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129 related items for PubMed ID: 12548040

  • 1. Effects of extracellular Na+ and Ca2+ ions and Ca2+ channel modulators on the cell-associated activity of 99mTc-MIBI and 99mTc-tetrofosmin in tumour cells.
    Arbab AS, Ueki J, Koizumi K, Araki T.
    Nucl Med Commun; 2003 Feb; 24(2):155-66. PubMed ID: 12548040
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  • 3. Effects of ion channel modulators in the influx and efflux of Tc-99m-MIBI.
    Arbab AS, Koizumi K, Toyama K, Arai T, Araki T.
    Ann Nucl Med; 1999 Feb; 13(1):27-32. PubMed ID: 10202945
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  • 4. Uptake of 99mTc-MIBI and 99mTc-tetrofosmin into malignant versus nonmalignant breast cell lines.
    Rodrigues M, Chehne F, Kalinowska W, Berghammer P, Zielinski C, Sinzinger H.
    J Nucl Med; 2000 Sep; 41(9):1495-9. PubMed ID: 10994728
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  • 5. Comparative 99mTc-MIBI, 99mTc-tetrofosmin and 99mTc-furifosmin uptake in human soft tissue sarcoma cell lines.
    Rodriques M, Chehne F, Kalinowska W, Zielinski C, Sinzinger H.
    Eur J Nucl Med; 2000 Dec; 27(12):1839-43. PubMed ID: 11189948
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  • 7. Ion transport systems in the uptake of 99Tcm-tetrofosmin, 99Tcm-MIBI and 201Tl in a tumour cell line.
    Arbab AS, Koizumi K, Toyama K, Arai T, Araki T.
    Nucl Med Commun; 1997 Mar; 18(3):235-40. PubMed ID: 9106777
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  • 8. Malignant gliomas display altered plasma membrane potential and pH regulation--interaction with Tc-99m-MIBI and Tc-99m-Tetrofosmin uptakes.
    Perek N, Denoyer D, Dubois F, Koumanov F.
    Gen Physiol Biophys; 2002 Dec; 21(4):381-404. PubMed ID: 12693711
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  • 9. 99mTc-MIBI, 99mTc-tetrofosmin and 99mTc-Q12 in vitro and in vivo.
    Bernard BF, Krenning EP, Breeman WA, Ensing G, Benjamins H, Bakker WH, Visser TJ, de Jong M.
    Nucl Med Biol; 1998 Apr; 25(3):233-40. PubMed ID: 9620628
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  • 10. Verapamil decreases accumulation of 99Tcm-MIBI and 99Tcm-tetrofosmin in human breast cancer and soft tissue sarcoma cell lines.
    Rodrigues M, Kalinowska W, Zielinski C, Sinzinger H.
    Nucl Med Commun; 2001 Jun; 22(6):645-50. PubMed ID: 11403175
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  • 13. Comparison of cationic myocardial perfusion agents: characteristics of accumulation in cultured smooth muscle cells.
    Nakamura K, Sammiya T, Hashimoto J, Ishibashi R, Matsumoto K, Kubo A.
    Ann Nucl Med; 1996 Nov; 10(4):375-81. PubMed ID: 9006721
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  • 16. P-glycoprotein versus MRP1 on transport kinetics of cationic lipophilic substrates: a comparative study using [99mTc]sestamibi and [99mTc]tetrofosmin.
    Gomes CM, Abrunhosa AJ, Pauwels EK, Botelho MF.
    Cancer Biother Radiopharm; 2009 Apr; 24(2):215-27. PubMed ID: 19409044
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  • 17. The breast cancer cell line MCF7 as a model of 99mTc-SestaMIBI, 99mTc-tetrofosmin and 99mTc-Medronate incorporation.
    Molteni SN, Seregni E, Botti C, Martinetti A, Ferrari L, Crippa F, Bombardieri E.
    Anticancer Res; 1999 Apr; 19(1A):255-9. PubMed ID: 10226551
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  • 18. Myocardial technetium-99m-tetrofosmin and technetium-99m-sestamibi kinetics in normal subjects and patients with coronary artery disease.
    Münch G, Neverve J, Matsunari I, Schröter G, Schwaiger M.
    J Nucl Med; 1997 Mar; 38(3):428-32. PubMed ID: 9074532
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  • 19. Myocardial uptake characteristics of three 99mTc-labeled tracers for myocardial perfusion imaging one hour after rest injection.
    Manka-Waluch A, Palmedo H, Reinhardt MJ, Joe AY, Manka C, Guhlke S, Biersack HJ, Bucerius J.
    Ann Nucl Med; 2006 Dec; 20(10):663-70. PubMed ID: 17385304
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  • 20. Reduction of 99mTc-sestamibi and 99mTc-tetrofosmin uptake in MRP-expressing breast cancer cells under hypoxic conditions is independent of MRP function.
    Kinuya S, Li XF, Yokoyama K, Mori H, Shiba K, Watanabe N, Shuke N, Bunko H, Michigishi T, Tonami N.
    Eur J Nucl Med Mol Imaging; 2003 Nov; 30(11):1529-31. PubMed ID: 14579093
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