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作者

Takeo Ogama
Takeo Ogama

Takeo Ogama

高级产品和策略规划师和产品经理

Takeo Ogama是美洲奥林巴斯公司的高级产品和战略规划师,也是显微镜相机的产品经理。他在相机等各种产品的研发部门拥有八年的工作经验,并且在产品规划、营销和管理方面也拥有八年的经验。他拥有日本大阪大学中微子物理学硕士学位。

Alket Mertiri

Alket Mertiri

产品经理助理

Alket Mertiri博士是奥林巴斯产品经理助理。他致力于通过从基础型显微镜到高级技术(如全内反射显微镜)的解决方案推动科学家的研究工作。Alket在光学和光子学领域拥有12年的经验。他曾获得波士顿大学材料科学与工程专业博士学位,并在此期间从事开发新型显微观察技术的研究。

Lauren Alvarenga

Lauren Alvarenga

生命科学显微镜产品经理

Lauren Alvarenga是奥林巴斯美洲公司科学解决方案部门研究成像的产品经理。她目前负责成像软件以及倒置和超分辨率显微镜。她拥有罗彻斯特理工学院的生物医学摄影通信理学学士学位。

Ralf Schaefer

Ralf Schaefer

高级营销项目经理

Ralf Schaefer是奥林巴斯欧洲公司科学解决方案营销沟通部门的高级营销项目经理。他在汉堡大学获得化学学位之后,2012年9月加入奥林巴斯之前,曾在多家部门和公司的各种技术环境中从事营销沟通工作。作为市场沟通经理,他始终致力于在各种项目和角色中推动和塑造显微镜和工业产品的公众知名度。

Kerry Israel

Kerry Israel

营销沟通经理

Kerry Israel是奥林巴斯美洲公司科学解决方案部门生命科学营销与沟通经理。她拥有布兰代斯大学文学学士学位,并且在从广告和社交媒体策略到基层推广的市场营销各个层面拥有超过15年的工作经验。

Alec De Grand

Alec De Grand

产品经理

Alec De Grand是奥林巴斯美洲公司生命科学显微镜部门的虚拟载玻片扫描仪和正置显微镜的产品经理。他在奥林巴斯就职超过10年,在此期间,曾负责管理过临床产品、营销计划、显微成像课程和贸易展会。

Carlo Alonzo

Carlo Alonzo

产品经理

Carlo Alonzo博士是奥林巴斯科学解决方案部门的多光子显微镜和定制解决方案产品经理。他负责发现和了解那些能够支持科学家们实现其研究目标的技术。对于生物光学的兴趣让其进入波士顿学术圈,并在此花了数年时间沉浸于使用多光子显微镜的研究。他拥有菲律宾大学物理学博士学位,并在丹麦技术大学和哈佛医学院麻萨诸塞州总医院接受过博士后培训。

Joanna Hawryluk

Joanna Hawryluk

产品经理助理

Joanna Hawryluk博士是位于美国马萨诸塞州沃尔瑟姆市的奥林巴斯美洲公司研究级成像产品经理助理。她曾在康涅狄格州斯托斯市的康涅狄格大学生理学和神经生物学系获得博士学位。她攻读博士期间主要研究电压门控KCNQ通道和HCN通道对脑干化学感受神经元的调节机制及其对呼气驱动的控制。自2017年以来,她一直在奥林巴斯任职,目前负责BXWI和OpenStand系列电生理显微镜以及Alpha3光片显微镜。

Laz Amador

Laz Amador

高级经理

Laz Amador是OCA国家应用团队的高级经理。Laz拥有36年的显微镜销售经验,自1988年以来一直在奥林巴斯工作。在加入应用团队之前,Laz曾担任奥林巴斯拉丁美洲公司技术营销执行总监。Laz与妻子Jan住在佛罗里达州的韦斯顿。

Rebecca Chandler

Rebecca Chandler

特约撰稿人

Rebecca是奥林巴斯科学解决方案公司(Olympus Scientific Solutions)的特约撰稿人。她拥有恩迪科特学院的新闻学学士学位,擅长撰写与科学和工业领域趋势和技术相关的文章。Rebecca与奥林巴斯工程师和科学家密切合作,负责撰写有关最新激光扫描、超分辨率、多光子、正置、体视和倒置显微镜系统以及前沿光学部件、相机和软件的文章。跟进她的作品即可了解奥林巴斯在细胞学、病理学、教育等众多领域的最新应用。

James Lopez博士

James Lopez博士

生命科学应用部门经理

James Lopez于2010年获得芝加哥大学生物医学专业的博士学位。James在钙成像、FRET、活细胞成像和活体成像方面拥有近十年的经验,在加入奥林巴斯后担任共聚焦和多光子销售代表。随后,他转入为共聚焦和多光子系统提供支持的奥林巴斯生命科学应用部门。目前,他负责管理美国、加拿大和拉丁美洲市场的生命科学应用部门。

Matthew Weitzman

Matthew Weitzman

应用专员

Matthew Weitzman博士是奥林巴斯共聚焦和多光子成像系统的应用专家。他拥有特拉华大学生物科学博士学位,并具备多年的高级成像经验。

Janeen Manning

Janeen Manning

产品经理

Janeen Manning是奥林巴斯美洲公司科学解决方案部门临床和教育显微镜的产品经理。她拥有缅因州大学生物化学、微生物学和分子生物学的理学学士学位,以及哈佛大学生物技术的文科硕士学位。自2017年以来,她一直在奥林巴斯工作;加入奥林巴斯之前,她曾在一家传染病相关医疗器械公司工作。

Christopher D. Higgins

Christopher D. Higgins

业务开发经理

Christopher Higgins是奥林巴斯生命科学业务发展经理。他在显微镜领域拥有24年的从业经验,其职业生涯的大部分时间致力于科研和临床方面的各类生物光学显微镜的产品管理和应用。 

Chris在担任现任职务时,直接与研究者和病理学家共同合作开发新兴技术和应用。如今使用虚拟显微镜系统采集的图像不仅可以讲述单个细胞的故事,更可以展现整个组织,这对于科研和教育等领域非常重要。Chris认为,伴随着临床领域里各种应用的接受程度的不断增加,下一个伟大的前沿技术将是迎接全玻片扫描和人工智能分析带来的全新时代。

Chris是数字病理协会会员,并拥有迈阿密大学理学学士学位。他还是一位狂热的户外活动爱好者和经验丰富的自然摄影师,现居住于美国宾夕法尼亚州利哈伊谷。 

Cheng-Hao Chien

Cheng-Hao Chien

奥林巴斯美国公司生命科学/科学解决方案部门产品经理助理

Chien-Hao Chien博士是设在美国马萨诸塞州沃尔瑟姆市的奥林巴斯美洲公司生命科学/科学解决方案部门的产品经理助理。他在台湾国立阳明大学获得生物光子学博士学位,并曾在波士顿塔夫茨大学医学院神经科学系从事博士后培训。他在高级显微镜和生命科学研究领域拥有十年丰富经验,并于2020年加入奥林巴斯,目前负责多光子显微镜和定制化解决方案。

Brendan Brinkman

Brendan Brinkman

奥林巴斯生命科学新业务战略

Brendan曾在包括原代小鼠神经球诱导等干细胞领域工作数年。数年之后,他加入奥林巴斯并担任核心成像设备经理,负责协助构建新型系统。2017年,他在东京奥林巴斯工作2年半之后返回现在的岗位,在此期间他协助开发了下一代解决方案。

Kathy Lindsley

Kathy Lindsley

生命科学应用应用专家

Manoel Veiga

Manoel Veiga

生命科学研究应用专家

Heiko Gäthje

Heiko Gäthje

培训学院高级培训师

Rebecca Bonfig

Rebecca Bonfig

共聚焦显微镜产品经理

Rebecca Bonfig博士是驻扎在奥林巴斯马萨诸塞州沃尔瑟姆市波士顿郊外工厂的共聚焦显微镜产品经理。她的研究生论文在路易斯维尔大学生理学与生物物理学系完成,研究方向为甲状旁腺激素对肾磷酸盐转运蛋白Npt2a的转录后调控。Bonfig博士自2015年以来一直使用奥林巴斯工作,主要为美国、加拿大和拉丁美洲的FLUOVIEW™系列产品提供支持。

Bülent Peker

Bülent Peker

高级产品营销经理

Flavio Giacobone

Flavio Giacobone

产品营销经理

Shohei Imamura

Shohei Imamura

战略项目经理

Shohei Imamura是奥林巴斯美洲公司科学解决方案部门的战略项目经理。他在科学显微镜销售领域拥有4年工作经验,并在软件、战略项目管理和项目执行等产品规划方面拥有7年经验。他拥有日本明治大学的商业学士学位。

