光学
显微镜
图像分辨率
材料科学
穿透深度
图像处理
显微镜
可视化
点扩散函数
图像质量
散射
空间频率
光散射
迭代重建
计算机科学
共焦显微镜
时间分辨率
薄层荧光显微镜
光学相干层析成像
光学切片
噪音(视频)
激光器
人工智能
分辨率(逻辑)
荧光寿命成像显微镜
双光子激发显微术
荧光显微镜
计算机视觉
作者
Liang Feng,Jiaqi Li,Jie Zhang,Zhigang Yang,Bo Hou,Kai Lou,Junle Qu,Weijia Wen
出处
期刊:Optics Letters
[Optica Publishing Group]
日期:2026-01-05
卷期号:51 (2): 472-472
摘要
Compared to wide-field (WF) microscopy in the second near-infrared (NIR-II) window, NIR-II multifocal structured illumination microscopy (NIR-II MSIM) provides a twofold improvement in transverse spatial resolution, along with enhanced penetration depth and superior image contrast. These advantages position NIR-II MSIM as a promising platform for studying physiological processes in turbid specimens. However, significant background noise caused by cumulative photon scattering continues to severely degrade image resolution and fidelity. Moreover, the data processing workflow in NIR-II MSIM is highly sensitive to motion artifacts, which further limits its broader applications in live-tissue imaging. To address these challenges, we introduce NIR-II MSIM-eSRRF, a technique that combines NIR-II MSIM with enhanced super-resolution radial fluctuation (eSRRF). This hybrid approach facilitates advanced deep imaging with improved spatial resolution and contrast across turbid specimens, including Intralipid phantoms, ex-vivo pork tissue, and live mice. Notably, NIR-II MSIM-eSRRF could effectively suppress motion artifacts, yielding nearly artifact-free visualization of fine cerebral vessels in vivo. As such, the NIR-II MSIM-eSRRF platform will emerge as a powerful tool for investigating physiological processes in highly scattering environments, thereby accelerating advancements in intravital fluorescence microscopy.
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