than about 4 half-value layers of shielding are used, ceiling scatter becomes the dominant factor and should be taken into account in the shielding design. In many practical cases for low energy photons (e.g. from (99)m Tc; (141) keV; half-value layer of 0.26 mm lead), 2 mm of lead is used and ceiling scatter is a dominating factor contributing >similar to 70% of the dose outside the shielded room. For higher energies (e.g. 18 F; 511 keV; half-value layer of 3.9 mm lead) the ceiling scatter is typically less than about 15% when 8 mm of lead shielding is used. Conclusions: We have performed simulations that allow an estimation of the contribution of ceiling scatter to the radiation dose outside a room, based on the ceiling height, shielding height, and isotope used. This will allow for improved shielding designs in nuclear medicine departments. (C) 2017 American Association of Physicists in Medicin

Pharmacokinetic modeling of a novel hypoxia PET tracer [18F]HX4 in patients with non-small cell lung cancer

Background: [F-18]HX4 is a promising new PET tracer developed to identify hypoxic areas in tumor tissue. This study analyzes [F-18]HX4 kinetics and assesses the performance of simplified methods for quantification of [F-18]HX4 uptake. To this end, eight patients with non-small cell lung cancer received dynamic PET scans at three different time points (0, 120, and 240 min) after injection of 426 +/- 72 MBq [F-18]HX4, each lasting 30 min. Several compartment models were fitted to time activity curves (TAC) derived from various areas within tumor tissue using image-derived input functions. Results: Best fits were obtained using the reversible two-tissue compartment model with blood volume parameter (2T4k+V-B). Simplified measures correlated well with V-T estimates (tumor-to-blood ratio (TBr) R-2 = 0.96, tumor-to-muscle ratio R-2 = 0.94, standardized uptake value R-2 = 0.89). Conclusions: [F-18]HX4 shows reversible kinetics in tumor tissue: 2T4k+V-B. TBr based on static imaging at 2 or 4 h can be used for quantification of [F-18]HX4 uptake

Characteristics of a new system for monitoring the leakage factor during regional hyperthermic isolated limb perfusion

RATIONALE: A new system is presented and evaluated for real-time monitoring of blood leakage during hyperthermic isolated limb perfusion (HILP) surgery, the Veenstra HILP system. This system incorporates two software models to determine blood leakage: a single-nuclide algorithm and a newly developed dual-nuclide algorithm. The latter algorithm has the advantage that, in principle, it is independent of system sensitivity and thus independent of changes in geometrical efficiency. A physical description of the system is given, together with the required hardware and software specifications. METHODS: In-vitro measurements, corresponding to the intended clinical use, are presented to investigate the relevant performance characteristics of the system: count rate linearity, measurement uncertainty, response time, and accuracy. As the Veenstra HILP system provides the opportunity to use different filter settings and averaging time, the influence of these settings on the time response and measurement uncertainty is described. RESULTS: Count rate linearity was better than 1% for the count rate domain typically observed during HILP procedures. The response time of the system degrades with increasing total averaging time. In contrast, measurement uncertainty in the blood leakage factor improves with increasing radiotracer count rates and increasing total averaging time. For both blood leakage algorithms, measurement accuracy is better than 1.0 and 1.5%, respectively. CONCLUSION: Measurements have shown that the system is well suited for the real-time monitoring of blood leakage during HILP surgery. Furthermore, a good agreement was observed between the theoretical and measured response time and measurement uncertainty

