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Neuron Isolation in Spatial Context with Laser Microdissection (LMD)
After Alzheimer’s disease, Parkinson’s is the second most common progressive neurodegenerative disease. Before the first symptoms manifest, up to 70% of dopamine-releasing neurons in the mid-brain…
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How did Laser Microdissection enable Pioneering Neuroscience Research?
Dr. Marta Paterlini, a Senior Scientist at the Karolinska Institute, shares her experience of using laser microdissection (LMD) in groundbreaking research into adult human neurogenesis and offers…
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![[Translate to chinese:] How the M822 microscope enhances surgical precision in eye surgeries - Insights from Dr. Dhami. Image courtesy of Dr. Abhinav Dhami.](/fileadmin/_processed_/d/3/csm_Dr_Abhinav_Dhami_with_M822_28434efe21.jpg "[Translate to chinese:] How the M822 microscope enhances surgical precision in eye surgeries - Insights from Dr. Dhami. Image courtesy of Dr. Abhinav Dhami.")
听听Dhami 医生关于购买眼科显微镜的专业见解
在本文中,了解来自印度北部的眼科手术顾问Abhinav Dhami医生如何使用Leica Microsystems的M822眼科显微镜来提高他的手术精确度,以及哪些关键特性使他决定购买这款眼科显微镜用于他的实践。
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![[Translate to chinese:] Region of a patterned wafer inspected using optical microscopy and automated and reproducible DIC (differential interference contrast). With DIC users are able to visualize small height differences on the wafer surface more easily.](/fileadmin/_processed_/6/b/csm_Patterned_wafer_inspected_by_automated_and_reproducible_DIC_11e12b5cc8.jpg "[Translate to chinese:] Region of a patterned wafer inspected using optical microscopy and automated and reproducible DIC (differential interference contrast). With DIC users are able to visualize small height differences on the wafer surface more easily.")
6英寸晶圆检测显微镜:可靠观察小高度差异
本文介绍了一种配备自动化和可重复的DIC(微分干涉对比)成像的6英寸晶圆检测显微镜,无论用户的技能水平如何。制造集成电路(IC)芯片和半导体组件需要进行晶圆检测,以验证是否存在影响性能的缺陷。这种检测通常使用光学显微镜进行质量控制、故障分析和研发。为了有效地可视化晶圆上结构之间的小高度差异,可以使用DIC。
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![[Translate to chinese:] Optical microscope image, which is a composition of both brightfield and fluorescence illumination, showing organic contamination on a wafer surface. The inset images in the upper left corner show the brightfield image (above) and fluorescence image (below with dark background).](/fileadmin/_processed_/a/1/csm_Organic_contamination_on_a_wafer_surface_b508d90183.jpg "[Translate to chinese:] Optical microscope image, which is a composition of both brightfield and fluorescence illumination, showing organic contamination on a wafer surface.")
晶圆上的光刻胶残留和有机污染物的可视化
随着半导体上集成电路(IC)的尺寸低于10纳米,在晶圆检测中有效检测光刻胶残留等有机污染物和缺陷变得越来越重要。光学显微镜仍然是常见的检测方法,但对于有机污染物,明场和其他类型的照明可能会存在局限性。本文讨论了荧光显微镜如何在半导体行业的QC、故障分析和研发过程中有效检测晶圆上的光刻胶残留和其他有机污染物。
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![[Translate to chinese:] Evolved ARveo 8: Operating Room (OR) set-up.](/fileadmin/_processed_/6/3/csm_Evolved_ARveo_OR_MyVeo_Operating_Room_set-up_01_82b63ee6fb.jpg "[Translate to chinese:] Evolved ARveo 8: Operating Room (OR) set-up.")
增强现实:改变神经外科手术
在这本电子书中,您将探索增强现实(AR)为神经外科领域带来的激动人心的进步。这本综合指南包括解释性视频,解答关键问题并提供详细解释,揭示了外科手术的未来。
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激光显微切割技术用于组织和细胞分离的协议 - 免费下载电子书
激光显微切割(LMD,也称为激光捕获显微切割或LCM)使用户能够分离特定的单个细胞或整个组织区域,甚至亚细胞结构如染色体。纯化的组织和细胞可用于下游的RNA、DNA和蛋白质组工作流程。
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![[Translate to chinese:] The role of extracellular signalling mechanisms in the correct development of the human brain](/fileadmin/_processed_/a/e/csm_The_role_of_extracellular_signalling_mechanisms_in_the_correct_development_of_the_human_brain_24ae92408c.jpg "[Translate to chinese:] The role of extracellular signalling mechanisms in the correct development of the human brain")
在神经发育过程中,细胞是如何相互交流的?
细胞间通信是大脑发育过程中一个必不可少的过程,它受到多种因素的影响,包括细胞的形态、粘附分子、局部细胞外基质和分泌囊泡。在本次网络研讨会上,您将了解到对这些机制更深入的理解是如何推动对神经发育障碍的理解的。
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![[Translate to chinese:] According to Dr. Flanagan, the PROvido IVA surgical microscope provides optimal visualization, supporting the needs of tympanoplasty surgery. Image courtesy of Dr. Sean Flanagan.](/fileadmin/_processed_/e/e/csm_Tympanoplasty_surgery_with_PROvido_IVA_by_Dr._Flanagan_041d639b09.jpg "[Translate to chinese:] According to Dr. Flanagan, the PROvido IVA surgical microscope provides optimal visualization, supporting the needs of tympanoplasty surgery. Image courtesy of Dr. Sean Flanagan.")
鼓室成形术:优选方法和工具
鼓室成形术用于修复鼓膜穿孔。鼓室成形术有五种类型。第一种鼓室成形术,也称为鼓膜成形术,仅限于鼓膜的修复,而不涉及中耳的其他手术操作。鼓膜成形术是一种常见的但往往被低估的手术。手术方法的选择取决于鼓膜穿孔的位置。良好的可视化是成功修复的关键。