Changes of electrical impedance characteristics with the radiation induced damage on biological tissue constituents

Kil, Sang Hyeong; Kim, Gyeong Rip; Lee, Moo Seok; Kwak, Jong Hyeok; Lim, Yeong Hyeon; Kim, Gun Do; Lee, Jong Kyu

doi:10.3233/xst-210840

Cited by 2 publications

(2 citation statements)

References 14 publications

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“…Тому всі фізіологічні і патологічні процеси, що відбуваються в мембранному комплексі тканин організму впливають і на рівень реактивної складової, і, відповідно, на рівень його повного імпедансу. Найвиразніше реактивна провідність виявляється під час зондуванням високочастотним змінним струмом[79,80,81].…”

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“…В той же час встановлено, що зміни активної частини комплексного опору R (рис. 33) не досягали рівня статистичної вірогідності в жодній з досліджуваних точок, що вказує на сталість хімічного складу клітин, оскільки відомо що активний опір залежить тільки від густини та хімічного складу речовини[79,80,81].…”

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Complications of radiation therapy in cancer patients and changes in homeostasis

Krasnoselskyi,

Kulinich,

Hladkykh

2023

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The monograph is devoted to the analysis of catamnetic factors associated with an increased risk of developing late radiation complications. A retrospective analysis of 254 case histories of patients with malignant neoplasms of the cervix and 81 case histories of patients with malignant neoplasms of the breast after radiation therapy on AGAT-R, ROKUS-AM, Clinac 600C and who were hospitalized for late complications of radiation therapy in the department of radiation pathology and palliative medicine of the State Organization "Grigoriev Institute for Medical Radiology and Oncology of the National Academy of Medical Sciences of Ukraine" in the period 1994–2021. The prognostic value of initial hematological and biochemical indicators, as well as clinical and anamnestic parameters in the development of late radiation complications, was established. The monograph will be useful for oncologists, oncogynecologists, radiologists, radiation therapists, radiobiologists, biochemists and students of higher education institutions of medical profile. Tables – 21, figures – 35, bibliography – 81 references.

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Complications of radiation therapy in cancer patients and changes in homeostasis

Krasnoselskyi,

Kulinich,

Hladkykh

2023

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Histological and impedance changes of skeletal muscle by whole-body critical irradiation in a rat model

Lee

Kil

Kim

et al. 2022

XST

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In this study, the electrical resistance of the whole body and histological changes of skeletal muscle were investigated in rats according to the increase in radiation dose. A total of 15 male Sprague–Dawley rats (5-weeks-old) were randomly divided into 5 groups (each, n = 3). Each group received 1 Gy, 5 Gy, 10 Gy and 20 Gy systemic exposure, and the non-irradiated group was used as a control for morphological comparison. After attaching an electrode clip to the forelimb of the rat, an AC frequency was applied before and 4 days after irradiation using an impedance/gain-phase analyzer, and the measurement system was automatically controlled with LabVIEW. Comparing to before irradiation after 4 days, the difference in the average impedance values at 1 Gy, 5 Gy, 10 Gy, and 20 Gy was 1188±989 ohm, 3076±2251 ohm, 7650±6836 ohm, and 10478±6250 ohm, respectively. By comparing the normal group and the experimental group, muscle fiber atrophy and collagen fibers around blood vessels were observed (p < 0.05, control group vs 5 Gy or more high-dose group). These results confirmed the previously reported morphological changes of skeletal muscle and our hypothesis that whole-body impedance measurement enables to reflect tissue changes after irradiation.

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Changes of electrical impedance characteristics with the radiation induced damage on biological tissue constituents

Cited by 2 publications

References 14 publications

Complications of radiation therapy in cancer patients and changes in homeostasis

Complications of radiation therapy in cancer patients and changes in homeostasis

Histological and impedance changes of skeletal muscle by whole-body critical irradiation in a rat model

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