Náttúrufræðingurinn

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Náttúrufræðingurinn - 2011, Qupperneq 47

Náttúrufræðingurinn - 2011, Qupperneq 47
99 Tímarit Hins íslenska náttúrufræðifélags Zhao, D.S.S., Valdivia, A.Y., Li, Y. & Blaufox, M. D. 2002. F-18-fluorode-68. oxyglucose positron emission tomography in small-cell lung cancer. Seminars in Nuclear Medicine 32. 272–275. Langsteger, W., Heinisch, M. & Fogelman, I. 2006. The role of fluorode-69. oxyglucose, 18f-dihydroxyphenylalanine, 18f-choline, and 18f-fluoride in bone imaging with emphasis on prostate and breast. Seminars in Nuclear Medicine 36. 73–92. Bhide, S.A. & Nutting, C.M. Recent advances in radiotherapy. Bmc 70. Medicine 8. Xing, L., Thorndyke, B., Schreibmann, E., Yang, Y., Li, T.F., Kim, G.Y., 71. Luxton, G. & Koong, A. 2006. Overview of image-guided radiation therapy. Medical Dosimetry 31. 91–112. Attix, F.H. 1986. Introduction to radiological physics and radiation 72. dosimetry. Wiley-Interscience, USA. 607 bls. Takada, Y., Kobayashi, Y., Yasuoka, K. & Terunuma, T. 2004. A miniature 73. ripple filter for filtering a ripple found in the distal part of a proton SOBP. Nuclear Instruments & Methods in Physics Research Section a-Acceler- ators Spectrometers Detectors and Associated Equipment 524. 366–373. Wilkens, J.J. & Oelfke, U. 2008. Direct comparison of biologically opti-74. mized spread-out bragg peaks for protons and carbon ions. Interna- tional Journal of Radiation Oncology Biology Physics 70. 262–266. Cooks, T., Schmidt, M., Bittan, H., Lazarov, E., Arazi, L., Kelson, I. & 75. Keisari, Y. 2009. Local control of lung-derived tumors by diffusing alpha- emitting atoms released from intratumoral wires loaded with radi- um-224. International Journal of Radiation Oncology Biology Physics 74. 966–973. Terentyuk, G.S., Maslyakova, G.N., Suleymanova, L.V., Khlebtsov, N.G., 76. Khlebtsov, B.N., Akchurin, G.G., Maksimova, I.L. & Tuchin, V.V. 2009. Laser-induced tissue hyperthermia mediated by gold nanoparticles: Toward cancer phototherapy. Journal of Biomedical Optics 14. Zheng, Y. & Sanche, L. 2009. Gold nanoparticles enhance DNA damage 77. induced by anti-cancer drugs and radiation. Radiation Research 172. 114–119. Lee, C., Kim, H., Hong, C., Kim, M., Hong, S.S., Lee, D.H. & Lee, W.I. 78. 2008. Porous silicon as an agent for cancer thermotherapy based on near- infrared light irradiation. Journal of Materials Chemistry 18. 4790–4795. Pruschy, M. 2007. New concepts and substances for radiosensitization. 79. Onkologe 13. 263–268. Stahlberg, K., Kairemo, K., Erkkila, K., Pentikainen, V., Sorvari, P., Taari, 80. K., Dunkel, L. & Rannikko, S. 2005. Radiation sensitizing effect of estra- mustine is not dependent on apoptosis. Anticancer Research 25. 2873– 2878. Lacombe, S. & Le Sech, C. 2009. Advances in radiation biology: Radio-81. sensitization in DNA and living cells. Surface Science 603. 1953–1960. Cooks, T., Arazi, L., Efrati, M., Schmidt, M., Marshak, G., Kelson, I. & 82. Keisari, Y. 2009. Interstitial wires releasing diffusing alpha emitters com- bined with chemotherapy improved local tumor control and survival in squamous cell carcinoma-bearing mice. Cancer 115. 1791–1801. Wardman, P. 2007. Chemical radiosensitizers for use in radiotherapy. 83. Clinical Oncology 19. 397–417. Foley, E.A., Carter, J.D., Shan, F. & Guo, T. 2005. Enhanced relaxation of 84. nanoparticle-bound supercoiled DNA in x-ray radiation. Chemical Communications 3192–3194. Niidome, T., Nakashima, K., Takahashi, H. & Niidome, Y. 2004. Prepara-85. tion of primary amine-modified gold nanoparticles and their transfec- tion ability into cultivated cells. Chemical Communications 1978–1979. Zheng, Y., Ffunting, D.J., Ayotte, P. & Sanche, L. 2008. Radiosensitization 86. of DNA by gold nanoparticles irradiated with high-energy electrons. Radiation Research 169. 481–482. Hainfeld, J.F., Slatkin, D.N. & Smilowitz, H.M. 2004. The use of gold 87. nanoparticles to enhance radiotherapy in mice. Physics in Medicine and Biology 49. N309–N315. Tseng, S.H., Bargo, P., Durkin, A. & Kollias, N. 2009. Chromophore 88. concentrations, absorption and scattering properties of human skin in- vivo. Optics Express 17. 14599–14617. Hirsch, L.R., Stafford, R.J., Bankson, J.A., Sershen, S.R., Rivera, B., Price, 89. R.E., Hazle, J.D., Halas, N.J. & West, J.L. 2003. Nanoshell-mediated near- infrared thermal therapy of tumors under magnetic resonance guidance. Proceedings of the National Academy of Sciences of the United States of America 100. 13549–13554. Lee, C., Kim, H., Cho, Y.J. & Lee, W.I. 2007. The properties of porous 90. silicon as a therapeutic agent via the new photodynamic therapy. Jour- nal of Materials Chemistry 17. 2648–2653. K a m , N . W . S . , 91. O’connell, M., Wisdom, J.A. & Dai, H.J. 2005. Carbon nanotubes as mul- tifunctional biological transporters and near-infrared agents for selective cancer cell destruction. Proceedings of the National Academy of Scienc- es of the United States of America 102. 11600–11605. Um höfundinn Helga Dögg (f. 1984) lauk B.Sc.-prófi í efnafræði frá Háskóla Íslands árið 2006 og stundar nú doktors- nám í eðlisefnafræði við sama skóla, undir leiðsögn prófessors Odds Ingólfssonar. Doktorsverkefnið fjallar um niðurbrot lífsameinda vegna geislunar. Í náminu hefur hún einnig unnið að rannsóknum með prófessor Eugen Illenberger við Freie Universität í Berlín og prófessor Paul Scheier við Leopold-Franzens-Universität í Innsbruck. Póst- og netfang höfundar/Author’s address Helga Dögg Flosadóttir Raunvísindastofnun Háskólans Dunhaga 3 IS-107 Reykjavík hdf@hi.is 81_2#profork070711.indd 99 7/8/11 7:42:01 AM

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