Journal ArticleDOI
Electrical and Dielectric Properties of Wet Bone as a Function of Frequency
G. N. Reddy,Subrata Saha +1 more
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TLDR
It is shown that the differential method provides an accurate means of measuring the electrical properties of bone, avoiding stray capacitance errors.Abstract:
The electrical and dielectric properties of wet, bovine, compact bone were determined in three orthogonal planes, using a differential technique, for a frequency range of 1 kHz-l MHz. For axial specimens, at 10 kHz, the specific resistance, specific capacitance, and specific impedance were 16.6 k?/cm, 60.9 pF. cm-1 and 16.59/?3.65°k?·cm, respectively. Similarly, the dielectric properties, namely the relative dielectric constant, relative dielectric loss factor and dielectric dissipation factor were 688, 10.8 ×103, and 15.7, respectively. The electrical properties were found to be highly dependent on the frequency and the moisture content of bone. The bone was also found to be highly anisotropic in its electrical behavior, the impedance being lowest in the axial direction. It is shown that the differential method provides an accurate means of measuring the electrical properties of bone, avoiding stray capacitance errors.read more
Citations
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Journal ArticleDOI
The dielectric properties of biological tissues: I. Literature survey
TL;DR: The dielectric properties of tissues have been extracted from the literature of the past five decades and presented in a graphical format to assess the current state of knowledge, expose the gaps there are and provide a basis for the evaluation and analysis of corresponding data from an on-going measurement programme.
ReportDOI
Compilation of the Dielectric Properties of Body Tissues at RF and Microwave Frequencies.
TL;DR: In this paper, a database of dielectric data based on measurements using recently developed techniques is presented, and the new data are evaluated by comparison with corresponding data from the literature where available.
PatentDOI
Applied potential tomography
TL;DR: In this paper, the surface contact electrodes are located in a closed loop or rosette array on one planar or nominally planar, skin surface of a body to be investigated, and electrically connected to data acquisition and processing equipment.
Journal ArticleDOI
Electrical conductivity of tissue at frequencies below 1 MHz.
C Gabriel,A Peyman,E. H. Grant +2 more
TL;DR: A critical analysis of the data highlights their usefulness and limitations and enables suggestions to be made for measuring the electrical properties of tissues.
Journal ArticleDOI
Increasing Human Brain Excitability by Transcranial High-Frequency Random Noise Stimulation
TL;DR: A novel method of electrical stimulation: transcranial random noise stimulation (tRNS), whereby a random electrical oscillation spectrum is applied over the motor cortex induces consistent excitability increases lasting 60 min after stimulation, avoiding the constraint of current flow direction sensitivity characteristic of tDCS.
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