Daniel Bemmerl

Daniel Bemmerl

高端显微镜系统的区域经理

Paul Monnier

Paul Monnier

生命科学应用科学家

Gulpreet Kaur博士

Gulpreet Kaur博士

美国奥林巴斯公司科学解决方案部门科研成像应用专家

Kaur博士在威斯康星大学麦迪逊分校分子生物学系获得博士学位,并在此期间使用活细胞转盘共聚焦显微镜进行细胞器生物学研究。

Kaur博士在显微镜领域拥有6年以上的经验,并从事过包括共聚焦、转盘、超分辨率和光片成像在内多种技术的研究。Kaur博士担任过威斯康星大学麦迪逊分校的显微镜和图像分析中心平台的讲师,对研究者们提供关于实验设计和成像条件优化方面的建议。

Kaur博士是奥林巴斯科学解决方案团队的全国负责人,该团队专门负责研究Alpha3光片系统,并帮助研究者们在科研项目中应用前沿的成像技术。

Nicolas Bourg博士

Nicolas Bourg博士

Abbelight首席技术官兼联合创始人

Sarah Williams

Sarah Williams

特约撰稿人

在2013年加入奥林巴斯营销沟通部门之前,Sarah曾在广播媒体行业担任近十年的研究员和撰稿人。目前,Sarah将自己身为作家和编辑的技能运用到为奥林巴斯产品及专业领域相关主题提供引人入胜的高质量素材上。她曾撰写过包括超声(UT)和涡流检测(ECT)、相控阵(PA)、全聚焦方法(TFM)和全矩阵采集(FMC)、以及工业显微镜和内窥镜等一些无损检测(NDT)技术。她经常调研奥林巴斯产品对改善我们身边的世界的品质和安全所做出的贡献。Sarah在魁北克市的办公室工作,并与伴侣大卫(David)和三个孩子Sophie、Anouk和Éloi住在一起。

Irina Rakotoson

Irina Rakotoson

生命科学产品经理

Mike Woerdemann博士

Mike Woerdemann博士

Olympus Soft Imaging Solutions, GmbH产品经理

Mike Woerdemann曾获得基于结构光场的光镊技术博士学位。他曾担任奥林巴斯高内涵筛选系统提供支持的应用专家多年,在此期间积累了领域内深厚的实用知识。Mike现在担任Olympus Soft Imaging Solutions负责开发高内涵筛选系统和深度学习产品的产品经理。

Chunsong Yan

Chunsong Yan

Process Systems业务发展经理

Chunsong Yan是奥林巴斯澳大利亚和新西兰公司生命科学业务发展经理。他目前负责共聚焦、多光子、光片和玻片扫描系统。自2003年加入奥林巴斯以来,Chunsong在担任各种职务的同时始终努力为客户提供最佳成像解决方案。

Minju Kim

Minju Kim

奥林巴斯韩国产品专员

Junsung Kim

Junsung Kim

奥林巴斯韩国产品专员

Ganesh Kadasoor

Ganesh Kadasoor

Olympus Medical Systems India Ltd应用专家

Wei Juan Wong

Wei Juan Wong

奥林巴斯新加坡高级产品专员

Srivats Hariharan

Srivats Hariharan

奥林巴斯新加坡公司产品应用经理

Stefan Marawske

Stefan Marawske

高端生命科学系统高级销售专员

Bunryu Arashi

Bunryu Arashi

OEM经理

Bunryu Arashi在欧洲奥林巴斯科学解决方案担任OEM经理。Bunryu拥有12年的显微镜产品开发经验,曾经为奥林巴斯BX和CKX系列显微镜设计过物镜,相机适配器,以及照明光学系统。他拥有日本大阪大学的工程学硕士学位。

Craig Rappaport

Craig Rappaport

生命科学显微镜高级销售专员

Craig Rappaport是奥林巴斯生命科学部门的高级显微镜销售代表。他在显微镜销售行业从业26年,积累了多年的科学技术营销经验。Craig在加州大学圣塔芭芭拉分校获得文学学士学位,并在杜克大学富夸商学院获得MBA学位。他于2009年加入奥林巴斯,并专注于市场分析、客户之声收集和新产品研究。自2012年以来,他一直在覆盖南加州圣地亚哥和帝国县的销售团队工作。

Marcus Krauel

Marcus Krauel

OEM经理

Marcus Krauel是奥林巴斯欧洲公司的OEM经理。凭借12年的光学工作经验,他负责为整个欧洲的奥林巴斯OEM客户提供涉及从工业到医疗的各种应用提供协助。Marcus拥有物理学和光学工程学位。

Klaus Willeke

Klaus Willeke

产品市场经理

大家好,我是奥林巴斯生命科学业务部负责X Line物镜的产品市场经理Klaus Willeke。我为奥林巴斯工作已经超过22年,曾在德国担任过长达17年的工业与生命科学显微镜销售代表,之后在奥林巴斯科学解决方案业务部的欧洲产品营销团队负责正置临床与科研显微镜和X Line物镜。

Yu Kikuchi

Yu Kikuchi

光学工程师

Yu Kikuchi是奥林巴斯美洲公司(Olympus Corporation of Americas)负责组件产品和显微镜产品的光学工程师。他在光学器件设计和显微镜产品评估方面拥有丰富的经验。他专注于依据客户规格开发定制产品,并负责现场测试和调整。他拥有日本东北大学的分子生物学硕士学位。

Stephan Fliegel

Stephan Fliegel

光学显微镜相机产品经理

Stephan Fliegel于2007年在明斯特应用科技大学获得激光应用技术的物理工程学位。他最初担任应用专员,之后任职工业激光器领域的产品和项目经理,主要致力于客户定制激光器系统的设计布局、开发和规划。他于2017年加入奥林巴斯,担任光学显微镜相机的初级产品经理。

Dr. Daniel Göttel

Dr. Daniel Göttel

销售支持经理

Daniel Göttel在德国海德堡的德国癌症研究中心获得人类遗传学博士学位。他曾多年担任奥林巴斯虚拟玻片扫描系统的应用专家,并获得了该领域的深入、实用的知识。Daniel现在是奥林巴斯VS200研究级玻片扫描系统和网络图像服务器(NIS)SQL的销售支持经理。

Lee Botes

Lee Botes

显微镜和成像产品专家

Lee Botes拥有24年的奥林巴斯显微镜销售经验。Lee具有微生物学背景,她的显微镜销售经历始于南非。2006 年,Lee加入奥林巴斯新西兰销售团队,负责惠灵顿和南岛的工业、临床和研究级显微镜业务,以及新西兰的共聚焦显微镜和玻片扫描仪业务。

Masato Yabe

Masato Yabe

Optical Engineer

Masato Yabe works in the Optical Development Division at Olympus, where he has been involved in the development of microscope products for 19 years, designing optical systems for objectives and autofocus units. He holds a master’s degree in engineering from Wakayama University in Japan.

Shodai Hosono

Shodai Hosono

机械工程师

Shodai Hosono就职于奥林巴斯机械工程部。十多年以来,他始终致力于显微镜产品的开发工作。作为一名机械工程师,他参与了多款显微镜及模块化显微镜组件的设计工作。他拥有日本埼玉大学工程学学士学位。

Kei Sato

Kei Sato

电气工程师

Kei Sato服务于奥林巴斯电气工程部门,已经拥有9年的显微镜产品开发经验。作为产品负责人,Kei主要负责工业显微镜和显微镜组件的电气设计。

Joanna Hawryluk

Joanna Hawryluk

Product Manager

Joanna Hawryluk is a product manager for Olympus Corporation of the Americas located in Waltham, MA. She has been with Olympus since 2017 within the Marketing department specializing in our 3D cell analysis software, lightsheet microscopy, electrophysiology, and our cell culture monitoring system. Dr. Hawryluk received her doctorate degree in Physiology and Neurobiology in 2016 from the University of Connecticut.

Dr. Hunter Hines

Dr. Hunter Hines

Guest blogger

Dr. Hunter Hines received his PhD in 2019 while registered in a joint international collaboration with Bournemouth University (UK) and Harbor Branch Oceanographic Institute (HBOI) at Florida Atlantic University. He conducted research into microbial communities found in tropical aquatic and terrestrial ecosystems in Florida, focusing on the biogeography and biodiversity of ciliates.  

Today, Dr. Hines continues his research at HBOI, where he examines microbial communities and the impact they have on ecosystems. He is also the senior scientist on the Amoray Marine Conservation Team at the Amoray SCUBA Resort in Key Largo, Florida.

On social media, Dr. Hines plays a significant science outreach role for microbiology and ecology. During his PhD, he created the Instagram account Microbialecology, which has over 140,000 followers. He is a frequent collaborator with the popular YouTube channel Brave Wilderness, assisting with everything microbial and featuring in several episodes.

