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Imaging of hypoxia in small animals with 18F fluoromisonidasole

Treść / Zawartość
Identyfikatory
Warianty tytułu
Konferencja
PLASMA-2015 International Conference on Research and Applications of Plasmas (7-11 September 2015 ; Warsaw, Poland)
Języki publikacji
EN
Abstrakty
EN
A method of automated synthesis of [18F]fluoromisonidazole ([18F]FMISO) for application in preclinical studies on small animals was presented. A remote-controlled synthesizer Synthra RNplus was used for nucleophilic substitution of NITTP (1-(2'-nitro-1'-imidazolyl)-2-O-tetrahydropyranyl-3-O-toluenesulfonyl-propanediol) with 18F anion. Labeling of 5 mg of precursor was performed in anhydrous acetonitrile at 100°C for 10 min, and the hydrolysis with HCl was performed at 100°C for 5 min. Final purifi cation was done with high-performance liquid chromatography (HPLC) and the radiochemical purity of radiotracer was higher than 99%. Proposed [18F]FMISO synthesis was used as a reliable tool in studies on hypoxia in Lewis lung carcinoma (LLC) in mouse models.
Czasopismo
Rocznik
Strony
119--223
Opis fizyczny
Bibliogr. 18 poz., rys.
Twórcy
autor
  • Heavy Ion Laboratory, University of Warsaw, 5A Pasteura Str., 02-093 Warsaw, Poland, Tel.: +48 22 55 46 214
autor
  • Faculty of Chemistry, University of Warsaw, 1 Pasteura Str., 02-093 Warsaw, Poland
autor
  • Faculty of Chemistry, University of Warsaw, 1 Pasteura Str., 02-093 Warsaw, Poland
autor
  • Faculty of Biochemistry, Biophysics and Biotechnology, Jagiellonian University, 7 Gronostajowa Str., 30-387 Krakow, Poland
  • Faculty of Physics, University of Warsaw, 5 Pasteura Str., 02-093 Warsaw, Poland
autor
  • Faculty of Physics, University of Warsaw, 5 Pasteura Str., 02-093 Warsaw, Poland
autor
  • Faculty of Biochemistry, Biophysics and Biotechnology, Jagiellonian University, 7 Gronostajowa Str., 30-387 Krakow, Poland
Bibliografia
  • 1. Bristow, R. G., & Hill, R. P. (2008). Hypoxia and metabolism: Hypoxia, DNA repair and genetic instability. Nat. Rev. Cancer, 8, 180–192.
  • 2. Zhang, J., Cao, J., Ma, S., Dong, R., Meng, W., Ying, M., Weng, Q., Chen, Z., Ma, J., Fang, Q., He, Q., & Yang, B. (2014). Tumor hypoxia enhances non-small cell lung cancer metastasis by selectively promoting macrophage M2 polarization through the activation of ERK signaling. Oncotarget, 5(20), 9664–9677.
  • 3. Ackerman, D., & Simon, M. C. (2014). Hypoxia, lipids, and cancer: surviving the harsh tumor microenvironment. Trends Cell. Biol., 24(8), 472–477.
  • 4. Brown, J. M. (2007). Tumor hypoxia in cancer therapy. H. Sies, & B. Brune (Eds.) Methods in enzymolology.Vol. 435 (pp. 297–321). Academic Press.
  • 5. Nagelkerke, A., Bussink, J., Mujcic, H., Wouters, B. G., Lehmann, S., Sweep, F. C. G. J., & Span, P. N. (2013). Hypoxia stimulates migration of breast cancer cells via the PERK/ATF4/LAMP3-arm of the unfolded protein response. Breast Cancer Res., 15, R2(13pp).
  • 6. Weeks, A. J., Paul, R. L., Marsden, P. K., Blower, P.J., & Lloyd, D. R. (2010). Radiobiological effects ofhypoxia dependent uptake of 64Cu-ATSM: enhanced DNA damage and cytotoxicity in hypoxic cells. Eur.J. Nucl. Med. Mol. Imaging, 37, 330–338.