Towards standardization of absolute SPECT/CT quantification:a multi-center and multi-vendor phantom study

Absolute quantification of radiotracer distribution using SPECT/CT imaging is of great importance for dosimetry aimed at personalized radionuclide precision treatment. However, its accuracy depends on many factors. Using phantom measurements, this multi-vendor and multi-center study evaluates the quantitative accuracy and inter-system variability of various SPECT/CT systems as well as the effect of patient size, processing software and reconstruction algorithms on recovery coefficients (RC). Methods Five SPECT/CT systems were included: Discovery (TM) NM/CT 670 Pro (GE Healthcare), Precedence (TM) 6 (Philips Healthcare), Symbia Intevo (TM), and Symbia (TM) T16 (twice) (Siemens Healthineers). Three phantoms were used based on the NEMA IEC body phantom without lung insert simulating body mass indexes (BMI) of 25, 28, and 47 kg/m(2). Six spheres (0.5-26.5 mL) and background were filled with 0.1 and 0.01 MBq/mL Tc-99m-pertechnetate, respectively. Volumes of interest (VOI) of spheres were obtained by a region growing technique using a 50% threshold of the maximum voxel value corrected for background activity. RC, defined as imaged activity concentration divided by actual activity concentration, were determined for maximum (RCmax) and mean voxel value (RCmean) in the VOI for each sphere diameter. Inter-system variability was expressed as median absolute deviation (MAD) of RC. Acquisition settings were standardized. Images were reconstructed using vendor-specific 3D iterative reconstruction algorithms with institute-specific settings used in clinical practice and processed using a standardized, in-house developed processing tool based on the SimpleITK framework. Additionally, all data were reconstructed with a vendor-neutral reconstruction algorithm (Hybrid Recon (TM); Hermes Medical Solutions). Results RC decreased with decreasing sphere diameter for each system. Inter-system variability (MAD) was 16 and 17% for RCmean and RCmax, respectively. Standardized reconstruction decreased this variability to 4 and 5%. High BMI hampers quantification of small lesions (<10 ml). Conclusion Absolute SPECT quantification in a multi-center and multi-vendor setting is feasible, especially when reconstruction protocols are standardized, paving the way for a standard for absolute quantitative SPECT

Multicenter Harmonization of Zr-89 PET/CT Performance

This study investigated the feasibility of quantitative accuracy and harmonized image quality in Zr-89-PET/CT multicenter studies. Methods: Five PET/CT scanners from 3 vendors were included. Zr-89 activity was measured in a central dose calibrator before delivery. Local activity assays were based on volume as well as on the local dose calibrator. Accuracy and image noise were determined from a cross calibration experiment. Image quality was assessed from recovery coefficients derived from different volume-of-interest (VOI) methods (VOIA50%, based on a 3-dimensional isocontour at 50% of the maximum voxel value with local background correction; VOImax, based on the voxel with the highest uptake; and VOI3Dpeak, based on a spheric VOI of 1.2-cm diameter positioned so as to maximize the enclosed average). PET images were analyzed before and after postreconstruction smoothing, applied to match image noise. Results: PET/CT accuracy and image noise ranged from -3% to 10% and from 13% to 22%, respectively. VOI3Dpeak produced the most reproducible recovery coefficients. After calibration of the local dose calibrator to the central dose calibrator, differences between the local activity assays were within 6%. Conclusion: This study showed that quantitative accuracy and harmonized image quality can be reached in Zr-89 PET/CT multicenter studies