Kenji Ono

Kenji Ono

光学工程师

Kenji Ono就职于奥林巴斯光学元件部。自入职以来,他一直在我们的成像业务中从事数码相机光学系统的规划和开发工作。目前他负责OEM显微镜的营销活动,得以继续将他的知识运用到光学领域。Kenji在日本的北里大学获得学士学位。

Kristina Mayer

Kristina Mayer

Product Marketing Manager

Kristina Mayer is a product marketing manager for inverted microscopes in the European Product Marketing team at Olympus Scientific Solutions. She holds a PhD in cell biology from Jacobs University Bremen. She has worked at Olympus for more than 10 years and is responsible for the IXplore microscope series, supporting research imaging including total internal reflection fluorescence microscopy (TIRF) and spinning disk confocal microscopy within the EMEA region.

Benjamin Compans, Ph.D.

Benjamin Compans, Ph.D.

Marie Curie Research Fellow

岳媛

岳媛


岳媛,来自奥林巴斯科学事业市场战略部。她在奥林巴斯负责市场推广相关工作已有将近六年,目前主要负责数字推广工作。

Shogo Usui

Shogo Usui

My name is Shogo Usui and I'm product leader of CM20 at Olympus Corporation. For over ten years, I have been an electrical engineer in the life science R&D team in Olympus Tokyo. I hold a Master’s degree in applied physics from th

Dr. Anne Beghin

Dr. Anne Beghin

Assistant Professor, Research Mechanobiology Institute

Dr. Xiaotong Cui

Dr. Xiaotong Cui

Field Application Specialist

Dr. Kasmira Wilson

Dr. Kasmira Wilson

Researcher

Dr. Dan Zhu

Dr. Dan Zhu

Professor

Dr. Graham Wright

Dr. Graham Wright

Acting Director

Mr. Srivats Hariharan

Mr. Srivats Hariharan

Manager, Applications and Marketing

Ms. Gency Gunasingh

Ms. Gency Gunasingh

Research Assistant

Dr. Dong Gao

Dr. Dong Gao

Principal Investigator

Dr. Yu Weimiao

Dr. Yu Weimiao

Head of Computational & Molecular Pathology Lab (CMPL) Agency of Science

Dr. Motoki Takagi

Dr. Motoki Takagi

Professor

Dr. Ningbo Wu

Dr. Ningbo Wu

Associate Professor

Mr. Hiroya Ishihara

Mr. Hiroya Ishihara

Applications Scientist

Marie Kawasaki

Marie Kawasaki

IVF Marketing Representative

Marie Kawasaki works in the Life Science Marketing Division of Olympus Corporation. She has been involved in the marketing of microscopes related to clinical research for 7 years, and is currently in charge of global sales promotion of the fertility treatment research (Intracytoplasmic sperm injection) market.

Wei Juan Wong

Wei Juan Wong

Application Specialist, Digital Slide Scanning Systems

Wei Juan Wong has a degree in physics and has worked in a biophysical research laboratory as well as a microscopy core facility. She joined Olympus in 2018 as a product specialist at Olympus Singapore to support Southeast Asia customers using widefield microscopes, including the SLIDEVIEW™ VS200 research slide scanner. In 2021, she moved to Germany to join Olympus Software Imaging Solutions as an application specialist for digital slide scanning systems, where she provides application and marketing support to customers worldwide.

Samuel M Lawrence

Samuel M Lawrence

CEO and Cofounder, CytoViva

Samuel M. Lawrence is the chief executive officer and cofounder of CytoViva, Inc. He led the development of the core, patented optical illumination technology that is the foundation of CytoViva’s products, as well as played a key role in the development of the patented CytoViva 3D imaging technology. He continues to lead all product development efforts and actively supports the company’s sales efforts both domestically and internationally.

Manoel Veiga

Manoel Veiga

Application Specialist, Life Science Research

Manoel Veiga earned his PhD in physical chemistry at the University of Santiago de Compostela, Spain, working with picosecond and femtosecond time-resolved spectroscopy. Following two postdocs at the Complutense University of Madrid and the University of Münster, he worked for PicoQuant as a senior scientist in the fields of time-resolved spectroscopy, fluorescence lifetime imaging microscopy (FLIM), and fluorescence correlation spectroscopy (FCS). In 2017, Manoel joined Olympus in Germany, where he works as a global application specialist with a focus on high-content analysis (HCA) and deep learning.

Dr. Manfred Kässens

Dr. Manfred Kässens

Head of Technical Product Information

Dr. Manfred Kässens leads the Technical Product Information department at Olympus Soft Imaging Solutions and is a member of the Global Marketing Communications department at Olympus Scientific Solutions. He holds a PhD in Physics from the University of Münster, Germany and has worked with Olympus since 1997.

Sara Quiñones Gonzalez

Sara Quiñones Gonzalez

Product Manager

Sara Quiñones González has a degree in biotechnology and has worked in several research and clinical laboratories before joining Olympus Soft Imaging Solutions in 2019 as a Product Manager. She is responsible for the SLIDEVIEW family of products, including the VS200 research slide scanner.

Dr. Thomas Bauer-Jazayeri

Dr. Thomas Bauer-Jazayeri

Director of Marketing and Sales evorion biotechnologies

Maria Ada Prusicki

Maria Ada Prusicki

Application Specialist, Digital Slide Scanning Systems

Maria Ada Prusicki received her PhD in Biology from the University of Hamburg in 2019. During her doctoral studies she focused on live cell imaging techniques to track plant cell divisions and, while pursuing a postdoc, she continued to deepen her knowledge in microscopy techniques. Then, in 2022, Maria became the Application Specialist for our SLIDEVIEW™ VS200 research slide scanner. Working out of Evident’s Munster, Germany office, Maria provides VS200 application support to our customers worldwide as well as Evident’s global sales and marketing teams.

Taichi Yoshikura

Taichi Yoshikura

Supervisor, Marketing Communications, Life Science Division

Taichi Yoshikura leads the Global Life Science Marketing Communication team at Evident in Tokyo, Japan. He has a Bachelor of Arts degree from Waseda University and has worked at Evident (formerly Olympus) since 2016.

该作者的文章

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Microscope artwork

Old, New, Borrowed, Blue—Our Most Popular Microscope Images for July 2022

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Easy to use microscope for research

Streamline Your Research Workflow with an All-in-One Microscope

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显微镜艺术作品

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用于显微镜的EP50数码相机自动测量的测微计校准。

如何校准你的显微镜相机:精准测量从这里开始

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Lab technician in an animal healthcare company’s testing lab loading sample slides into the VS200 slide scanner

驾驭奥林巴斯的SLIDEVIEW™ VS200 研究级全玻片扫描系统, 面向未来全新启程

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穿着实验服的生命科学研究人员正在观察样本,前景中显微镜旁的电脑屏幕上显示着一幅荧光图像。

关于图像发表时如何注明显微镜信息的指南

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深度学习让细胞和细胞核的实例分割更加简单

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COVID 19 research

Automated Slide Scanners Accelerate COVID-19 Research

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显微镜艺术作品

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Hoffman modulation contrast images for assisted reproduction

What Is Hoffman Modulation Contrast?

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海陆大餐——2021年12月最受欢迎的显微镜图像

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奥林巴斯2020年IOTY大赛全球大奖得主Werner Zuschratter在显微镜下拍摄了一个完整的大鼠胚胎

自发荧光的美学——与2020年IOTY大赛全球获奖者面对面

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显微镜自动对焦:用于设备设计的主动式与被动式方法

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受欢迎的显微镜图像

细节之眼——2021 年 11 月最受欢迎的显微镜图像

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Helping Curb the Spread of COVID-19 with Faster, More Sensitive SARS-CoV-2 Detection

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Stitched panorama images of crystallized amino acids L glutamine and beta alanine using polarized light

Lifelong Love of the Microscopic—Meet the IOTY 2020 Americas Regional Winner

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古怪精灵和毛骨悚然:2021 年 10 月最受欢迎的显微图像

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2020 年奥林巴斯全球显微图像大赛亚太地区获奖者张薪沛

展翅翱翔:2020 年 IOTY 大赛亚太地区奖获得者分享微观世界之美

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Dr. Conor Evans from the Evans Lab at the Wellman Center for Photomedicine at MGH

Making the Invisible Visible to Improve Patient Outcomes: A Conversation with Dr. Conor Evans

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大脑、昆虫和细菌: 我们 2021 年 9 月最受欢迎的显微镜图像

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显微镜下的蛇皮 — 介绍 2020 年 IOTY 欧洲、中东和非洲地区的获奖者