  • 7. Mees, G., Dierckx, R., Vangestel, Ch., & Van de Wiele,Ch. (2009). Molecular imaging of hypoxia with radiolabelled agents. Eur. J. Nucl. Med. Mol. Imaging, 36, 1675–1680.
  • 8. Peeters, S. G., Zegers, C. M., Lieuwes, N. G., van Elmpt, W., Eriksson, J., van Dongen, G. A., Dubois,L., & Lambin, P. (2015). A comparative study of the hypoxia PET tracers [18F]HX4, [18F]FAZA, and [18F]FMISO in a preclinical tumor model. Int. J. Radiat. Oncol. Biol. Phys. 1, 91(2), 351–359.
  • 9. Lin, A., & Hahn, S. M. (2012). Hypoxia imaging markers and applications for radiation treatmentplanning. Semin. Nucl. Med., 42, 343–352.
  • 10. Campanile, C., Arlt, M. J. E., Krämer, S. D., Honer,M., Gvozdenovic, A., Brennecke, P., Fischer, C. A.,Sabile, A. A., Müller, A., Ametamey, S. A., Born, W.,Schibli, R., & Fuchs, B. (2013). Characterization of different osteosarcoma phenotypes by PET imaging in preclinical animal models. J. Nucl. Med., 54(8), 1362–1368.
  • 11. Thézé, B., Bernards, N., Beynel, A., Bouet, S., Kuhnast, B., Buvat, I., Tavitian, B., & Boisgard, R. (2015). Monitoring therapeutic efficacy of sunitinib using [18F]FDG and [18F]FMISO PET in an immunocompetent model of luminal B (HER2-positive)-type mammary carcinoma. BMC Cancer, 15, 534(10pp).
  • 12. Arvold, N. D., Heidari, P., Kunawudhi, A., Sequist, L. V., & Mahmood, U. (2015). Tumor hypoxia response after targeted therapy in EGFR-mutant non-small cell lung cancer. Technol. Cancer Res. Treat., 15(2), 234–242.
  • 13. Bruehlmeier, M., Kaser-Hotz, B., Achermann, R., Rohrer Bley, C., Wergin, M., Schubiger, P. A., & Ametamey, S. M. (2005). Measurement of tumor hypoxia in spontaneous canine sarcomas. Vet. Radiol. Ultrasoun., 46(4), 348–354.
  • 14. Kilian, K., Chabecki, B., Kiec, J., Kunka, A., Panas, B., Wójcik, M., & Pekal, A. (2014). Synthesis, quality control and determination of metallic impurities in 18F-fludeoxyglucose production process. Rep. Pract. Oncol. Radiother., 19, 22–31.
  • 15. Anzellotti, A., Bailey, J., Ferguson, D., McFarland, A., Bochev, P., Andreev, G., Awasthi, V., & Brown--Proctor, C. (2015). Automated production and quality testing of [18F]labeled radiotracers using the BG75 system. J. Radioanal. Nucl. Chem., 305(2), 387–401.
  • 16. Blom, E., & Koziorowski, J. (2014). Automated synthesis of [18F]FMISO on IBA Synthera®. J. Radioanal. Nucl. Chem., 299(1), 265–270.
  • 17. Nandy, S. K., & Rajan, M. (2010). Fully automated radiosynthesis of [18F]Fluoromisonidazole with single neutral alumina column purifi cation: optimization of reaction parameters. J. Radioanal. Nucl. Chem., 286(1), 241–248.
  • 18. Bowen, S. R., van der Kogel, A. J., Nordsmark, M., Bentzen, M. S., & Jeraj, R. (2011). Characterization of PET hypoxia tracer uptake and tissue oxygenation via electrochemical modeling. Nucl. Med. Biol., 38(6), 771–780.
Uwagi
PL
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-667c7fa4-00e3-444d-973b-9c3305961ae5
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