18Th European Symposium On Radiopharmacy And Radiopharmaceuticals

OP03 Selective extraction of medically-related radionuclides from proton-irradiated thorium targets, V. Radchenko, J.W. Engle, C. Roy, J. Griswold, M.F. Nortier, E.R. Birnbaum, M. Brugh, S. Mirzadeh, K. D. John, M.E. Fassbender, OP04 Comparison of [68Ga]FSC(succ-RGD)3 and [68Ga]NODAGA-RGD for PET imaging of αvβ3 integrin expression, Chuangyan Zhai, Gerben M. Franssen, Milos Petrik, Peter Laverman, Clemens Decristoforo, OP05 A new NPY-Y1R targeting peptide for breast cancer PET imaging, Ait-Mohand Samia, Dumulon-Perreault Véronique, Guérin Brigitte, OP06 The influence of multivalency on CCK 2 receptor targeting, D. Summer, A. Kroess, C. Rangger, H. Haas, P. Laverman, F. Gerben, E. von Guggenberg, C.Decristoforo, OP07 SPECT Imaging of αvβ3 Expression by [99mTc(N)PNP43]- Bifunctional Chimeric RGD Peptide not Cross-Reacting with αvβ5, Cristina Bolzati, Nicola Salvarese, Fiorenzo Refosco, Laura Meléndez-Alafort, Debora Carpanese, Antonio Rosato, Michele Saviano, Annarita Del Gatto, Daniela Comegna, Laura Zaccaro, OP09 New dienophiles for the inverse-electron-demand Diels-Alder reaction and for pretargeted PET imaging, Emilie Billaud, Muneer Ahamed, Frederik Cleeren, Elnaz Shahbazali, Tim Noël, Volker Hessel, Alfons Verbruggen and Guy Bormans, OP10 New complexing agent for Al18F-labelling of heat-sensitive biomolecules: Synthesis and preclinical evaluation of Al18F-RESCA1-HAS, Cleeren F, Lecina J, Koole M, Verbruggen A and Bormans G, OP11 A novel versatile precursor efficient for F-18 radiolabelling via click-chemistry, B. Lugatoa, S. Stucchia, E.A. Turollaa, L. Giulianoa, S.Toddea, P. Ferraboschib, OP12 A general applicable method to quantify unidentified UV impurities in radiopharmaceuticals, R.P. Klok, M.P.J. Mooijer, N.H. Hendrikse, A.D. Windhorst, OP13 Development of [18F]Fluoro-C-glycosides to radiolabel peptides, Collet 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-RGD, Sarah Pfaff, Cecile Philippe, Markus Mitterhauser, Marcus Hacker, Wolfgang Wadsak, OP16 Surprising reactivity of astatine in the nucleophilic substitution of aryliodonium salts: application to the radiolabeling of antibodies, François Guérard, Yong-Sok Lee, Sébastien Gouard, Kwamena Baidoo, Cyrille Alliot, Michel Chérel, Martin W. Brechbiel, Jean-François Gestin, OP17 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 RM, OP18 Development of radiohalogenated analogues of a avb6-specific peptide for high LET particle emitter targeted radionuclide therapy of cancer, Salomé Paillas, John Marshall, Jean-Pierre Pouget, Jane Sosabowski, OP19 Ligand Specific Efficiency (LSE) as a guide in tracer optimization, Emmanuelle Briard, Yves P. Auberson, John Reilly, Mark Healy, David Sykes, OP23 The radiosynthesis of an 18F-labeled triglyceride, developed to visualize and quantify brown adipose tissue activity, Andreas Paulus, Wouter van Marken Lichtenbelt,Felix Mottaghy, Matthias Bauwens, OP24 Influence of the fluorescent dye on the tumor targeting properties of dual-labeled HBED-CC based PSMA inhibitors, Baranski, Ann-Christin, Schäfer, Martin, Bauder-Wüst, Ulrike, Haberkorn, Uwe, Eder, Matthias, Kopka, Klaus, OP25 [18F]MEL050 as a melanin PET tracer : fully automated radiosynthesis and evaluation for the detection of pigmented melanoma in mice pulmonary metastases, Chaussard M, Hosten B, Vignal N, Tsoupko-Sitnikov V, Hernio N, Hontonnou F, Merlet