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Review
. 2022 May 20;22(10):3894.
doi: 10.3390/s22103894.

Review of Thermal and Physiological Properties of Human Breast Tissue

Jeantide Said Camilleri  1 Lourdes Farrugia  1 Sergio Curto  2 Dario B Rodrigues  3 Laura Farina  4 Gordon Caruana Dingli  5 Julian Bonello  1 Iman Farhat  1 Charles V Sammut  1
Affiliations
Review

Review of Thermal and Physiological Properties of Human Breast Tissue

Jeantide Said Camilleri et al. Sensors (Basel). .

Abstract

Electromagnetic thermal therapies for cancer treatment, such as microwave hyperthermia, aim to heat up a targeted tumour site to temperatures within 40 and 44 °C. Computational simulations used to investigate such heating systems employ the Pennes' bioheat equation to model the heat exchange within the tissue, which accounts for several tissue properties: density, specific heat capacity, thermal conductivity, metabolic heat generation rate, and blood perfusion rate. We present a review of these thermal and physiological properties relevant for hyperthermia treatments of breast including fibroglandular breast, fatty breast, and breast tumours. The data included in this review were obtained from both experimental measurement studies and estimated properties of human breast tissues. The latter were used in computational studies of breast thermal treatments. The measurement methods, where available, are discussed together with the estimations and approximations considered for values where measurements were unavailable. The review concludes that measurement data for the thermal and physiological properties of breast and tumour tissue are limited. Fibroglandular and fatty breast tissue properties are often approximated from those of generic muscle or fat tissue. Tumour tissue properties are mostly obtained from approximating equations or assumed to be the same as those of glandular tissue. We also present a set of reliable data, which can be used for more accurate modelling and simulation studies to better treat breast cancer using thermal therapies.

Keywords: Pennes bioheat equation; breast cancer; breast tissue; physiological properties; thermal properties.

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Conflict of interest statement

The authors declare no conflict of interest.

Figures

Figure 1
Figure 1
Anatomy of a healthy breast. Image from [14].
Figure 2
Figure 2
Sagittal cross-section of breast MRI scans showing the breast density variations: (a) almost entirely fat, (b) scattered fibroglandular tissue, (c) heterogeneous fibroglandular tissue, and (d) extreme fibroglandular tissue. Images from [16].
See this image and copyright information in PMC

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