Motion compensation using a suctioning stabilizer for intravital microscopy.

IntraVital Pub Date : 2012-10-01 DOI:10.4161/intv.23017
Claudio Vinegoni, Sungon Lee, Rostic Gorbatov, Ralph Weissleder
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引用次数: 29

Abstract

Motion artifacts continue to present a major challenge to single cell imaging in cardiothoracic organs such as the beating heart, blood vessels, or lung. In this study, we present a new water-immersion suctioning stabilizer that enables minimally invasive intravital fluorescence microscopy using water-based stick objectives. The stabilizer works by reducing major motion excursions and can be used in conjunction with both prospective or retrospective gating approaches. We show that the new approach offers cellular resolution in the beating murine heart without perturbing normal physiology. In addition, because this technique allows multiple areas to be easily probed, it offers the opportunity for wide area coverage at high resolution.

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活体显微术中使用吸吸稳定器的运动补偿。
运动伪影仍然是心胸器官单细胞成像的主要挑战,如跳动的心脏、血管或肺。在这项研究中,我们提出了一种新的水浸吸稳定剂,使微创活体荧光显微镜使用水基棒物镜。稳定器的工作原理是减少主要的运动偏移,可以与前瞻性或回顾性门控方法结合使用。我们表明,这种新方法在不干扰正常生理的情况下提供了跳动的小鼠心脏的细胞分辨率。此外,由于这种技术可以很容易地探测多个区域,因此它提供了以高分辨率覆盖广域的机会。
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