P, Poyet JL, Sarda-Mantel L, Rizzo-Padoin N, OP26 Design and Preclinical Evaluation of Novel Radiofluorinated PSMA Targeting Ligands Based on PSMA-617, J. Cardinale, M. Schäfer, M. Benešová, U. Bauder-Wüst, O. Seibert, F. Giesel, U. Haberkorn, M. Eder, K. Kopka, OP27 A novel radiolabeled peptide for PET imaging of prostate cancer: 64Cu-DOTHA2-PEG-RM26, Mansour Nematallah, Paquette Michel, Ait-Mohand Samia, Dumulon-Perreault Véronique, Lecomte Roger, Guérin Brigitte, OP29 Biodistribution of [18F]Amylovis®, a new radiotracer PET imaging of β-amyloid plaques, Fernandez-Maza L, Rivera-Marrero S, Prats Capote A, Parrado-Gallego A, Fernandez-Gomez I, Balcerzyk M, Sablon-Carrazana M, Perera-Pintado A, Merceron-Martinez D, Acosta-Medina E, Rodriguez-Tanty C, OP30 Synthesis and preclinical evaluation of [11C]-BA1 PET tracer for the imaging of CSF-1R, Bala Attili, Muneer Ahamed, Guy Bormans, OP31 In vivo imaging of the MCHR1 in the ventricular system via [18F]FE@SNAP, C. Philippe, M. Zeilinger, T. Scherer, C. Fürnsinn, M. Dumanic, W. Wadsak, M. Hacker, M. Mitterhauser, OP32 Synthesis of the first carbon-11 labelled P2Y12 receptor antagonist for imaging the anti-inflammatory phenotype of activated microglia, B. Janssen, D.J. Vugts, G.T. Molenaar, U. Funke, P.S. Kruijer, F. Dollé, G. Bormans, A.A. Lammertsma, A.D. Windhorst, OP33 Radiosynthesis of a selective HDAC6 inhibitor [11C]KB631 and in vitro and ex vivo evaluation, Koen Vermeulen, Muneer Ahamed, Michael Schnekenburger, Mathy Froeyen, Dag Erlend Olberg, Marc Diederich, Guy Bormansa, OP34 Improving metabolic stability of fluorine-18 labelled verapamil analogues, Raaphorst RM, Luurtsema G, Lammertsma AA, Elsinga PH, Windhorst AD, OP36 Development of a novel PET tracer for the activin receptor-like kinase 5, Lonneke Rotteveel, Uta Funke, Peter ten Dijke, Harm Jan Bogaard, Adriaan A. Lammertsma, Albert D. Windhorst, OP37 SPECT imaging and biodistribution studies of 111In-EGF-Au-PEG nanoparticles in vivo, Lei Song, Sarah Able, Nadia Falzone, Veerle Kersemans, Katherine Vallis, OP38 Melanoma targeting with [99mTc(N)(PNP3)]-labeled NAPamide derivatives: preliminary pharmacological studies, Davide Carta, Nicola Salvarese, Wiebke Sihver, Feng Gao, Hans Jürgen Pietzsch, Barbara Biondi, Paolo Ruzza, Fiorenzo Refosco, Cristina Bolzati, OP39 [68Ga]NODAGA-RGD: cGMP synthesis and data from a phase I clinical study, Roland Haubner, Armin Finkensted, Armin Stegmair, Christine Rangger, Clemens Decristoforo, Heinz Zoller, Irene J. Virgolin, OP44 Implementation of a GMP-grade radiopharmacy facility in Maastricht, Ivo Pooters, Maartje Lotz, Roel Wierts, Felix Mottaghy, Matthias Bauwens, OP45 Setting up a GMP production of a new radiopharmaceutical, Forsback, Sarita, Bergman Jörgen, Kivelä Riikka, OP48 In vitro and in vivo evaluation of 68-gallium labeled Fe3O4-DPD nanoparticles as potential PET/MRI imaging agents, M. Karageorgou, M. Radović, C. Tsoukalas, B. Antic, M. Gazouli, M. Paravatou-Petsotas, S. Xanthopouls, M. Calamiotou, D. Stamopoulos, S. Vranješ-Durić, P. Bouziotis, OP49 Fast PET imaging of inflammation using 68Ga-citrate with Fe-containing salts of hydroxy acids, A. S. Lunev, A. A. Larenkov, K.A. Petrosova, O. E. Klementyeva, G. E. Kodina, PP01 Installation and validation of 11C-methionine synthesis, Kvernenes, O.H., Adamsen, T.C.H., PP02 Fully automated synthesis of 68Ga-labelled peptides using the IBA Synthera® and Synthera® Extension modules, René Martin, Sebastian Weidlich, Anna-Maria Zerges, Cristiana Gameiro, Neva Lazarova, Marco Müllera, PP03 GMP compliant production of 15O-labeled water using IBA 18 MeV proton cyclotron, Gert Luurtsema, Michèl de Vries, Michel Ghyoot, Gina van der Woude, Rolf Zijlma, Rudi Dierckx, Hendrikus