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显微镜艺术作品

原生生物、植物和老虎:2021 年 8 月我们最受欢迎的显微镜图片

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Clinical lab technician performing routine microscopy using an ergonomically designed Olympus BX46 microscope whose features help ensure proper posture and body positioning

Mind Your Back! How to Work Comfortably at Your Microscope with Ergonomics

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LED显微术

一个好主意 — 为显微镜设备开发高显色 LED 组件

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YouTube 频道 Brave Wilderness 的缩略图,其中 Hunter Hines 博士(右)与 Mark Vins 正使用一台 Olympus 显微镜寻找和拍摄福氏耐格里阿米巴原虫 (Naegleria fowleri)。

接受社交媒体及其在科学推广中的重要作用

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2021 年 7 月最受喜爱的显微图像

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领略获奖的 DP28 和 DP23 显微相机

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符合 RoHs 标准的 OEM 组件

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用于生物膜研究的激光扫描共聚焦显微镜

太空中的生物膜——激光扫描共聚焦显微镜为NASA研究实验提供帮助

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2021年6月的显微图像

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利用显微镜的微分干涉差 (DIC) 观察方式观察轮虫

Avalon找到了适合轮虫研究的理想显微镜

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用于全玻片成像图像查看的SQL图像查看器

以更简单的方式存储全玻片图像:网络图像服务器SQL

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科学艺术作品:2020年全球IOTY大赛获奖者名单

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显微艺术

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使用油浸介质进行全载玻片成像:常见问题解答

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在cellSens Dimension图像软件中,通过计测工具将显微镜图像中的蓝色细胞核区域标记为感兴趣区(ROI),并对该区域内的红色和绿色点状信号进行计数测量

如何在cellSens Dimension软件中对图像指定区域的目标对象进行计数

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用于紧凑型显微镜成像设备的OEM组件

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荧光成像

成功重返实验室的4个步骤[+免费故障排除指南]

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彩色显微镜相机

现代彩色显微镜相机改善临床研究的6个途径

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在线物镜查找器

如何通过5个简单步骤使用物镜查找器

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以好奇心为纽带—与Gabrielle Corradino博士的访谈

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春季显微镜图像

春之梦—— 2021年1月最受欢迎的显微镜图像

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OEM光学

无补偿光学在显微镜设计中的重要性

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对显微镜进行简单升级即可实现稳定的活细胞成像

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2020年12月最受欢迎显微图像揭晓

2020年12月最受欢迎显微图像揭晓

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具有高数值孔径、色差校正和视场平场性的奥林巴斯X Line物镜

延长显微镜寿命(和性能)的5种方法

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Single-molecule sensitivity in confocal microscopy

Good Optics—Improving Single-Molecule Sensitivity in Confocal Microscopy

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什么是暗场显微观察?

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小鼠脑部切片

神经花园的艺术与科学-采访2019年度IOTY全球奖获奖者

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硅藻显微镜图像

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完整的小鼠胚胎图像

揭示微观尺度之美——IOTY大赛2019年亚太地区获奖者

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hearing loss research using microscopy

Finding a Way to Reverse Hearing Loss with Microscopy

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PtK2 cell stained with Yoy

从天文学到显微镜:TruSpectral技术之旅

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波前像差得到了控制的显微镜物镜

为什么在优质显微镜设计中必须使用波前像差得到了控制的物镜?

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2020年10月的热门显微镜图像

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深度学习显微镜

从一年的生命科学研究中学到的5条人工智能经验

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小鼠的胡须

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节肢动物的图像

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单细胞分辨率下的高内涵分析

5个加速显微观察实验的实用方法

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远程显微镜

远程显微镜指南:确保实验室成功的6个技巧

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活细胞成像

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Light sheet microscopy

5 Ways Light Sheet Microscopy Is Advancing Life Science Research

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显微镜下的蜜蜂

了解最热门的内容:2020年8月最受欢迎的显微镜影像

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明场图像的scanR AI分析

利用TruAI技术实现细胞核无标记检测的视频介绍

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教学显微镜

如何在任何教学环境安全使用显微镜

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2020年7月受欢迎的显微影像

有关成像技术的一切:2020年7月最受欢迎的显微镜影像

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细胞培养定量分析

定量细胞培养对实验成功的重要性

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显微图像

生物特征-2020年6月最受欢迎的显微镜图像

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多靶点标记荧光显微镜

多模态成像和多靶点荧光标记:提取丰富数据的关键指南

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二次谐波(SHG)和三次谐波(THG)显微成像

超越荧光的理念:使用SHG和THG显微镜进行生物成像

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突破极限并获得爱迪生奖的显微镜物镜

突破极限并获得爱迪生奖的显微镜物镜

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2020年5月排名前5位的显微图像

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通过癌症研究实验室中的PC软件对癌细胞进行3D显微成像

实现突破之路——开拓性生物成像正在改革癌症研究

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受欢迎的显微图像

2020年4月份最受欢迎的显微图像

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荧光成像

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如何对显微镜进行清洁和消毒

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小鼠大脑的全载玻片成像

图像分享更加轻松:认识OlyVIA

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2020年3月份最受欢迎的显微图像

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显微镜图像大赛获奖者

公布2019年全球年度影像大赛获奖者

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显微镜数码相机

显微镜数字成像:常见问题解答

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斑马鱼的明场观察图像

利用单个体视显微镜底座优化观察和对比方法

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绿藻

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体视显微镜观察方法

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反射光共聚焦成像的新策略

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活细胞荧光成像

活细胞荧光成像的6个技巧

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穿着实验服的学生在显微镜教室里学习,教室内有几台安装了数码相机的正置显微镜。教授拿着一台屏幕上有放大的样品图像的平板电脑。

购买教学显微镜时需要考虑的6个因素

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January 2020 most popular images

New Year, New Images: Our Most Popular from January 2020

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显微镜物镜结构分解

物镜的结构

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NIR激光器助力复杂多色同步共聚焦成像

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December 2019 most popular images

Our Most Popular Microscope Images for December 2019

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EDU设置中的显微镜

帮助您选择合适显微镜相机的4种免费工具

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Montage of photos from Intercontinental Alliance between Cancer Research Centers

Collaboration across Borders: Medical Centers Join Forces to Advance Cancer Research

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使用多光子显微镜对活体小鼠视觉皮层进行深度成像

如何在多光子显微观察中改善深度成像质量

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使用Alpha3光片荧光显微镜捕捉的透明化斑马鱼幼虫头部血管和神经

以生命活动之速度—光片显微镜在生物成像方面应用的进展

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November 2019 favorite images

November 2019’s Top Microscopy Images

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The golden ratio - IOTY Award winner

2018 Image of the Year Award Spotlight: 1st Prize Winner Håkan Kvarnström Captures the Golden Ratio

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Sample images take with Olympus X Line Objectives

奥林巴斯X Line物镜荣膺LFW创新大奖

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Colon stained with Masson's Trichrome captured by the SLIDEVIEW VS200 slide scanner

5种途径全方位辅助科研应用,VS200全玻片扫描系统

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Dopamine

2018 Image of the Year Award Spotlight: 2nd Prize Winner Crystal Contrast

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Bacteria living in a plant's roots

Our Top Five Microscope Images for October 2019

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mouth brushes of a mosquito larva

2018 Image of the Year Award Spotlight: 3rd Prize Winner Johann Swanepoel

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Image of the Year Award

Enter to Win Olympus’ First Global Image of the Year Award

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显微镜物镜透镜

如何选择合适的显微镜物镜:所要问的10个问题

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最初的奥林巴斯东京公司标识

百年创造—我们生命科学成像系统的故事

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奥林巴斯物镜

正确清洁物镜油污的6个技巧

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Color wavelength and the human eye

How to Acquire Microscopy Images that Mimic Human Eye Color Perception

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X Line Objectives

X Line(翼系列)物镜三大核心优势助力科研实验

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超分辨显微镜样品

超分辨率显微镜的竞赛:反卷积是否就已经足够?

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Ask the Experts

Technology Evaluation: Deciphering Cell-Cell Interactions in a 3D Microenvironment at a Single-Cell Resolution

Experts
Dr. Thomas Bauer-Jazayeri
Director of Marketing and Sales evorion biotechnologies
evorion biotechnologies
Join Thomas to learn how easily you can implement evorion’s advanced microfluidics-based CellCity System to unravel the cellular and molecular mechanisms of cell-to-cell interactions in a 3D microenvironment at a single-cell resolution. Discover Evident and evorion’s joint workflow solution that enables you to find your highly characterized specific cells of interest for high-resolution live-cell imaging using our IXplore™ microscope systems in a user-friendly manner.
活细胞的超分辨率成像:小物体大格局

活细胞的超分辨率成像:小物体大格局

Experts
Chunsong Yan
Process Systems业务发展经理
Olympus Australia & New Zealand
Lauren Alvarenga
生命科学显微镜产品经理
Stefan Marawske
高端生命科学系统高级销售专员
Olympus Europa
在本次网络研讨会上,Olympus 成像专家 Stefan、Lauren 和 Chunsong 将讨论如何更轻松地创建超分辨率图像。

FV3000 Red Near-Infrared (NIR) Solutions for Confocal Microscopy | 2 p.m.

