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In - house preparation and evaluation of Tc-99m-HIG kit for detection of infection in AIDS patients

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EN
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EN
99mTc-HIG can be used for early detection of inflammation and infection foci especially in immunodeficiency patients. The present study involves in-house preparation and evaluation of human immunoglobulin-hydrazinonicotinic acid (HIG-HYNIC) kit to be labeled with 99mTc. In this indirect labeling method, the structure and biological activity of the protein can be maintained. The kit consists of two vials A and B, the vial A contains 2 mg of HIG-HYNIC, and the vial B contains 10 mg of tricine and 1 mg of stannous chloride dihydrate (SnCl2.2H2O). The results revealed that the lyophilized kits were stable for at least 10 months, and showed a high quality from the points of physical, chemical, radiochemical and biological purities, and its validity for human injection. The labeling yield of HIG-HYNIC compound exceeded 98%. The application of the prepared kit was experimentally illustrated in animal models with artificially induced inflammatory lesions after E. coli injection into rat leg muscle. The biodistribution and imaging studies in rats have shown good localization in infected muscle (T) in comparison to the normal muscle (M) 4 and 24 h after injection. Ratios of 17 and 18 were achieved 4 and 24 h post injection, respectively. The results of biodistribution of 99mTc-HIG in human and initial clinical evaluation show that this agent is a good radiopharmaceutical for infection imaging.
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117--124
Opis fizyczny
Bibliogr. 22 poz., rys.
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autor
autor
autor
autor
autor
  • Radiation Medicine Department, Atomic Energy Commission of Syria, Damascus, P. O. Box 6091, Syrian Arab Republic, Tel.: +963 11 213 2580, Fax: +963 11 611 2289, ascientific@aec.org.sy
Bibliografia
  • 1. Babich JW, Dong Q, Graham W, Brazana M, Ferill K, Pike M (1997) A novel high affinity chemotactic peptides antagonist for infection imaging. J Nucl Med 38:268–272
  • 2. Babich JW, Graham W, Barrow SA, Fischman AJ (1995) Comparison of the infection imaging properties of a 99mTc-labeled chemotactic peptide with 111In-IgG. Nucl Med Biol 22:643–648
  • 3. Becker W, Saptogino A, Wolf F (1992) The singla late Tc-99m granulocyte antibody scan in inflammatory diseases. Nucl Med Commun 13:186–192
  • 4. Boerman OC, Dams EThM, Oyen WJG et al. (2001) Radiopharmaceuticals for scintigraphic of infection and inflammation. Inflamm Res 50:55–64
  • 5. Buttram S, Dean RT, Lister-James J et al. (1997) One vial method for labeling antibodies with Technetium-99m. US Patent no. 5,648,471
  • 6. Dams ETM, Oyen WJG, Boerman OC et al. (1998) Tc-99m-labeled to human immunoglobulin G through the nicotinyl hydrazine derivative: a clinical study. J Nucl Med 39:119–124
  • 7. Dams ETM, Oyen WJG, Boerman OC, Storm G, Laverman P, Koenders EB (1998) Tc-99m labeled liposomes to image experimental colitis in rabbits: comparison with Tc-99m-HMPAO-granulocytes and Tc-99m HYNIC-IgG. J Nucl Med 39:2172–2178
  • 8. Das SS, Anne VH, David WW et al. (2002) Infection imaging with radiopharmaceuticals in the 21st Century. Braz Arch Biol Techn, Special issue 45:25–37
  • 9. Datz FL, Thorne DA (1986) Effect of chronicity of infection on the sensitivity of the In-111-labeled leucocyte scan. Am J Roentgenol 147:809–812
  • 10. Hirschtick RE, Glassroth J, Jordan MC et al. (1995) Bacterial pneumonia in persons infected with the human immunodeficiency virus. N Eng J Med 333:845–851
  • 11. Karczmarczyk U, Markiewicz A, Mikołajczak R et al. (2004) Technetium-99m-human IgG radiolabelled by HYNIC. Biodistribution and scintigraphy of experimentally induced inflammatory lesions in animal model. Nucl Med Rev Cent East Eur 7:107–112
  • 12. Larsen SK, Abrams MJ, Higgins JD, Solomon HF, Babich JW, Fischman AJ (1994) Technetium complexes of tricine: useful precursor for the 99mTc-labeling of hydrazino nicotin amide modified human polycolonal IgG. J Nucl Med 35:105–109
  • 13. Liu S, Edwards DS (1999) Tc-99m-labelled small peptides as diagnostic radiopharmaceuticals. Chem Rev 99:2235–2268
  • 14. Meyer CN, Skinhqj P, Prag J (1994) Bacteremia in HIV- positive and AIDS patient: Incidence, species distribution,risk-factor, outcome, and influence of long-term prophylactic antibiotic treatment. Scand J Infect Dis 26:635–642
  • 15. Michael JA, Juweid M, tenKate CI et al. (1990) Technetium-99m-human polyclonal IgG radiolabeled via the hydrazino nicotinamide derivative for imaging focal sites of infection in rats. J Nucl Med 31:2022–2028
  • 16. Paik CH, Richard CR, William CE (1987) Method of radiolabeled antibodies with technetium and rhenium. US Patent no. 4,652,440
  • 17. Palestro CJ (1994) The current role of galium imaging in infection. Semin Nucl Med 24:128–141
  • 18. Peters AM (1994) The utility of 99mTc-HMPAO-leucocytes for imaging infection. Semin Nucl Med 24:110–127
  • 19. Rajabifar S, Akhlaghi M, Jalilian AR et al. (2009) Preparation and biodistribution of 99mTc-IgG-HYNIC in normal rats. Nukleonika 54;4:279–284
  • 20. Rennen HJJM, Boerman OC, Oyen WJG, van der Laken CJ, Corstens FHM (2001) Specific and rapid detection of infection with Tc-99m-labeled interleukin-8. J Nucl Med 42:117–123
  • 21. Rennen HJJM, Makarewicz J, Oyen WJG et al. (2001) The effects of molecular weight on non-specific accumulation of 99mTc-labeled proteins in inflammatory foci. Nucl Med Biol 28:401–408
  • 22. Thakur M, Marcus CS, Henneman P, Butler J, Sinow R, Diggles L (1996) Imaging inflammatory diseases with neutrophil-specific 99mTc-labeled monocolonal antibody anti SSEA-1. J Nucl Med 37:1789–1795
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUJ8-0017-0017
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