H. Boersma, Philip H. Elsinga, PP04 In vitro Nuclear Imaging Potential of New Subphthalocyanine and Zinc Phthalocyanine, Fatma Yurt Lambrecht, Ozge Er, Mine Ince, Cıgır Biray Avci, Cumhur Gunduz, Fatma Aslihan Sarı, PP05 Synthesis, Photodynamic Therapy Efficacy and Nuclear Imaging Potential of Zinc Phthalocyanines, Kasim Ocakoglu, Ozge Er, Onur Alp Ersoz, Fatma Yurt Lambrecht, Mine Ince, Cagla Kayabasi, Cumhur Gunduz, PP06 Radio-U(H)PLC – the Search on the Optimal Flow Cell for the γ-Detector, Torsten Kniess, Sebastian Meister, Steffen Fischer, Jörg Steinbach, PP07 Radiolabeling, characterization & biodistribution study of cysteine and its derivatives with Tc99m, Rabia Ashfaq, Saeed Iqbal, Atiq-ur-Rehman, Irfan ullah Khan, PP08 Radiolabelling of poly (lactic-co.glycolic acid) (PLGA) nanoparticles with 99mTC, R Iglesias-Jerez, Cayero-Otero, L. Martín-Banderas, A. Perera-Pintado, I. Borrego-Dorado, PP09 Development of [18F]PD-410 as a non-peptidic PET radiotracer for gastrin releasing peptide receptors, Ines Farinha-Antunes, Chantal Kwizera, Enza Lacivita, Ermelinda Lucente, Mauro Niso, Paola De Giorgio, Roberto Perrone, Nicola A. Colabufo, Philip H. Elsinga, Marcello Leopoldo, PP10 An improved nucleophilic synthesis of 2-(3,4-dimethoxyphenyl)-6-(2-[18F]fluoroethoxy) benzothiazole ([18F]FEDMBT), potential diagnostic agent for breast cancer imaging by PET, V.V. Vaulina, O.S. Fedorova, V.V. Orlovskaja, ?�.L. Chen, G.Y. Li, F.C. Meng, R.S. Liu, H.E. Wang, R.N. Krasikova, PP11 Internal radiation dose assessment of radiopharmaceuticals prepared with accelerator-produced 99mTc, Laura Meléndez-Alafort, Mohamed Abozeid, Guillermina Ferro-Flores, Anna Negri, Michele Bello, Nikolay Uzunov, Martha Paiusco, Juan Esposito, Antonio Rosato, PP12 A specialized five-compartmental model software for pharmacokinetic parameters calculation, Laura Meléndez-Alafort, Cristina Bolzati, Guillermina Ferro-Flores, Nicola Salvarese, Debora Carpanese, Mohamed Abozeid, Antonio Rosato, Nikolay Uzunov, PP13 Molecular imaging of the pharmacokinetic behavior of low molecular weight 18F-labeled PEtOx in comparison to 89Zr-labeled PEtOx, Palmieri L, Verbrugghen T, Glassner M, Hoogenboom R, Staelens S, Wyffels L, PP14 Towards nucleophilic synthesis of the α-[18F]fluoropropyl-L-dihydroxyphenylalanine, V. V. Orlovskaja, O. F. Kuznetsova, O. S. Fedorova, V. I. Maleev, Yu. N. Belokon, A. Geolchanyan, A. S. Saghyan, L. Mu, R. Schibli, S. M. Ametamey, R. N. Krasikova, PP15 A convenient one-pot synthesis of [18F]clofarabine, Revunov, Evgeny, Malmquist, Jonas, Johnström, Peter, Van Valkenburgh, Juno, Steele, Dalton, Halldin, Christer, Schou, Magnus, PP16 BODIPY-estradiol conjugates as multi-modality tumor imaging agents, Samira Osati,Michel Paquette,Simon Beaudoin,Hasrat Ali,Brigitte Guerin, Jeffrey V. Leyton, Johan E. van Lier, PP17 Easy and high yielding synthesis of 68Ga-labelled HBED-PSMA and DOTA-PSMA by using a Modular-Lab Eazy automatic synthesizer, Di Iorio V, Iori M, Donati C, Lanzetta V, Capponi PC, Rubagotti S, Dreger T, Kunkel F, Asti M, PP18 Synthesis and evaluation of fusarinine C-based octadentate bifunctional chelators for zirconium-89 labelling, Chuangyan Zhai, Christine Rangger, Dominik Summer, Hubertus Haas, Clemens Decristoforo, PP19 Fully automated production of [18F]NaF using a re-configuring FDG synthesis module., Suphansa Kijprayoon, Ananya Ruangma, Suthatip Ngokpol, Samart Tuamputsha, PP20 Extension of the Carbon-11 Small Labeling Agents Toolbox and Conjugate Addition, Ulrike Filp, Anna Pees, Carlotta Taddei, Aleksandra Pekošak, Antony D. Gee, Alex J. Poot, Albert D. Windhorst, PP21 In vitro studies on BBB penetration of pramipexole encapsulated theranostic liposomes for the therapy of