BACKGROUND AND PURPOSE: To measure the dielectric constant of irradiated human skin in order to test the feasibility of the dielectric measurements in the quantitation of acute and late radiation reactions. MATERIALS AND METHODS: The dielectric constant of irradiated breast skin was measured at an electromagnetic frequency of 300 MHz in 21 patients during postmastectomy radiotherapy. The measurements were performed with an open-ended coaxial line reflection method. The irradiation technique consisted of an anterior photon field to the lymph nodes and a matched electron field to the chest wall using conventional fractionation of five fractions/week to 50 Gy. Fourteen out of the 21 patients were remeasured 2 years later and the skin was palpated for subcutaneous fibrosis. RESULTS: At 5 weeks the dielectric constant had decreased by 31 and 39% for the investigated skin sites of the photon and electron fields, respectively. There was a statistically significant inverse correlation between the mean dielectric constant and the clinical score of erythema. An unexpected finding was a decrease of the dielectric constant of the contralateral healthy skin during radiotherapy. Two years later a statistically significant positive correlation was found between the dielectric constant at the irradiated skin sites and the clinical score of subcutaneous fibrosis. CONCLUSIONS: Dielectric measurements non-invasively yield quantitative information concerning radiation-induced skin reactions.
BACKGROUND AND PURPOSE: To measure the dielectric constant of irradiated human skin in order to test the feasibility of the dielectric measurements in the quantitation of acute and late radiation reactions. MATERIALS AND METHODS: The dielectric constant of irradiated breast skin was measured at an electromagnetic frequency of 300 MHz in 21 patients during postmastectomy radiotherapy. The measurements were performed with an open-ended coaxial line reflection method. The irradiation technique consisted of an anterior photon field to the lymph nodes and a matched electron field to the chest wall using conventional fractionation of five fractions/week to 50 Gy. Fourteen out of the 21 patients were remeasured 2 years later and the skin was palpated for subcutaneous fibrosis. RESULTS: At 5 weeks the dielectric constant had decreased by 31 and 39% for the investigated skin sites of the photon and electron fields, respectively. There was a statistically significant inverse correlation between the mean dielectric constant and the clinical score of erythema. An unexpected finding was a decrease of the dielectric constant of the contralateral healthy skin during radiotherapy. Two years later a statistically significant positive correlation was found between the dielectric constant at the irradiated skin sites and the clinical score of subcutaneous fibrosis. CONCLUSIONS: Dielectric measurements non-invasively yield quantitative information concerning radiation-induced skin reactions.
Authors: Silvia C Formenti; Howard Hsu; Maria Fenton-Kerimian; Daniel Roses; Amber Guth; Gabor Jozsef; Judith D Goldberg; J Keith Dewyngaert Journal: Int J Radiat Oncol Biol Phys Date: 2012-04-09 Impact factor: 7.038
Authors: Y Huang; J Sanz; N Rodríguez; X Duran; A Martínez; X Li; P Foro; M Conde; M Zhao; F Liu; A Reig; J Dengra; I Membrive; P Pérez; M Algara Journal: Clin Transl Oncol Date: 2021-11-18 Impact factor: 3.340
Authors: Kent A Gifford; Christopher L Nelson; Steven M Kirsner; Kelly D Kisling; Matthew T Ballo; Elizabeth S Bloom Journal: J Contemp Brachytherapy Date: 2012-03-30