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【FOE】2020年第四期(生物医学光学专刊)文章目录

来源:     作者:    发布时间:2021年01月18日    浏览:

专刊介绍

生物医学光学是光学与生命科学的交叉学科,生物医学光学根据研究目的可分为两大分支:一是利用先进的光学方法获取生物医学信息,其最新发展趋势是在体高速成像,如超分辨成像、荧光成像、光学相干层析成像、光声成像,这为从生物分子、细胞、组织到整体跨层次,从结构到功能的研究提供了重要的监测工具;二是利用光与生物组织的相互作用来治疗疾病,如光动力疗法,其最新发展趋势是精准医疗。本期“生物医学光学”专刊包括两篇综述和六篇研究性论文,涵盖了上面提到的大部分主题。

本期特刊中,华南师范大学杨思华教授课题组提出了一种扩展景深光声显微镜系统,该系统可以在较长的轴向范围内实现恒定的空间分辨率和相对均匀的激发效率;深圳大学屈军乐教授课题组利用随机光学重建显微镜(STORM)观察到了连接活细胞与荧光染料的隧道纳米管的管状结构,以极高的空间分辨率实现隧道纳米管断裂过程的动态观测。香港理工大学的赖溥祥教授课题组总结了黑磷的制备和性能,回顾了基于黑磷烯的多功能平台在疾病诊断和治疗中的应用,其中包括癌症、骨损伤、脑疾病、进行氧化性疾病和肾损伤。澳门大学的袁振教授课题组对基于光学和多模态神经成像的脑认知功能研究的最近进展进行了综述,其中包括昼夜节律阶段脑认知功能基础的处理、昼夜节律如何影响认知成分,以及与认知功能相关的脑回路。俄罗斯科学院Shemyakin和Ovchinnikov生物有机化学研究所的Yakovlev等人展示了采用改进的光纤获得的胆管细胞癌的荧光诊断(FD)结果,以及光动力疗法(PDT)的激光治疗结果,证实660nm的激光对胆管癌的诊断和治疗的可行性,且能在不降低疗效的前提下显著缩短手术时间。俄罗斯科学院普罗霍罗夫普通物理研究所的Savelieva等人提出了一种光谱处理算法,该算法将经验和理论方法相结合,以校正生物组织的不同光学性质对基于荧光光谱法分析光敏剂浓度的影响;Maklygina等人发现由于胶质瘤组织和正常脑组织中的特殊代谢,在荧光诊断中使用5-氨基乙酰丙酸(5-ALA)诱导的原卟啉IX(PpIX)和亚甲基蓝(MB)可以防止肿瘤细胞与具有不同基因的免疫细胞之间的串扰。法国DAMAE医疗的Dubois等人介绍了线场共焦光学相干层析成像(LCOCT)的最新进展,采用这种技术可以生成深度可调的水平截面图像或横向位置可调的垂直截面图像,以及三维图像。

希望本期专刊能为生物医学光学领域的研究人员提供有益的参考,并推动该领域研究的进一步深入。


本期专刊的目录如下

EDITORIAL

Preface to the special issue on “Biomedical Optics”

Dan ZHU, Walter BLONDEL, Junle QU, Xueding WANG, Sihua YANG

Front. Optoelectron.. 2020, 13 (4): 305-306.


RESEARCH ARTICLE

In vivo volumetric monitoring of revascularization of traumatized skin using extended depth-of-field photoacoustic microscopy

Zhongwen CHENG, Haigang MA, Zhiyang WANG, Sihua YANG

Front. Optoelectron.. 2020, 13 (4): 307-317.


RESEARCH ARTICLE

Super-resolution imaging of the dynamic cleavage of intercellular tunneling nanotubes (cover paper)

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.


REVIEW ARTICLE

Multifunctional layered black phosphorene-based nanoplatform for disease diagnosis and treatment: a review

Xiazi HUANG, Yingying ZHOU, Chi Man WOO, Yue PAN, Liming NIE, Puxiang LAI

Front. Optoelectron.. 2020, 13 (4): 327-351.


RESEARCH ARTICLE

New approaches to diagnostics and treatment of cholangiocellular cancer based on photonics methods

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.


RESEARCH ARTICLE

Attenuation correction technique for fluorescence analysis of biological tissues with significantly different optical properties

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.


RESEARCH ARTICLE

Study of possibility of cell recognition in brain tumors

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.


RESEARCH ARTICLE

Line-field confocal optical coherence tomography for three-dimensional skin imaging

Jonas OGIEN, Anthony DAURES, Maxime CAZALAS, Jean-Luc PERROT, Arnaud DUBOIS

Front. Optoelectron.. 2020, 13 (4): 381-392.


RESEARCH ARTICLE

Numerical method for axial motion artifact correction in retinal spectral-domain optical coherence tomography

Sergey Yu. KSENOFONTOV, Pavel A. SHILYAGIN, Dmitry A. TERPELOV, Valentin M. GELIKONOV, Grigory V. GELIKONOV

Front. Optoelectron.. 2020, 13 (4): 393-401.


RESEARCH ARTICLE

Time-delay signature characteristics of the chaotic output from an optoelectronic oscillator by introducing an optical feedback

Xixuan LIU, Xi TANG, Zhengmao WU, Guangqiong XIA

Front. Optoelectron.. 2020, 13 (4): 402-408.


RESEARCH ARTICLE

Ripening-resistance of Pd on TiO2(110) from first-principles kinetics

Qixin WAN, Hao LIN, Shuai WANG, Jiangnan DAI, Changqing CHEN

Front. Optoelectron.. 2020, 13 (4): 409-417.


RESEARCH ARTICLE

A CCD based machine vision system for real-time text detection

Shihua ZHAO, Lipeng SUN, Gang LI, Yun LIU, Binbing LIU

Front. Optoelectron.. 2020, 13 (4): 418-424.


RESEARCH ARTICLE

Area-based non-maximum suppression algorithm for multi-object fault detection

Jieyin BAI, Jie ZHU, Rui ZHAO, Fengqiang GU, Jiao WANG

Front. Optoelectron.. 2020, 13 (4): 425-432.


RESEARCH ARTICLE

Highly nonlinear bored core hexagonal photonic crystal fiber (BC-HPCF) with ultra-high negative dispersion for fiber optic transmission system

Md. Mostafa FARUK, Nazifa Tabassum KHAN, Shovasis Kumar BISWAS

Front. Optoelectron.. 2020, 13 (4): 433-440.


专刊编辑

Dan Zhu

Huazhong University of Science and Technology, China (Lead Editor)

Walter Blondel

Université de Lorraine, France

Junle Qu

Shenzhen University, China

Xueding Wang

University of Michigan, USA

Sihua Yang

South China Normal University, China