Experts
James Lopez
National Applications Manager
Olympus America Inc.
In this webinar, Dr. Lopez presents the latest advances in near-infrared (NIR) confocal imaging with the Olympus FV3000 Red confocal laser scanning microscope. NIR imaging provides new opportunities for deeper imaging, more complex multiplexing, and gentler live cell imaging. Tune in to learn more about our FV3000 Red system’s unique technology providing novel NIR imaging capabilities.

FV3000 Red Near-Infrared (NIR) Solutions for Confocal Microscopy | 10 a.m.

Experts
James Lopez
National Applications Manager
Olympus America Inc.
In this webinar, Dr. Lopez presents the latest advances in near-infrared (NIR) confocal imaging with the Olympus FV3000 Red confocal laser scanning microscope. NIR imaging provides new opportunities for deeper imaging, more complex multiplexing, and gentler live cell imaging. Tune in to learn more about our FV3000 Red system’s unique technology providing novel NIR imaging capabilities.

Olympus Organoid Conference 2021

During the Olympus Organoid Conference, cell biologists, microscopists, and image analysis experts shared their insights and answered questions on the latest developments in organoid technologies.

Olympus Bioimaging Conference: Exploring New Dimensions | 3-Day Virtual Event | March 9–11, 2022

Bioimaging is an essential tool used to image and analyze cells, tissues, and molecules in fields such as drug discovery, diagnostics, life science, and clinical research. Rapid advances in imaging technology have enabled researchers to visualize and quantify specimens in ways that were, until recently, impossible. With the advent of technologies such as super-resolution and AI-assisted imaging, researchers can now clearly observe their specimens on the nanometer scale and have access to stress-free, accurate data analysis. The objective of this virtual conference is to explore and understand recent innovations in light microscopy bioimaging technologies. Over the 3-day event, our expert speakers will discuss topics such as super-resolution microscopy, F-techniques including FRAP and FRET, and novel probes.

显微镜物镜—魔力之源

Experts
Klaus Willeke
Product Marketing Manager
Lauren Alvarenga
生命科学显微镜产品经理
在本次网络讲座中,Lauren 和 Klaus 希望强调高质量的光学器件在显微镜等复杂系统中的重要性,并阐释对最终画质具有重要意义的多个参数。
高内涵筛查:量身定制的分析让一切变得简单

高内涵筛查:量身定制的分析让一切变得简单

Experts
Manoel Veiga
生命科学研究应用专家
Olympus Soft Imaging Solutions
Shohei Imamura
战略项目经理
在本次网络讲座中,我们的深度学习和高内涵筛选专家 Manoel 和 Shohei 将介绍 scanR 系统的分析方法构建。scanR 系统是奥林巴斯的专用高内涵筛查平台,其独特的样品导航方法和分析灵感来自流式细胞术。

患者源性类器官和细胞球的三维高通量图像分析

Experts
Hiroya Ishihara
Applications Scientist
Olympus Technologies Asia, Olympus Corporation
类器官和细胞球能够更真实地还原体内环境,而成像分析能以高空间分辨率监测细胞特异性反应。因此,我们一直致力于开发针对患者源性肿瘤类器官和细胞球的三维成像分析和药物评估方法。
奥林巴斯探索峰会

奥林巴斯探索峰会:推进您的成像技术 | 2021 年 10 月 26 日至 27 日

During two full days of virtual presentations, join your peers as they discuss the ways they are using imaging techniques to advance their research. You can also attend live product demos and tech talks from Olympus experts.

数字图像处理第2讲:高级图像处理之滤波器

Experts
Heiko Gäthje
培训学院高级培训师
Olympus Europa
在该主题在线研讨会的第一讲中,我们了解到,用光学显微镜采集到的图像是无法完美地还原样品的真实形貌的。由于有些实验误差是不可避免的,只能尽量减少,因此我们在进行最终的图像分析之前,往往需要对成像实验得到的原始数据进行一些数字图像处理操作。
对多个亚细胞结构进行纳米级 3D 成像

对多个亚细胞结构进行纳米级 3D 成像

Experts
Nicolas Bourg博士
Abbelight首席技术官兼联合创始人
加入 Abbelight 联合创始人 Nicolas Bourg 博士的行列,看他阐述以 15 nm 分辨率获取高质量、可靠且易于理解的单分子 3D 图像有多么快速和轻松。

Whole-Brain Functional Calcium Imaging Using Light Sheet Microscopy

Experts
Ruben Portugues
Institute of Neuroscience
Technical University of Munich
Light sheet microscopy is a powerful technique to perform fast volumetric imaging. I will talk about how we use it to investigate how the brain of a small vertebrate, the larval zebrafish, works. In our laboratory at the Technical University of Munich, we are interested in how the brain processes external sensory stimuli and uses internal states and past experiences to select appropriate behavior. In order to do this, we image the activity of almost all 100,000 neurons in the brain of larval zebrafish while we present the animals with stimuli and monitor their behavior. I will also discuss the data processing steps after acquiring these large datasets.

Product Demo: SLIDEVIEW™ VS200 Research Slide Scanner

Experts
Wei Juan Wong
奥林巴斯新加坡高级产品专员
Olympus Soft Imaging Solutions
In this product demo you will learn how to capture high-resolution images of your slides for quantitative analysis, enabling you to make the most of the information your slides have to offer. Easily analyze, share, and archive your data with the SLIDEVIEW VS200 digital slide scanner. Join this session and learn how to achieve more in less lead time.

Product Demo: SLIDEVIEW™ VS200 Research Slide Scanner

Experts
Chunsong Yan
Process Systems业务发展经理
Olympus Australia & New Zealand
Tong Wu
Business Development Manager
Olympus Australia New Zealand
The Olympus SLIDEVIEW VS200 research slide scanner captures high-quality virtual slide images and enables advanced quantitative image analysis. Reliable virtual slide data can be acquired with as few as two clicks. Highly versatile, the SLIDEVIEW VS200 slide scanner supports five observation methods and a wide range of sample sizes for use in various applications. Its automatic slide loader accommodates many slide glasses, helping increase experiment efficiency.

The Use of Multiplexing in Microscopy for Better Understanding the Skin Immune System in the Context of the Tissue

Experts
Alfonso J. Schmidt
Senior Staff Scientist
Malaghan Institute of Medical Research
The skin is the first line of defense and the immune system’s biggest barrier for combating pathogens. Being able to accurately characterize and identify immune cell subtypes, tissues structures, and cell distribution in the skin under steady-state conditions provides a powerful tool for understanding the first immunological strategies and biological processes that occur in the presence of pathogens. In this webinar we will review technical aspects involved in the experimental process and explore how complementary imaging technologies might assist us to better understand the immune system. The presentation is divided into three parts. First, an introduction of the Hugh Green Cytometry Centre will be presented and an overview of the histology and bioimaging technological platforms available. Second, the multiplexing methodology will be discussed, where several topics need to be considered for the design and development of a successful polychromatic panel for microscopy. Finally, preliminary results from a research project will be presented that constitutes part of a diploma program from The Royal Microscopical Society. The project focuses on the identification of immune cell types in the whole mount skin in relation to tissues structures (e.g., blood vessels and lymphatic network). It also centers on the immune cells’ distribution in the tissue as a first barrier of defense against pathogens.

Recent Advances in 3D Imaging and AI-Driven Data Analysis

Experts
Seungil Kim
Staff Scientist
Ellison Institute for Transformative Medicine at the University of Southern California
This presentation will highlight various imaging techniques for 3D models, immunostaining with tissue clearing, and live imaging of organoids as well as AI-driven data analysis for high-content imaging and screening.

Now You Have the Power to See More

Experts
Sandrine Roy
Business Development Manager
Olympus Australia & New Zealand
The Olympus VS200 digital slide scanner has been very well received since its release in March 2020. With a reliable, flexible, and customizable design, the system has been adopted by various industries including research, geology, and many others. View this session to find out more and see examples of samples scanned using this popular addition to the Olympus product range.