Parkinson’s disease, Mine Silindir Gunay, A. Yekta Ozer, Suna Erdogan, Ipek Baysal, Denis Guilloteau, Sylvie Chalon, PP22 Factors affecting tumor uptake of 99mTc-HYNIC-VEGF165, Filippo Galli, Marco Artico, Samanta Taurone, Enrica Bianchi, Bruce D. Weintraub, Mariusz Skudlinski, Alberto Signore, PP23 Rhenium-188: a suitable radioisotope for targeted radiotherapy, Nicolas Lepareur, Nicolas Noiret, François Hindré, Franck Lacœuille, Eric Benoist, Etienne Garin, PP24 Preparation of a broad palette of 68Ga radiopharmaceuticals for clinical applications, Trejo-Ballado F, Zamora-Romo E, Manrique-Arias JC, Gama-Romero HM, Contreras-Castañon G, Tecuapetla-Chantes RG, Avila-Rodriguez MA, PP25 68Ga-peptide preparation with the use of two 68Ge/68Ga-generators, H. Kvaternik, D. Hausberger, C. Zink, B. Rumpf, R. M. Aigner, PP26 Assay of HEPES in 68Ga-peptides by HPLC, H. Kvaternik, D. Hausberger, B. Rumpf, R. M. Aigner, PP27 Preparation, in vitro and in vivo evaluation of a 99mTc(I)-Diethyl Ester (S,S)-Ethylenediamine- N,N´-DI-2-(3-Cyclohexyl) Propionic acid as a target-specific radiopharmaceutical, Drina Janković, Mladen Lakić, Aleksandar Savić, Slavica Ristić, Nadežda Nikolić, Aleksandar Vukadinović, Tibor J. Sabo, Sanja Vranješ-Đurić, PP28 90Y-labeled magnetite nanoparticles for possible application in cancer therapy, S. Vranješ-Đurić, M. Radović, D. Janković, N. Nikolić, G. F. Goya, P. Calatayud, V. Spasojević, B. Antić, PP29 Simplified automation of the GMP production of 68Ga-labelled peptides, David Goblet, Cristiana Gameiro, Neva Lazarova, PP30 Combining commercial production of multi-products in a GMP environment with Clinical & R&D activities, Cristiana Gameiro, Ian Oxley, Antero Abrunhosa, Vasko Kramer, Maria Vosjan, Arnold Spaans, PP31 99mTc(CO)3-labeling and Comparative In-Vivo Evaluation of Two Clicked cRGDfK Peptide Derivatives, Kusum Vats, Drishty Satpati, Haladhar D Sarma, Sharmila Banerjee, PP32 Application of AnaLig resin for 99mTc separation from molybdenum excess, Wojdowska W., Pawlak D.W., Parus L. J., Garnuszek P., Mikołajczak R., PP33 Constraints for selection of suitable precursor for one-step automated synthesis of [18F]FECNT, the dopamine transporter ligand, Pijarowska-Kruszyna J, Jaron A, Kachniarz A, Malkowski B, Garnuszek P, Mikolajczak R, PP34 Gamma scintigraphy studies with 99mTc- amoxicillin sodium in bacterially infected and sterile inflamed rats, Derya Ilem-Ozdemir, Oya Caglayan-Orumlu, Makbule Asikoglu, PP35 Preparation of 99mTc- Amoxicillin Sodium Lyophilized Kit, Derya Ilem-Ozdemir, Oya Caglayan-Orumlu, Makbule Asikoglu, PP36 Outfits of Tracerlan FXC-PRO for 11C-Labeling, Arponen Eveliina, Helin Semi, Saarinen Timo, Vauhkala Simo, Kokkomäki Esa, Lehikoinen Pertti, PP37 Microfluidic synthesis of ω-[18F]fluoro-1-alkynes, Mariarosaria De Simone, Giancarlo Pascali, Ludovica Carzoli, Mauro Quaglierini, Mauro Telleschi, Piero A. Salvadori, PP38 Automated 18F-flumazenil production using chemically resistant disposable cassettes, Phoebe Lam, Martina Aistleitner, Reinhard Eichinger, Christoph Artner, PP39 The effect of the eluent solutions (TBAHCO3, Kryptand K2.2.2) on the radiochemical yields of 18F-Fluoromethylcholine, Surendra Nakka, Hemantha Kumara MC, Al-Qahtani Mohammed, PP40 [68Ga]Radiolabeling of short peptide that has a PET imaging potentials, Al-Qahtani, Mohammed, Al-Malki, Yousif, PP41 Is validation of radiochemical purity analysis in a public hospital in a developing country possible?, N Mambilima, SM Rubow, PP42 Improved automated radiosynthesis of [18F]FEPPA, N. Berroterán-Infante, M. Hacker, M. Mitterhauser, W. Wadsak, PP43 Synthesis and initial evaluation of Al18F-RESCA1-TATE for somatostatin receptor imaging with PET, Uta Funke, Frederik