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How Artificial Intelligence Enhances Confocal Imaging
In this article, we show how artificial intelligence (AI) can enhance your imaging experiments. Namely, how Dynamic Signal Enhancement powered by Aivia improves image quality while capturing the…
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美国联邦法规第21章第11款和其他相关法规简介
本文概述了在美国(联邦法规第21章第11款)、欧盟(GMP附录11)和中国(NMPA)所用电子记录(数据输入、存储、签名和审批)的法规和指南,这些法规和指南会对医疗器械质量控制的数字化增强检测解决方案产生影响。与纸质记录方法相比,使用显微镜进行数字化增强检测具有更一致和更高效的检测优势。但是,与纸质记录和签名的规定相比,电子记录和签名的规定有明显不同的建议和要求。电子记录的创建、验证、存储和备份应…
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20 Years of Leica Laser Microdissection
Phenotype-genotype correlations are key for insight. From Eye to Insight is therefore fitting perfectly to Leica Microsystems and in particular to laser microdissection. Laser Microdissection, also…
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Overcoming Ophthalmologic Surgery Challenges
Ophthalmology surgical procedures involving both the anterior and posterior segment can be particularly challenging. Good visualization is required to operate with precision and confidence.
Prof.…
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Hand-Held OCT Clinical & Research Applications
Hand-held Optical Coherence Tomography (OCT) has revolutionized pediatric ophthalmology and has had a significant impact on ophthalmology in general. The Leica Envisu C2300 hand-held OCT allows to…
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A New World of Confocal Applications with the Next Generation White Light Lasers
As biological questions get more complex, there is an increasing need to study multiple events simultaneously in the same specimen. When preparing the specimen for imaging experiments, this need is…
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以符合人体工学的方式高效进行病理显微分析
本文介绍了显微镜的主要性能特点,这些特点对于快速、符合人体工学和精确地对病理标本进行显微分析至关重要。病理标本的显微分析是提供诊断的关键步骤。由于病理学家可能会花很长时间在显微镜下分析标本,因此要实现准确、高效的诊断,就需要最佳的显微镜设置。显微镜应采用符合人体工程学的设计,可根据用户的体型进行定制,促进显微分析过程中的良好姿势,从而最大限度地减少劳损和损伤。高性能光学镜组也至关重要,它能提供出色…