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International Journal of Hyperthermia Volume 25, 2009 - Issue 7
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Letter to the Editor

Hyperthermia classic commentary: ‘Simulation studies promote technological development of radiofrequency phased array hyperthermia’ by Peter Wust et al., International Journal of Hyperthermia 1996;12:477–494

Peter Wust Radiation Oncology, Charité Universitätsmedizin, Berlin, GermanyCorrespondence[email protected]
&
Mirko Weihrauch Radiation Oncology, Charité Universitätsmedizin, Berlin, Germany
Pages 529-532 | Published online: 24 Oct 2009

References

  • Wust P, Seebass M, Nadobny J, Deuflhard P, Mönich G, Felix R. Simulation studies promote technological development of radiofrequency phased array hyperthermia. Int J Hyperthermia 1996; 12: 477–494
  • Sreenivasa G, Gellermann J, Rau B, Nadobny J, Schlag P, Deuflhard P, Felix R, Wust P. Clinical application of the hyperthermia treatment planning system HyperPlan to predict effectiveness and toxicity. Int J Radiat Oncol Biol Phys 2003; 55: 407–419
  • Seebass M, Beck R, Gellermann J, Nadobny J, Wust P. Electromagnetic phased arrays for regional hyperthermia optimal frequency and antenna arrangement. Int J Hyperthermia 2001; 17: 321–336
  • Wust P, Beck R, Berger J, Fähling H, Seebass M, Wlodarczyk W, Hoffmann W, Nadobny J. Electric field distributions in a phased-array applicator with 12 channels–Measurements and numerical simulations. Med Phys 2000; 27: 2565–2579
  • Wust P, Fähling H, Wlodarczyk W, Seebass M, Gellermann J, Deuflhard P, Nadobny J. Antenna arrays in the SIGMA-Eye applicator: Interactions and transforming networks. Med Phys 2001; 28: 1793–1805
  • Nadobny J, Fähling H, Hagmann M, Turner P, Wlodarczyk W, Gellermann J, Deuflhard P, Wust P. Experimental and numerical investigations of feed-point parameters in a 3-D hyperthermia applicator using different FDTD models of feed networks. IEEE Trans Biomed Eng 2002; 49: 1348–1359
  • Gellermann J, Hildebrandt B, Issels R, Ganter H, Wlodarczyk W, Fähling H, Nadobny J, Tunn PU, Felix R, Reichardt P, Wust P. Non-invasive MR-thermography of soft tissue sarcomas during regional hyperthermia: Correlation with response and direct thermometry. Cancer 2006; 6: 5872–5880
  • Nadobny J, Pontalti R, Sullivan D, Wlodarczyk W, Vaccari A, Deuflhard P, Wust P. A thin rod approximation for the improved modeling of bare and insulated cylindrical antennas using the FDTD method. IEEE Trans Ant Propag 2003; 51: 1780–1796
  • Wust P, Berger J, Fähling H, Nadobny J, Gellermann J, Tilly W, Rau B, Petermann K, Felix R. Scanning E-field sensor device for on-line control of annular-phased-array systems. Int J Radiat Oncol Biol Phys 1999; 43: 927–937
  • Nadobny J, Wlodarczyk W, Westhoff L, Gellermann J, Felix R, Wust P. A clinical water-coated antenna applicator for MR-controlled deep-body hyperthermia: A comparison of calculated and measured 3-D temperature data sets. IEEE Trans Biomed Eng 2005; 52: 505–519
  • Gellermann J, Wlodarczyk W, Ganter H, Nadobny J, Fähling H, Seebass M, Felix R, Wust P. A practical approach to perform the thermography in a hyperthermia/MR hybrid system: Validation in a heterogeneous phantom. Int J Radiat Oncol Biol Phys 2005; 61: 267–277
  • Gellermann J, Weihrauch M, Cho CH, Wlodarczyk W, Fähling H, Felix R, Budach V, Weiser M, Nadobny J, Wust P. Comparison of MR-thermogaphy and planning calculations in phantoms. Med Phys 2006; 33: 3912–3920
  • Weihrauch M, Wust P, Weiser M, Nadobny J, Eisenhardt S, Budach V, Gellermann J. Adaptation of antenna profiles for control of MR guided hyperthermia (HT) in a hybrid MR-HT system. Med Phys 2007; 34: 4717–4725
  • Stakhursky VL, Arabe O, Cheng K-S, MacFall J, Maccarini P, Craciunesco O, Dewhirst M, Stauffer P, Das SK. Real-time MRI-guided hyperthermia treatment using a fast adaptive algorithm. Phys Med Biol 2009; 54: 2131–2145
  • Gellermann J, Wlodarczyk W, Hildebrandt B, Ganter H, Tilly W, Fähling H, Nadobny J, Felix R, Wust P. Non-invasive magnetic resonance thermography of recurrent rectal carcinoma in a 1.5 Tesla hybrid system. Cancer Research 2005; 65: 1–9

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