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Title: Latest Advances in The Interdisciplinary Disciplines of Optics and Life Sciences - Biomedical Optics Special Issue
Journal:
WeChat Link:Biomedical Optics is an Interdisciplinary Discipline of Optics and Life Sciences. In recent years, with the development of life science research into the cellular level, the application of optics in biomedical research has been widely paid attention to. Biomedical optics can be divided into two branches according to the purpose of research: first, the use of advanced optical methods to obtain biomedical information, the latest development trend is in body high-speed imaging, such as ultra-resolution imaging, fluorescence imaging, optical co-graphing imaging, photo-acoustic imaging, and second, the use of light and biological tissue interaction to treat diseases, such as photodynamic therapy, the latest development trend is precision medicine. This issue of Biomedical Optics includes two reviews and six research papers covering most of the topics mentioned above.
special issue, Cheng et al. of South China Normal University proposed an extended depth-of-depth-of-range acoustic microscope system that can achieve constant spatial resolution and relatively uniform excitation efficiency over a longer axial range. Gong et al. at Shenzhen University used a random optical reconstruction microscope (STORM) to observe the twirular structure of the tunnel nanotubes that connect live cells to fluorescent dyes, and to observe the rupture process of the tunnel nanotubes at high spatial resolution.
Huang et al. of
Polytechnic University summarized the preparation and performance of black phosphorus and reviewed the application of a multi-functional platform based on black phosphorus in disease diagnosis and treatment, including cancer, bone injury, brain disease, oxidative disease and kidney damage. Xu et al. of the University of Macau reviewed recent advances in the study of brain cognitive function based on optical and polymodel neuroimaging, including the processing of the basis of brain cognitive function during circadian rhythms, how circadian rhythms affect cognitive components, and brain circuits associated with cognitive function. Yakovlev of russia's
Shemyakin and Ovchinnikov Institute of Bioorganic Chemistry and others demonstrated fluorescence diagnosis (FD) results for bile tube cell carcinoma obtained from improved fiber optics, as well as laser treatment results for photodynamic therapy (PDT), and found that the use of therapeutic lasers with wavelengths of 660nm was feasible for the diagnosis and treatment of bile tube cancer, which can significantly reduce surgical time without reducing efficacy. Savelieva et al., of the
Prokhorov Institute of General Physics in Russia, proposed a spectroscopic processing algorithm that combines empirical and theoretical methods to correct the effects of different optical properties of biological tissues on the analysis of photosensitive concentrations based on fluorescence spectroscopy; Special metabolism in tissues and normal brain tissue, the use of 5-amino acetyliclic acid (5-ALA)-induced primary pyrethroid IX (PpIX) and methylene blue (MB) in fluorescence diagnosis can prevent crosstalk between tumor cells and immune cells with different genes. Ogien et al. of DAMAE Medical in France introduced the latest advances in cofocus optical co-graphing imaging (LCOCT), a technique that produces deeply adjustable horizontal or horizontally adjustable vertical cross-sectional images, as well as 3D images.
that this special issue will provide a useful reference for researchers in the field of biomedical optics and promote further research in this field.Dan ZHU, Walter BLONDEL, Junle QU, Xueding WANG, Sihua YANG
Front. Optoelectron.. 2020, 13 (4): 305-306.Zhongwen CHENG, Haigang MA, Zhiyang WANG, Sihua YANG
Front. Optoelectron.. 2020, 13 (4): 307-317.Wanjun GONG, Wenhui PAN, Ying HE, Meina HUANG, Jianguo ZHANG, Zhenyu GU, Dan ZHANG, Zhigang YANG, Junle QU
Front. Optoelectron.. 2020, 13 (4): 318-326.Xiazi HUANG, Yingying ZHOU, Chi Man WOO, Yue PAN, Liming NIE, Puxiang LAI
Front. Optoelectron.. 2020, 13 (4): 327-351.Dmitry V. YAKOVLEV, Dina S. FARRAKHOVA, Artem A. SHIRYAEV, Kanamat T. EFENDIEV, Maxim V. LOSCHENOV, Liana M. AMIRKHANOVA, Dmitry O. KORNEV, Vladimir V. LEVKIN, Igor V. RESHETOV, Victor B. LOSCHENOV
Front. Optoelectron.. 2020, 13 (4): 352-359.Tatiana A. SAVELIEVA, Marina N. KURYANOVA, Ekaterina V. AKHLYUSTINA, Kirill G. LINKOV, Gennady A. MEEROVICH, Victor B. LOSCHENOV
Front. Optoelectron.. 2020, 13 (4): 360-370.Yulia S. MAKLYGINA, Alexei S. SKOBELTSIN, Tatiana A. SAVELIEVA, Galina V. PAVLOVA, Ivan V. CHEKHONIN, Olga I. GURINA, Anastasiya A. Chernysheva, Sergey A. Cherepanov, Victor B. LOSCHENOV
Front. Optoelectron.. 2020, 13 (4): 371-380.Jonas OGIEN, Anthony DAURES, Maxime CAZALAS, Jean-Luc PERROT, Arnaud DUBOIS
Front. Optoelectron.. 2020, 13 (4): 381-392.Sergey Yu. KSENOFONTOV, Pavel A. SHILYAGIN, Dmitry A. TERPELOV, Valentin M. GELIKONOV, Grigory V. GELIKONOV
Front. Optoelectron.. 2020, 13 (4): 393-401.Xixuan LIU, Xi TANG, Zhengmao WU, Guangqiong XIA
Front. Optoelectron.. 2020, 13 (4): 402-408.Qixin WAN, Hao LIN, Shuai WANG, Jiangnan DAI, Changqing CHEN
Front. Optoelectron.. 2020, 13 (4): 409-417.Shihua ZHAO, Lipeng SUN, Gang LI, Yun LIU, Binbing LIU
Front. Optoelectron.. 2020, 13 (4): 418-424. Jieyin BAI, Jie ZHU, Rui ZHAO, Fengqiang GU, Jiao WANG
Front. Optoelectron.. 2020, 13 (4): 425-432. Md. Mostafa FARUK, Nazifa Tabassum KHAN, Shovasis Kumar BISWAS
Front. Optoelectron.. 2020, 13 (4): 433-440. Huazhong University of Science and Technology, China University, de Lorraine, France Shenzhen University, China University of Michigan, USA South China Normal University, China Frontiers of Optoelectronics (FOE) journals are published online and in print by the Head of Education, Higher Education Press, and one of a series of English academic journals published overseas by Springer Publishing in Germany. Co-editor-in-chief
Zhang Xinliang, Peking University's Yu Qihuang and Hua zhong university of science and technology.
aims to introduce the latest research results and cutting-edge progress in the field of international photoelectronics, and strive to become an important information platform for rapid academic exchange between researchers in this field and their counterparts at home and abroad. The magazine is co-sponsored by higher education publishing house, Hua zhong university of science and technology and China Optical Society, the contractor is Wuhan Photoelectrelectrology National Research Center. FOE journals have been included in TheEmerging Sources Citation Index (ESCI), Ei Compendex, SCOPUS, INSPEC, Google Scholar, CSA, Chinese Science Citation Database (CSCD), OCLC, SCImago, Summon by ProQuest, etc. In 2019, he was selected as a candidate for the China Science and Technology Journal's Excellence Action Plan echelon journal project. (Source: Science.com)