Li Xin, Yu Weiming
Indiana University School of Medicine, Department of Medicine, Division of Nephrology.
Opt Commun. 2008 Apr 1;281(7):1833-1840. doi: 10.1016/j.optcom.2007.08.074.
Intravital microscopy using two-photon excitation is proven to be a valuable tool for studying the kidney and associated disease processes. However, routine performance of intravital kidney imaging is limited by the fact that fluorescence signal is attenuated by the tissue and at certain tissue depth lost its strength completely. For most of the animal tissues, this finite imaging depth is limited to a few hundred microns. Currently it is not possible to non-invasively image the kidney beyond the superficial tissue layers of the cortex. This has imposed significant limitations on the animal models one can use for imaging since structure such the glomerulus is typically located below the superficial layer of the cortex that can not be imaged using a conventional fluorescence microscope. Here we report the use of a needle-like lens system based on gradient-index (GRIN) microlenses capable of transferring high quality fluorescence images of the tissue through a regular microscope objective for deep tissue imaging of the kidney. By combining this GRIN lens system with a Zeiss LSM 510 NLO microscope, we are able to extend the imaging depth for kidney tissues far beyond the few hundred microns limit. This GRIN lens imaging system provides an alternative microendoscopic imaging tool that will enhance current intravital kidney imaging techniques for studying structural and functional properties of local tissues at locations below the superficial layers of the kidney.
使用双光子激发的活体显微镜检查已被证明是研究肾脏及相关疾病过程的一种有价值的工具。然而,活体肾脏成像的常规操作受到以下事实的限制:荧光信号会被组织衰减,并且在一定的组织深度会完全失去强度。对于大多数动物组织而言,这种有限的成像深度限制在几百微米。目前,无法对肾脏皮质表层以外的区域进行无创成像。这对可用于成像的动物模型造成了重大限制,因为诸如肾小球等结构通常位于皮质表层以下,而使用传统荧光显微镜无法对其进行成像。在此,我们报告了一种基于梯度折射率(GRIN)微透镜的针状透镜系统的应用,该系统能够通过普通显微镜物镜传输组织的高质量荧光图像,用于肾脏的深部组织成像。通过将这种GRIN透镜系统与蔡司LSM 510 NLO显微镜相结合,我们能够将肾脏组织的成像深度扩展到远远超过几百微米的限制。这种GRIN透镜成像系统提供了一种替代性的显微内镜成像工具,将增强当前用于研究肾脏表层以下局部组织的结构和功能特性的活体肾脏成像技术。