Microwave power absorption differences between normal and malignant tissue.

[1]  J. Holt,et al.  The problem of clinical hyperthermia. , 1977, Australasian radiology.

[2]  K. Foster,et al.  Microwave dielectric properties of tissue. Some comments on the rotational mobility of tissue water. , 1977, Biophysical journal.

[3]  E. Gerner,et al.  Hyperthermic potentiation. Biological aspects and applications to radiation therapy , 1977, Cancer.

[4]  B. Mondovì,et al.  Selective Heat Sensitivity of Cancer Cells , 1977, Recent Results in Cancer Research / Fortschritte der Krebsforschung / Progrès dans les recherches sur le cancer.

[5]  G. Hahn,et al.  Modification and inhibition of repair of potentially lethal x-ray damage by hyperthermia. , 1976, Radiation research.

[6]  E. Tanabe,et al.  A nondestructive method for measuring the complex permittivity of dielectric materials at microwave frequencies using an open transmission line resonator , 1976, IEEE Transactions on Instrumentation and Measurement.

[7]  J. Holt The use of V.H.F. radiowaves in cancer therapy. , 1975, Australasian radiology.

[8]  G. Hahn,et al.  Metabolic aspects of the role of hyperthermia im mammalian cell inactivation and their possible relevance to cancer treatment. , 1974, Cancer research.

[9]  E. Hall,et al.  Hyperthermia: its effect on proliferative and plateau phase cell cultures. , 1974, Radiology.

[10]  W. Dewey,et al.  Killing of Chinese hamster cells in vitro by heating under hypoxic or aerobic conditions. , 1974, European journal of cancer.

[11]  Arthur W. Guy,et al.  Therapeutic applications of electromagnetic power , 1974 .

[12]  R. Spiegel,et al.  Resonance Absorption of Microwaves by the Human Skull , 1974 .

[13]  S. Nelson,et al.  Dielectric Properties of Materials for Microwave Processing—Tabulated♦♦ , 1973 .

[14]  H P Schwan,et al.  Hot spots generated in conducting spheres by electromagnetic waves and biological implications. , 1972, IEEE transactions on bio-medical engineering.

[15]  W. Dewey,et al.  Variation in sensitivity to heat shock during the cell-cycle of Chinese hamster cells in vitro. , 1971, International journal of radiation biology and related studies in physics, chemistry, and medicine.

[16]  U. Kim,et al.  Metastasizing Mammary Carcinomas in Rats: Induction and Study of Their Immunogenicity , 1970, Science.

[17]  C. Cone Variation of the transmembrane potential level as a basic mechanism of mitosis control. , 1970, Oncology.

[18]  J. Mallard,et al.  Dielectric Absorption of Microwaves in Human Tissues , 1968, Nature.

[19]  C. Heidelberger,et al.  Selective heat sensitivity of cancer cells. Biochemical and clinical studies , 1967 .

[20]  N. Draper,et al.  SURVIVAL-CURVES OF SOLID TRANSPLANTABLE TUMOUR CELLS IRRADIATED IN VIVO: A METHOD OF DETERMINATION AND STATISTICAL EVALUATION; COMPARISON OF CELL-SURVIVAL AND 32-P-UPTAKE INTO DNA. , 1963, International journal of radiation biology and related studies in physics, chemistry, and medicine.

[21]  W. W. Mumford,et al.  Some Technical Aspects of Microwave Radiation Hazards , 1961, Proceedings of the IRE.

[22]  E. J. Ambrose,et al.  A Correlation between Electrical Surface Charge and Some Biological Characteristics During the Stepwise Progression of a Mouse Sarcoma , 1958, Nature.

[23]  H. Schwan Electrical properties of tissue and cell suspensions. , 1957, Advances in biological and medical physics.