Metabolic Imaging in Langerhans Human Islets with MPE and FLIM

Experts
Francesco Cardarelli
Associate Professor in Applied Physics
Scuola Normale Superiore of Pisa
Capturing life (mis)regulation at the nanoscale is a crucial challenge for present and future biophysics. At this scale, the main actors are the molecules. To successfully tackle molecular behavior within living matter, optical microscopy is a valuable methodological platform: by using fluorescence as the signal, spatial and temporal details of molecular processes can be investigated quantitatively. The physiopathology of beta-cell response to glucose stimulation will be used as case study of biological/biomedical interest. The metabolic traits of beta cells will be highlighted using a straightforward combination of multiphoton microscopy, fluorescence lifetime imaging, and feedback-based orbital tracking of sub-cellular nanostructures.

Product Demo: IXplore™ SpinSR Confocal Super Resolution System

Experts
Stefan Marawske
高端生命科学系统高级销售专员
Olympus Europa
In this live demo, experience the IXplore SpinSR system, designed for fast 3D super resolution imaging and prolonged cell viability in time-lapse experiments. The microscope system offers XY resolution down to 120 nm without the need for dedicated labeling procedures. Learn how to easily integrate the IXplore SpinSR microscope system into existing experiments and sample protocols to streamline your research.

In-Vivo Tracking of Harmonic Nanoparticles by Means of a TIGER Widefield Microscope

Experts
Laura Vittadello
Department of Physics and Center of Cellular Nanoanalytics
Osnabrück University
In-vivo tracking based on harmonic nanoparticles is so far not exploited because of a lack of an appropriate tool—a widefield nonlinear optical microscope. Here, we present a new approach to overcome this challenge based on a redesign of laser space parameters.

Hyperspectral and Brightfield Imaging Combined with Deep Learning Uncover Hidden Regularities of Colors and Patterns in Cells and Tissues

Experts
Ewa Goldys
Deputy Director
Australian Research Council Centre of Excellence in Nanoscale Biophotonics
The Australian Research Council Centre of Excellence for Nanoscale Biophotonics draws on key advances of the 21st century, nanoscience, and photonics to help understand life at the molecular level. In this presentation, next-generation technologies developed in our Centre for probing, imaging, and interacting with the living systems will be discussed. These address the key challenges of ultrasensitive detection of key analytes in real complex environments and molecular complexity, and they support both novel therapies and diagnostics.

Product Demo: FLUOVIEW™ FV3000 Confocal Laser Scanning Microscope

Experts
James Lopez
National Applications Manager
Olympus America Inc.
Join James Lopez, PhD, National Applications Manager to see how the FV3000 confocal laser microscope can expand your research possibilities and help you get more data from your samples.

Product Demo: FLUOVIEW™ FV3000 Confocal Laser Scanning Microscope

Experts
Bülent Peker
高级产品营销经理
Olympus Europa
Join Bülent Peker, Senior Product Marketing Manager to see how the FV3000 confocal laser microscope can expand your research possibilities and help you get more data from your samples.

Evolution of Scientific Digital Imaging Technologies and their Applications

Experts
Lin Guo
Manager, Product and Application Life Science Department Scientific Solutions Business Division
Olympus Singapore
In this talk, Dr. Lin covers some critical facts about scientific digital cameras. He also discusses the evolution of these cameras, the solutions that Olympus offers, and how they are used in current advanced microscopy systems for various applications.

Deep Learning Approaches to Automated Phenotypic Profiling

Experts
Jesse Chao
Scientist
Sunnybrook Research Institute
Quantifying cellular phenotypes is the key to all cell biology studies. However, modern imaging techniques can easily generate more data than an average user can comfortably handle. In this presentation, Dr. Chao discusses two deep learning approaches, one semi-supervised and one supervised, for building image analysis pipelines. Either approach can be run on a free cloud GPU instance.

Deconvolution of 3D Image Stacks

Experts
Heiko Gäthje
培训学院高级培训师
Olympus Europa
Images taken with a light microscope are never true representations of the specimen. Error sources, which have to be controlled, are sample preparation and staining protocols as well as optical aberrations and limitations of microscope and digital camera.

Confocal Microscopy and Its Use for a Spaceflight Experiment

Experts
Bob McLean
Regents’ Professor
Texas State University
Spaceflight experiments represent a rare but exciting scientific opportunity. Unlike most lab experiments, in which protocols can be quickly modified, limitations on crew time and availability of supplies are notable factors. Unanticipated changes to launch and reentry schedules are also an issue. The experimental apparatus and protocols used must be able to function in a microgravity setting, while also resisting the g-forces and vibrations during launch and landing. During this presentation, Dr. McLean will go over the experimental planning and use of confocal and electron microscopy approaches and analyses during a recent spaceflight experiment that flew on Space X-21 from 12/6/20 – 1/14/21.

Accelerating Image Analysis with TruAI™ Deep Learning Technology

Experts
Manoel Veiga
生命科学研究应用专家
Olympus Soft Imaging Solutions
In this tech talk, through a collection of examples measured with our live cell imaging systems, high-content screening station, and whole slide scanner, you will see what TruAI technology can do for your research and get a preview of what is coming next.

A New Way of Thinking—Object Detection with Deep Learning

Experts
Akira Saito
Assistant Manager, Marketing and Applications
Olympus Singapore
In this session, we will discuss object segmentation with deep learning and its applications in life science. We will also demo Olympus deep-learning software.

ICSI - How to improve your technique

Experts
Dr. Nuno Costa-Borges
Embryologist and Co-founder of Embryotools
In this webinar, expert embryologist Nuno Costa-Borges will discuss how current success rates of intracytoplasmic sperm injection (ICSI) vary - and explore how labs can optimize, evaluate and standardize to provide the best possible quality of treatment.
NoviSight™ Demonstration: 3D Image Analysis and Statistical Software for Organoids and Spheroids

NoviSight™ Demonstration: 3D Image Analysis and Statistical Software for Organoids and Spheroids

Experts
Hiroya Ishihara
Applications Scientist
Olympus Technologies Asia, Olympus Corporation
Three-dimensional cell culture models such as patient-derived organoids (PDO) and spheroids have increased in popularity because they can provide a 3D microenvironment that more closely reproduces in vivo conditions compared to 2D monolayer culture. Phenotypic and functional heterogeneity arise among cancer cells within the same tumor because of genetic change, environmental differences and reversible changes in cell properties. Therefore, evaluation of cell-specific responses is important for accurate prediction of drug efficacy and kinetics in vivo.
Study the Function of Stromal Cells through Intestinal Organoid Co-Culture Technology

Study the Function of Stromal Cells through Intestinal Organoid Co-Culture Technology

Experts
Dr. Ningbo Wu
Associate Professor
Shanghai Institute of Immunology, Shanghai Jiao Tong University School of Medicine
For a long period of time, intestinal mesenchymal stromal cells have been considered as a relatively simple and homogeneous group of cells. With the help of single cell transcriptomics studies, it has now been clear that these cells are quite complex and heterogeneous. However, the detailed cellular and molecular mechanisms that regulate the function of these cells remains poorly understood. Therefore, the ability to perturb and evaluate the function of these stromal cells is critical to the understanding of intestinal stem cell niche and the etiology of the inflammatory bowel diseases and colitis associated colorectal cancer.
An In Vitro System for Evaluating Anticancer Drugs Using Patient-Derived Tumor Organoids

An In Vitro System for Evaluating Anticancer Drugs Using Patient-Derived Tumor Organoids

Experts
Dr. Motoki Takagi
Professor
Medical-Industrial Translational Research Center, Fukushima Medical University
Patient-derived tumor organoids (PDOs) represent a promising preclinical cancer model that better replicates disease, compared with traditional cell culture models. We have established a novel series of patient-derived tumor organoids (PDOs) from various types of tumor tissues from the Fukushima Translational Research Project, which are designated as Fukushima (F)-PDOs. F-PDOs could be cultured for >6 months and formed cell clusters with similar morphologies to their source tumors. Comparative histological and comprehensive gene-expression analyses also demonstrated that the characteristics of PDOs were similar to those of their source tumors, even following long-term expansion in culture. In addition, suitable high-throughput assay systems were constructed for each F-PDO in 96- and 384-well plate formats.
3D Segmentation for Fluorescence Images: From Qualitative to Quantitative

3D Segmentation for Fluorescence Images: From Qualitative to Quantitative

Experts
Dr. Yu Weimiao
Head of Computational & Molecular Pathology Lab (CMPL) Agency of Science
Technology and Research
Cells are 3D functional elements in biology science and they are actively moving to perform their functions. Collective cell migration is appreciated as an important model for the understanding of the mechanism governing the cell movement in Vivo and in Vitro. It is a highly kinetic process involved in immune response, wound healing, tissue development and cancer metastasis. Recent decades have seen the fast development of various optical imaging techniques with excellent spatial-temporal resolution, dimensionality and scale. The generation of novel probes have also allowed us to acquire the movies of migrating cells with specific proteins/molecules. However, we lack of advanced solution to analyse such high-content and highly dynamic images/videos.
Prostate Cell Lineage Hierarchy and Plasticity