Cleeren, Joan Lecina, Rodrigo Gallardo, Alfons M. Verbruggen, Guy Bormans, PP44 Radiolabeling and SPECT/CT imaging of different polymer-decorated zein nanoparticles for oral administration, Rocío Ramos-Membrive, Ana Brotons, Gemma Quincoces, Laura Inchaurraga, Inés Luis de Redín, Verónica Morán, Berta García-García, Juan Manuel Irache, Iván Peñuelas, PP45 An analysis of the quality of 68Ga-DOTANOC radiolabelling over a 3 year period, Trabelsi, M., Cooper M.S., PP46 In vivo biodistribution of adult human mesenchymal stem cells I (MSCS-ah) labeled with 99MTC-HMPAO administered via intravenous and intra-articular in animal model. Preliminary results, Alejandra Abella, Teodomiro Fuente, Antonio Jesús Montellano, Teresa Martínez, Ruben Rabadan, Luis Meseguer-Olmo, PP47 Synthesis of [18F]F-exendin-4 with high specific activity, Lehtiniemi P, Yim C, Mikkola K, Nuutila P, Solin O, PP48 Experimental radionuclide therapy with 177Lu-labelled cyclic minigastrin and human dosimetry estimations, von Guggenberg E, Rangger C, Mair C, Balogh L, Pöstényi Z, Pawlak D, Mikołajczak R, PP49 Synthesis of radiopharmaceuticals for cell radiolabelling using anion exchange column, Socan A, Kolenc Peitl P, Krošelj M, Rangger C, Decristoforo C, PP50 [68Ga]peptide production on commercial synthesiser mAIO, Collet C., Remy S., Didier R,Vergote T.,Karcher G., Véran N., PP51 Dry kit formulation for efficient radiolabeling of 68Ga-PSMA, D. Pawlak, M. Maurin, P. Garnuszek, U. Karczmarczyk, R. Mikołajczak, PP52 Development of an experimental method using Cs-131 to evaluate radiobiological effects of internalized Auger-electron emitters, Pil Fredericia, Gregory Severin, Torsten Groesser, Ulli Köster, Mikael Jensen, PP53 Preclinical comparative evaluation of NOTA/NODAGA/DOTA CYCLO-RGD peptides labelled with Ga-68, R. Leonte, F. D. Puicea, A. Raicu, E. A. Min, R. Serban, G. Manda, D. Niculae, PP54 Synthesizer- and Kit-based preparation of prostate cancer imaging agent 68Ga-RM2, Marion Zerna, Hanno Schieferstein, Andre Müller, Mathias Berndt, PP55 Synthesis of pancreatic beta cell-specific [18F]fluoro-exendin-4 via strain-promoted aza-dibenzocyclooctyne/azide cycloaddition, Cheng-Bin Yim, Kirsi Mikkola, Pirjo Nuutila, Olof Solin, PP56 Automated systems for radiopharmacy, D. Seifert, J. Ráliš, O. Lebeda, PP57 Simple, suitable for everyday routine use quality control method to assess radionuclidic purity of cyclotron-produced 99mTc, Svetlana V. Selivanova, Helena Senta, Éric Lavallée, Lyne Caouette, Éric Turcotte, Roger Lecomte, PP58 Effective dose estimation using Monte Carlo simulation for patients undergoing radioiodine therapy, Marina Zdraveska Kochovska, Emilija Janjevik Ivanovska, Vesna Spasic Jokic, PP59 Chemical analysis of the rituximab radioimmunoconjugates in lyophilized formulations intended for oncological applications, Darinka Gjorgieva Ackova, Katarina Smilkov, Petre Makreski, Trajče Stafilov, Emilija Janevik-Ivanovska, PP61 The need and benefits of established radiopharmacy in developing African countries, Aschalew Alemu, Joel Munene Muchira, David Mwanza Wanjeh, Emilija Janevik-Ivanovska, PP62 University Master Program of Radiopharmacy – step forward for Good Radiopharmacy Education, Emilija Janevik-Ivanovska, Zoran Zdravev, Uday Bhonsle, Osso Júnior João Alberto, Adriano Duatti, Bistra Angelovska, Zdenka Stojanovska, Zorica Arsova Sarafinovska, Darko Bosnakovski, Darinka Gorgieva-Ackova, Katarina Smilkov, Elena Drakalska, Meera Venkatesh, Rubin Gulaboski, PP63 Synthesis and preclinical validations of a novel 18F-labelled RGD peptide prepared by ligation of a 2-cyanobenzothiazole with 1,2-aminothiol to image angiogenesis., Didier J. Colin, James A. H. Inkster, Stéphane Germain, Yann SeimbillePubMe