Passive microwave radiometry in biomedical studies

Passive microwave radiometry (MWR) measures natural emissions in the range 1–10 GHz from proteins, cells, organs and the whole human body. The intensity of intrinsic emission is determined by biochemical and biophysical processes. The nature of this process is still not very well known. Infrared thermography (IRT) can detect emission several microns deep (skin temperature), whereas MWR allows detection of thermal abnormalities down to several centimeters (internal or deep temperature). MWR is noninvasive and inexpensive. It requires neither fluorescent nor radioactive labels, nor ionizing or other radiation. MWR can be used in early drug discovery as well as preclinical and clinical studies. © 2020

Авторы

Goryanin I.^1, ^2, ³ , Karbainov S.⁴ , Shevelev O. ⁵ , Tarakanov A.⁶ , Redpath K.^7, ⁸ , Vesnin S.^8, ⁹ , Ivanov Y.^10, ¹¹

Журнал

Drug Discovery Today

Издательство

Elsevier Ltd

Номер выпуска

Язык

Английский

Страницы

757-763

Статус

Опубликовано

Ссылка

Внешняя ссылка

DOI

10.1016/j.drudis.2020.01.016

Том

Год

2020

Организации

¹ University of Edinburgh, United Kingdom
² Okinawa Institute Science and Technology, Okinawa, Japan
³ Tianjin Institute of Industrial Biotechnology, Tianjin, China
⁴ AMETEC International, Edinburgh, United Kingdom
⁵ Peoples’ Friendship University of Russia, Moscow, Russian Federation
⁶ Rostov State Medical University, Russian Federation
⁷ Manus Neurodynamica, Edinburgh, United Kingdom
⁸ Medical Microwave Radiometry (MMWR), Edinburgh, United Kingdom
⁹ Bauman Moscow State Technical University (BMSTU), Moscow, Russian Federation
¹⁰ Institute of Biomedical Chemistry (IBMC), Moscow, Russian Federation
¹¹ Joint Institute for High Temperatures of the RAS, Moscow, Russian Federation

Ключевые слова

big data; biomedical engineering; biophysics; breast tissue; brown adipose tissue; capillary density; diabetic foot; functional magnetic resonance imaging; human; in vitro study; infrared radiation; microwave radiation; passive microwave radiometry; protein denaturation; radiometry; Review; skin temperature; thermography; urology; vein thrombosis; whole body scintiscanning

Дата создания

02.11.2020

Дата изменения

02.11.2020

Постоянная ссылка

https://repository.rudn.ru/ru/records/article/record/64889/

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