Prostate Cell Lineage Hierarchy and Plasticity

Experts
Dr. Dong Gao
Principal Investigator
Shanghai Institute of Biochemistry and Cell Biology, Chinese Academy of Sciences
Prostate cancer is one of the most common cancers worldwide and also the second leading cause of cancer-related death in males in Western countries. Although the majority of human primary prostate cancers have a luminal phenotype, both basal cells and luminal cells can serve as cellular origins of prostate cancer in model systems. However, the stem cell-like plasticity of defined prostate epithelial cells and the cellular origin of prostate cancer under physiological conditions have not been identified. Recently, prostate basal and luminal cell populations were both shown to be self-sustaining, and both cell types could initiate prostate cancer. However, the oncogenic transformation of basal cells requires basal to luminal cell transition. In addition, luminal cells were shown to have greater tendency to be the cells of origin for prostate cancer in some contexts.
Investigating Spheroid Architecture Using the FV3000 Confocal Microscope

Investigating Spheroid Architecture Using the FV3000 Confocal Microscope

Experts
Ms. Gency Gunasingh
Research Assistant
The University of Queensland Diamantina Institute
Phenotypic tumour heterogeneity arising due to differentially cycling cell populations has been implicated in increased therapy resistance. This phenomenon cannot be assessed in adherent cell culture, where microenvironmental conditions are homogeneous. Thus, we utilise melanoma spheroids to model the 3D tumour microenvironment including the extracellular matrix (ECM) and study spheroid structure, necrotic region, individual cell arrangement within and gene expression patterns. We achieve this by exploiting the fluorescence ubiquitination cell cycle indicator (FUCCI) system to monitor cell cycle stages as a surrogate marker for phenotypic tumour heterogeneity, tissue clearing and confocal microscopy using FV3000.
Advances in 3D Optical Imaging Technologies: An Overview

Advances in 3D Optical Imaging Technologies: An Overview

Experts
Mr. Srivats Hariharan
Manager, Applications and Marketing
Olympus Singapore
With rapid development in fluorescent proteins, synthetic fluorochromes, and digital imaging, advanced 3D imaging technologies are now available to investigators to provide critical insights into the fundamental nature of cellular and tissue functions. 3D and 4D imaging systems have become very common tools among biologists. However, there are several technical challenges and limitations in performing successful 3D and 4D imaging. Olympus has developed a wide range of 3D imaging microscopes to overcome these challenges and to satisfy the requirements of researchers across different disciplines.
3D Microscopy: Understanding the Give and Take on Instrument Performance to Enable Informed Decisions

3D Microscopy: Understanding the Give and Take on Instrument Performance to Enable Informed Decisions

Experts
Dr. Graham Wright
Acting Director
Research Support Centre (RSC), A*STAR, Singapore
Biologists have a significant toolbox at their disposal when it comes to microscopically imaging 3D samples, such as organoids. From widefield microscopy to confocal, superresolution, multiphoton and lightsheet, each have their own set of pros and cons that must be carefully considered before making an informed choice on the most suitable to address your biological question. Often a correlative approach is required, applying several techniques to address the question from different perspectives. It is also crucial to consider the method of sample preparation and optimise each of the potential steps which can include fixation, permeabilisation, labelling and mounting. Further, the images generated by all techniques can be enhanced with post-processing techniques, such as deconvolution, which can enable or help to improve subsequent image analysis and interpretation.
Tissue Optical Clearing Imaging: From In Vitro to In Vivo

Tissue Optical Clearing Imaging: From In Vitro to In Vivo

Experts
Dr. Dan Zhu
Professor
Wuhan National Laboratory for Optoelectronics, Huazhong University of Science and Technology, Wuhan, China
Biomedical optical Imaging, as a powerful tool has been applied for observing biomedical tissue structural and functional information with high resolution and contrast unattainable by any other method. However, the high scattering of turbid biological tissues limits the penetration of light, leading to strongly decreased imaging resolution and contrast as light propagates deeper into the tissue. Fortunately, novel tissue optical clearing technique provide a way for reducing the scattering of tissue and improving the optical imaging quality. This presentation will introduce our progress from in vitro and in vivo of tissue optical clearing imaging, including developing in vitro optical clearing methods, such as FDISCO and MACS. Meanwhile, we will also demonstrate in vivo skull/skin optical clearing window for imaging structural and functional of cutaneous / cortical vascular and cells, also manipulating cortical vasculature.
Utilizing Tumoroids to Explore Anti-Tumor Immunity in Rectal Cancer

Utilizing Tumoroids to Explore Anti-Tumor Immunity in Rectal Cancer

Experts
Dr. Kasmira Wilson
Researcher
Peter MacCallum Cancer Foundation
Globally colorectal cancer is a significant public health burden. It is the third most commonly diagnosed cancer and fourth leading cause of cancer related deaths in the world. A subset of patients diagnosed with rectal cancer require neoadjuvant chemoradiotherapy (NACRT) prior to surgery. However, there is a spectrum of response to this therapy with only 10-20% of patients achieving a complete pathological response. In addition, 20-40% of patients will demonstrate no response to this treatment. There is currently no method that predicts how a patient will respond to NACRT accurately. In order to investigate the mechanisms underpinning how patients respond to therapy, patient derived tumouroids have been utilised. These personalised in vitro three-dimensional tumour models recapitulate the in vivo tumour of origin genotypically. The Ramsay laboratory (Peter MacCallum, Melbourne) has successfully co-cultured patient-matched rectal cancer tumouroids with tumour infiltrating lymphocytes (TILS) in a novel in vitro assay, preliminary data generated suggests this assay has the ability to predict the response of a patient to treatment with NACRT prior to instigation of neo-adjuvant therapy. This assay provides a pre-clinical platform that encapsulates the hosts immune response toward their tumour. However, manual analysis of the data generated from this assay is time consuming and limits the clinical utility of this platform. Machine-based learning to develop artificial neural networks capable of analysing data produced from the killing assay has been developed to automate analysis. Automated analysis utilising artificial neural networks is a feasible approach to expedite the processing of data generated from the cytotoxic killing assays and will improve the clinical utility of this platform to direct personalised patient therapy.
Converting from 2D to 3D: Bio-Techne Solutions for Your 3D Culture

Converting from 2D to 3D: Bio-Techne Solutions for Your 3D Culture

Experts
Dr. Xiaotong Cui
Field Application Specialist
Bio-Techne
Organoid and three-dimensional (3D) cell culture are emerging as pivotal systems for understanding human organ development, modeling disease, screening for drug efficacy or toxicity, and investigating personalized medicine. Usually they are derived from primary tissue, embryonic stem cells (ESCs), or induced pluripotent stem cells (iPSCs), which are capable of self-renewal and differentiation.

Culture and Quantitative 3D Imaging of Organoids: Challenges and Solutions

Experts
Dr. Anne Beghin
Assistant Professor, Research Mechanobiology Institute
National University of Singapore
Turning organoids into impactful translational models includes being able to culture them and assess those that develop robustly with physiologically relevant architecture. However, quantitative comparisons and statistical analysis at high content, which are mandatory to describe the complexity of such multicellular 3D objects are not possible owing to the lack of high-throughput 3D imaging methods. We have thus engineered a versatile High Content Screening (HCS) device to streamline all the steps of organoid culture to exploit its potential in morphogenesis understanding. Our approach comprises a new generation of versatile scaffolding cell culture multiwell chips with embedded optical components (= lighting JeWells) that enables rapid 3D imaging.

