The impedivity of freshly excised human breast tissue

A set of 120 impedivity spectra was collected in breast tissue immediately after excision from 64 patients undergoing breast surgery. The measurements were made at 12 discrete frequencies halving from 1 MHz to 488 Hz. The spectra were sorted into three groups of normal tissue, mammary gland, connective tissue and adipose tissue, and three groups of pathological tissue, mastopathy, fibroadenoma and carcinoma. Intergroup multiple comparisons of the components of impedivity and admittivity were systematically carried out at every measurement frequency. The low-frequency-limit resistivity, the fractional power and characteristic frequencies were calculated from the experimental data. No significant correlation between impedivity and admittivity and patient's age was observed, except for mastopathy. No significant difference between groups of normal tissue and benign pathology (mammary gland, mastopathy and fibroadenoma) was found. The group of carcinoma differed from all the other groups principally by the low-frequency-limit resistivity, the fractional power and the phase angle at frequency above 125 kHz. These results indicate that impedance spectroscopy is appropriate for the detection of breast cancer.

[1]  Ackmann Jj,et al.  Methods of complex impedance measurements in biologic tissue. , 1984 .

[2]  K. Foster,et al.  Dielectric properties of tissues and biological materials: a critical review. , 1989, Critical reviews in biomedical engineering.

[3]  T Iritani,et al.  Measurement of the electrical bio-impedance of breast tumors. , 1990, European surgical research. Europaische chirurgische Forschung. Recherches chirurgicales europeennes.

[4]  D. Land,et al.  Dielectric properties of female human breast tissue measured in vitro at 3.2 GHz. , 1992, Physics in medicine and biology.

[5]  J Ludbrook,et al.  ON MAKING MULTIPLE COMPARISONS IN CLINICAL AND EXPERIMENTAL PHARMACOLOGY AND PHYSIOLOGY , 1991, Clinical and experimental pharmacology & physiology.

[6]  S. Rust,et al.  A modification of the kruskal-wallis statistic for the generalized behrens-fisher problem , 1984 .

[7]  E. Gersing,et al.  The appearance of positive phase angles in impedance measurements on extended biological objects , 1995 .

[8]  T Iritani,et al.  A study of the electrical bio-impedance of tumors. , 1993, Journal of investigative surgery : the official journal of the Academy of Surgical Research.

[9]  Robert W. Day,et al.  Comparisons of Treatments After an Analysis of Variance in Ecology , 1989 .

[10]  R. Pethig Dielectric Properties of Biological Materials: Biophysical and Medical Applications , 1984, IEEE Transactions on Electrical Insulation.

[11]  J Jossinet,et al.  Quantitative technique for bio-electrical spectroscopy. , 1985, Journal of biomedical engineering.

[12]  H. P. Schwan,et al.  Alternating Current Spectroscopy of Biological Substances , 1959, Proceedings of the IRE.

[13]  Stuchly,et al.  Dielectric properties of breast carcinoma and the surrounding tissues , 1988, IEEE Transactions on Biomedical Engineering.

[14]  N. Spyrou,et al.  Complex Permittivity Differences Between Normal and Pathological Tissues: Mechanisms and Medical Significance , 1985 .