A computational study of ultra-wideband versus narrowband microwave hyperthermia for breast cancer treatment

Converse, M.C.; Bond, E.; Veen, B.D. Van; Hagness, C.

doi:10.1109/tmtt.2006.872790

Cited by 169 publications

(130 citation statements)

References 39 publications

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“…The CST MW-Studio (Electromagnetic field analysis: finite integral method, Thermal analysis: difference method of bio-heat equation [5]) was used in numerical analysis. The cells at the tip and the slot end of the antenna that the electromagnetic fields concentrate are divided small and densely in the analysis region.…”

Section: Analysis and Discussionmentioning

confidence: 99%

A new interstitial choke embedded antenna for microwave ablation

2017

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Abstract:We propose an interstitial coaxial antenna with a choke embedded in the outer conductor and with an arrowhead cap for microwave ablation therapy, operating at 2.45 GHz. The cap consists of ceramic and conductor. The heating is suppressed along both the direction in the tip side and the feeding side of the antenna because of the cap and the choke. In addition, a catheter is not required. We numerically clarify these advantages by analyzing the temperature distribution of a spherical breast tumor. Keywords: ablation, interstitial coaxial antenna, non-catheter type, choke, microwave heating Classification: Electromagnetic Compatibility (EMC) References

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Section: Analysis and Discussionmentioning

confidence: 99%

A new interstitial choke embedded antenna for microwave ablation

2017

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“…The tissue density ρ, acoustic speed c a , and acoustic attenuation β, also affect the thermoacoustic signals as they propagate through the tissue. The acoustic and thermal properties of the breast tissue and skin are compiled from [11][12][13][14][15][16][17] and listed in Table 2.…”

Section: Endogenous Properties Of the Human Breastmentioning

confidence: 99%

Comparison of Radar and Thermoacoustic Technique in Microwave Breast Imaging

Zhu

Popović²

2011

PIER B

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Abstract-Microwave radar and microwave-induced thermoacoustic technique exploit the contrast in the permittivity and conductivity between malignant and healthy tissue.They have emerged as promising techniques for detecting breast cancers. This paper compares the imaging capability of these techniques in the presence of homogeneous and heterogeneous breast tissue. Relying on the data from the finite-difference time-domain simulations, the study shows that both techniques are capable of imaging homogeneous objects. In the presence of electromagnetic dispersion and heterogeneity, radar signals suffer from strong dispersion and multiple scattering, which decorrelate the signals with the scatterers. The microwaveinduced thermoacoustic technique takes the advantage of breast being acoustically homogeneous and is capable of generating high-quality images.

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“…First order Debye model parameters were mapped to each pixel value using the piecewise-linear procedure described in [15]. The model was resized to a 1.0mm×1.0mm resolution to satisfy the FDTD grid size.…”

Section: -D Mri-derived Breast Modelmentioning

confidence: 99%

“…Then, a 5.0mm diameter tumor was added in the fibroglandular region of the model. The values of the nominal Debye parameters for the various tissues were taken from [15].…”

Section: -D Mri-derived Breast Modelmentioning

confidence: 99%