A Smarter Approach to Culturing and Nurturing Your Cells

Experts
Shogo Usui
Product Leader
In this webinar, expert Shogo Usui will discuss the current challenges in cell culture techniques and explore how the CM20 system can accelerate your research with an improved cell culture process.
现代全玻片扫描:固定样品的单细胞表型分析

现代全玻片扫描:固定样品的单细胞表型分析

Experts
Alec De Grand
产品经理
Flavio Giacobone
产品营销经理
通过本次点播网络研讨会了解最新一代的全玻片扫描仪。我们的专家将会探讨如何让现代全玻片扫描仪成为您应用的主力设备,以及如何利用多重标记技术从切片中发现更多信息。来自Ultivue的专家将帮助您了解单细胞表型如何显著改善对样品乃至固定切片的动力学理解。
3D 分析:智能软件,深层分析

3D 分析:智能软件,深层分析

Experts
Daniel Bemmerl
高端显微镜系统的区域经理
Shohei Imamura
战略项目经理
在本次网络研讨会中,我们将重点关注获得微球和基于微孔板检测的最佳统计数据。这些数据有助于量化3D模型对化合物的响应,并让诸如不同浓度不同处理的效果对比更加容易。
深度学习:开启新应用的大门

深度学习:开启新应用的大门

Experts
Kathy Lindsley
生命科学应用应用专家
Manoel Veiga
生命科学研究应用专家
Olympus Soft Imaging Solutions
Join Manoel和Kathy将探讨如何发挥深度学习的潜力应对具有挑战性的图像分析任务。

Modern Slide Scanning: Single-cell Phenotyping on Fixed Samples (Encore Edition)

Experts
Flavio Giacobone
产品营销经理
Alec De Grand
产品经理
Angela Vasaturo
Senior Field Application Scientist, Ultivue, Inc.
Get another chance to learn about the latest generation of slide scanners on November 18, when we replay our webinar with our Olympus experts Flavio and Alec. In this webinar, our experts will discuss how modern slide scanners can be a workhorse for your applications and how multiplexing can reveal much more information from a slide. With a guest expert from Ultivue, you’ll learn how single-cell phenotyping can dramatically improve the understanding of the dynamics in a sample, even if it is a fixed slide.

To the Diffraction Limit and Beyond: The Nanoscale Organization of Axo-Axonic Synapses | 2 p.m.

Experts
Benjamin Compans, Ph.D.
Marie Curie Research Fellow
Here we use super-resolution microscopy to decipher the precise molecular organization of axo-axonic synapses and its modifications during activity-dependent forms of plasticity.

To the Diffraction Limit and Beyond: The Nanoscale Organization of Axo-Axonic Synapses | 10 a.m.

Experts
Benjamin Compans, Ph.D.
Marie Curie Research Fellow
Here we use super-resolution microscopy to decipher the precise molecular organization of axo-axonic synapses and its modifications during activity-dependent forms of plasticity.

Light Sheet Microscopy – New multi-resolution and -color imaging methods

Experts
Irina Rakotoson
生命科学产品经理
Join Irina to discover an easy and effective method to obtain perfect multi-color, multi-resolution imaging in Light Sheet Microscopy (LSM) for 3D fluorescence imaging. In this webinar you’ll learn about the challenges of multi-color channel acquisition in LSM and how to correct chromatic shifts for clean and crisp images.
Olympus Organoid Conference: Think Deep, See Deeper | 3-Day Virtual Event | September 7-9, 2021

Olympus Organoid Conference: Think Deep, See Deeper | 3-Day Virtual Event | September 7-9, 2021

From 7 – 9 September, learn from Olympus microscope users and technology partners on how they can support your scientific research. Cell Biologists, Microscopists and Image analysis experts will share their experiences and answer your questions.

Create a Smarter Cell Culture Workflow

Experts
Joanna Hawryluk
Product Manager
In this webinar, expert Joanna Hawryluk explores how the OLYMPUS Provi™ CM20 incubation monitoring system can help improve the health and stability of cell cultures through machine learning. With the aid of AI, the CM20 monitor automatically measures cell conditions using constant analysis parameters to provide quantitative data—all while your cultures remain safely in the incubator.

Digital Image Processing: Point and Local Operation Filters (Encore Edition)

Experts
Heiko Gäthje
培训学院高级培训师
Olympus Europa
Want to get a better understanding of digital image processing techniques? Then watch our Ask the Experts webinar rerun on July 29, where we discuss how point and local operation filters can be used to control sources of error such as noise or low contrast in microscopy images. As well as exploring the mathematics behind image processing techniques such as segmentation, extraction and thresholding, our expert Heiko will also discuss the ethics of image processing – helping you judge whether specific techniques are allowed.
Depth Matters: Transforming Biology for More Realistic and Meaningful Pursuits

Depth Matters: Transforming Biology for More Realistic and Meaningful Pursuits

Experts
Dr. Gowri Balachander
Research Fellow, Translation Mechanobiology lab, National University of Singapore
Improvements to in vitro three-dimensional (3D) models are making them increasingly better at mimicking in vivo-like cellular behavior. Every tissue presents a distinct microenvironment with a unique blend of biochemical and biophysical components that dictate cellular behavior. Recreation of critical features of tissues that nurtures recapitulation of in vivo-like cellular behavior is the essence of an effective 3D model. In this webinar, through specific examples of 3D models for tissue development and cancer, we will revisit the fundamental principles of designing 3D models that can effectively recapitulate critical features of the tissues in vitro and applications of such models in mechanistic studies and drug testing. Our work also highlights the importance of 3D imaging systems, such as laser scanning confocal microscopes, which are necessary for such work.

Microscope Objectives—Where the Magic Happens (Encore Edition)

Experts
Klaus Willeke
Product Marketing Manager
Lauren Alvarenga
生命科学显微镜产品经理
Get another chance to learn about cutting-edge microscope technology on July 8th, when we replay our webinar with Olympus microscope experts Lauren and Klaus. In this webinar, the experts will discuss how objectives affect image quality and highlight why good optics are so important in complex microscope systems. The webinar also covers how progress in lens manufacturing technology is transforming the capability of advanced microscopy systems, and explores how versatile new lenses are enhancing applications including whole slide imaging, super resolution systems, and laser scanning microscopy.
Olympus Discovery Summit—Looking Forward: A New Era of Research

Olympus Discovery Summit—Looking Forward: A New Era of Research

The Olympus Discovery Summit, held in April, featured microscopists and imaging experts sharing about advances in technology and research. Experience or relive this free three-day virtual event by watching the webinars on demand. Hear from your peers and learn about topics, including best practices for a post-pandemic workplace, emerging technologies, next-generation models for research, and more!
ICSI—Past, Present & Future

ICSI—Past, Present & Future

Experts
Dr. Hrishikesh Pai
Medical Director, Bloom IVF Group
In this webinar, Dr. Pai will be sharing on what’s new in the management of male infertility with special focus on Intra Cytoplasmic Sperm Injection (ICSI). He will be describing the latest diagnostic modalities in male infertility especially sperm DNA fragmentation, genetic testing, cryotozoospermia and microsurgical TESA in cases of non-instructive azoospermia.

Microscope Objectives—Where the Magic Happens

Experts
Ganesh Kadasoor
Olympus Medical Systems India Ltd应用专家
Wei Juan Wong
奥林巴斯新加坡高级产品专员
Olympus Soft Imaging Solutions
In this webinar, Olympus microscope experts Ganesh and Wei Juan discuss the importance of good optics in a complex microscope system and what optical features are important for high final image quality.

利用近红外激光扫描共聚焦显微镜实现更深层观察

Experts
Chunsong Yan
Process Systems业务发展经理
Olympus Australia & New Zealand
Srivats Hariharan
奥林巴斯新加坡公司产品应用经理
想要在样品中添加更多荧光标记?想要以高分辨率实现样品的更深层成像?想要以尽可能低的光毒性进行活细胞成像?
Digital Image Processing: Point and Local Operation Filters

Digital Image Processing: Point and Local Operation Filters

Experts
Heiko Gäthje
培训学院高级培训师
Olympus Europa
Takeo Ogama
高级产品和策略规划师和产品经理
Images captured with a light microscope are never true representations of the specimen; there are always sources of error that must be controlled. In this webinar, we will discuss how these sources of error can be managed.
Light Sheet Microscopy for Deeper Insight into Life

Light Sheet Microscopy for Deeper Insight into Life

Experts
Irina Rakotoson
生命科学产品经理
In this webinar, you’ll learn how the Alpha3 light sheet microscope combines very thin optical sectioning and high-quality Olympus optics for high-resolution 3D imaging of both live and fixed biological samples.
FluidFM: A Novel Approach to CRISPR Gene Editing by Direct Intra-Nuclear Delivery

FluidFM: A Novel Approach to CRISPR Gene Editing by Direct Intra-Nuclear Delivery

Experts
Paul Monnier
生命科学应用科学家
In this webinar, Paul Monnier from Cytosurge will show you how to overcome one of the biggest challenges in gene editing: delivery of the genetic material into the nucleus. Paul will discuss the FluidFM nanosyringe that can gently pierce the nuclear envelope to deliver reagents directly into the nucleus.
Multiplexing and Deep Tissue Imaging with Near-Infrared Confocal Laser Scanning Microscopy

Multiplexing and Deep Tissue Imaging with Near-Infrared Confocal Laser Scanning Microscopy

Experts
Bülent Peker
高级产品营销经理
Olympus Europa
Rebecca Bonfig
共聚焦显微镜产品经理
In this webinar, you’ll learn about fluorescence multiplexing and deep tissue imaging using near-infrared (NIR) laser light.
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