TY - CHAP A1 - Wlodarczyk, Waldemar A1 - Nadobny, Johanna A1 - Wust, Peter A1 - Mönich, Gerhard A1 - Deuflhard, Peter A1 - Felix, Roland T1 - Systematic design of antennas for cylindrical 3D phased array hyperthermia applicator T2 - Proc. IEEE Antennas Propagat. Soc. Intern. Symposium, July 11-16, 1999, Orlando, FL, USA, Y1 - 1999 SP - 1004 EP - 1007 ER - TY - JOUR A1 - Wust, Peter A1 - Fahling, Horst A1 - Wlodarczyk, Waldemar A1 - Seebass, Martin A1 - Gellermann, Johanna A1 - Deuflhard, Peter A1 - Nadobny, Johanna T1 - Antenna arrays in the SIGMA-eye applicator JF - Med Phys Y1 - 2001 VL - 28 IS - 8 SP - 1793 EP - 1805 ER - TY - GEN A1 - Seebass, Martin A1 - Sullivan, Dennis A1 - Wust, Peter A1 - Deuflhard, Peter A1 - Felix, Roland T1 - The Berlin Extension of the Stanford Hyperthermia Treatment. N2 - In the field of deep regional hyperthermia, one of the most widely used devices is the BSD--2000 Hyperthermia System which employs the Sigma 60 applicator. The Sigma 60 consists of four independent sources, giving it the potential to control the energy pattern within the patient. The independent amplitudes and phases, as well as frequency selection and applicator position, present a large number of parameters for the operator to determine. Computer simulation has long been recognized as an attractive approach to optimizing these parameters. A treatment planning program was used in clinical practice at Stanford University Medical Center for two years. It demonstrated the feasibility of computer simulation for deep regional hyperthermia in a clinical situation. However, several parts of this system were written in a language specific to one workstation, which severely restricted the wider distribution of the program to other users of the Sigma 60. A new treatment planning system for the BSD 2000 has been developed and put into clinical practice at the Rudolf Virchow Clinic of the Free University of Berlin. The new method, which we will refer to as the Berlin system, has a simpler model construction program and a considerably better graphics capability. However, the most important feature is that all programs are written in FORTRAN, C, or the X Window graphics system. Therefore, the entire treatment planning system is completely portable to other workstations. T3 - ZIB-Report - SC-93-35 Y1 - 1994 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:0297-zib-1304 ER - TY - CHAP A1 - Beck, Rudolf A1 - Deuflhard, Peter A1 - Wust, Peter A1 - Felix, Roland T1 - Electromagnetic Field Calculations by Finite Elements T2 - Proc. 16th Ann. Meeting Europ. Soc. Hyperthermic Oncology (ESHO-97), Berlin, Germany, April 1997 Y1 - 1997 SP - 77 ER - TY - CHAP A1 - Beck, Rudolf A1 - Hege, Hans-Christian A1 - Seebass, Martin A1 - Wust, Peter A1 - Deuflhard, Peter A1 - Felix, Roland ED - Franconi, Cafiero T1 - Adaptive finite element codes for numerical calculations in hyperthermia treatment planning T2 - Proc. of the 7th Int. Congress on Hyperthermic Oncology, Rome, Italy, April 1996 Y1 - 1996 VL - 2 SP - 515 EP - 517 ER - TY - GEN A1 - Deuflhard, Peter A1 - Felix, Roland A1 - Wust, Peter T1 - Wärme für das Leben. Mathematische Hyperthermieplanung am virtuellen Krebspatienten Y1 - 1999 PB - In: D. Hömberg (ed.), 8. Veranstaltungsreihe Forschungspolitische Dialoge in Berlin: Angewandte Mathematik - die verborgene Schlüsseltechnologie, 30. April 1999, Konrad-Zuse-Zentrum Berlin, pp. 23-29 ER -