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Journal Abstract Search

253 related items for PubMed ID: 2026438

  • 21.
    ; . PubMed ID:
    [No Abstract] [Full Text] [Related]

  • 22. Design optimization of interstitial antennas.
    Iskander MF, Tumeh AM.
    IEEE Trans Biomed Eng; 1989 Feb; 36(2):238-46. PubMed ID: 2917769
    [Abstract] [Full Text] [Related]

  • 23.
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  • 24. Development of microwave antennas for thermal therapy.
    Ito K, Saito K.
    Curr Pharm Des; 2011 Feb; 17(22):2360-6. PubMed ID: 21736543
    [Abstract] [Full Text] [Related]

  • 25.
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  • 28. Heating patterns in biological tissue phantoms caused by millimeter wave electromagnetic irradiation.
    Khizhnyak EP, Ziskin MC.
    IEEE Trans Biomed Eng; 1994 Sep; 41(9):865-73. PubMed ID: 7959813
    [Abstract] [Full Text] [Related]

  • 29. The distribution of power and heat produced by interstitial microwave antenna arrays: I. Comparative phantom and canine studies.
    Denman DL, Elson HR, Lewis GC, Breneman JC, Clausen CL, Dine J, Aron BS.
    Int J Radiat Oncol Biol Phys; 1988 Jan; 14(1):127-37. PubMed ID: 3335448
    [Abstract] [Full Text] [Related]

  • 30. Interstitial microwave treatment for cancer: historical basis and current techniques in antenna design and performance.
    Ryan TP, Brace CL.
    Int J Hyperthermia; 2017 Feb; 33(1):3-14. PubMed ID: 27492859
    [Abstract] [Full Text] [Related]

  • 31. Blood flow effects on the temperature distributions from an invasive microwave antenna array used in cancer therapy.
    Strohbehn JW, Trembly BS, Douple EB.
    IEEE Trans Biomed Eng; 1982 Sep; 29(9):649-61. PubMed ID: 7129469
    [No Abstract] [Full Text] [Related]

  • 32. [Design and implementation of an improved invasive antenna for microwave hyperthermia].
    Xue Q, Sun B, Chen L, Wang J.
    Zhongguo Yi Liao Qi Xie Za Zhi; 2010 Nov; 34(6):427-30. PubMed ID: 21360981
    [Abstract] [Full Text] [Related]

  • 33.
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  • 34. Interstitial helical coil microwave antenna for experimental brain hyperthermia.
    Satoh T, Seilhan TM, Stauffer PR, Sneed PK, Fike JR.
    Neurosurgery; 1988 Nov; 23(5):564-9. PubMed ID: 3059216
    [Abstract] [Full Text] [Related]

  • 35. Absorbed power deposition for various insertion depths for 915 MHz interstitial dipole antenna arrays: experiment versus theory.
    Ryan TP, Mechling JA, Strohbehn JW.
    Int J Radiat Oncol Biol Phys; 1990 Aug; 19(2):377-87. PubMed ID: 2394617
    [Abstract] [Full Text] [Related]

  • 36. An edge-element based finite element model of microwave heating in hyperthermia: application to a bolus design.
    Kumaradas JC, Sherar MD.
    Int J Hyperthermia; 2002 Aug; 18(5):441-53. PubMed ID: 12227930
    [Abstract] [Full Text] [Related]

  • 37. Dual-mode antenna design for microwave heating and noninvasive thermometry of superficial tissue disease.
    Jacobsen S, Stauffer PR, Neuman DG.
    IEEE Trans Biomed Eng; 2000 Nov; 47(11):1500-9. PubMed ID: 11077744
    [Abstract] [Full Text] [Related]

  • 38. Finite-element analysis and in vitro experiments of placement configurations using triple antennas in microwave hepatic ablation.
    Phasukkit P, Tungjitkusolmun S, Sangworasil M.
    IEEE Trans Biomed Eng; 2009 Nov; 56(11):2564-72. PubMed ID: 19628446
    [Abstract] [Full Text] [Related]

  • 39. Low-frequency RF hyperthermia: IV--A 27 MHz hybrid applicator for localized deep tumor heating.
    Franconi C, Raganella L, Tiberio CA.
    IEEE Trans Biomed Eng; 1991 Mar; 38(3):287-93. PubMed ID: 2066143
    [Abstract] [Full Text] [Related]

  • 40. Cardiac tissue ablation with catheter-based microwave heating.
    Rappaport C.
    Int J Hyperthermia; 2004 Nov; 20(7):769-80. PubMed ID: 15675671
    [Abstract] [Full Text] [Related]

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