活体自发荧光对量子点体内荧光成像的影响

Cell medicine Pub Date : 2014-12-12 eCollection Date: 2015-02-08 DOI:10.3727/215517914X685169
Hiroshi Yukawa, Masaki Watanabe, Noritada Kaji, Yoshinobu Baba
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引用次数: 0

摘要

量子点(QDs)因其卓越的荧光特性而被认为是用于体内荧光成像的新型无机探针。众所周知,包括人类、大鼠和小鼠在内的各种活体都会产生自发荧光。然而,人们对自发荧光对使用 QDs 进行体内荧光成像的影响仍然知之甚少。在本文中,我们评估了来自小鼠身体的自发荧光以及自发荧光对使用 QDs 进行体内荧光成像的影响。我们使用 Maestro™ 体内成像系统,在各种激发/荧光滤光片设置(蓝、绿、黄、红、深红和近红外)下检测了去掉毛发的小鼠的背侧和腹侧自发荧光。结果发现,在红色滤光片条件下,自发荧光的程度极高,但在红色滤光片条件下,可以检测到小鼠背上移植的标记有 QDs 的间充质干细胞。此外,用 QDs 标记的间充质干细胞可追踪至少 5 天。我们认为,使用 QDs 进行荧光成像可用于检测移植细胞。
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Influence of Autofluorescence Derived From Living Body on In Vivo Fluorescence Imaging Using Quantum Dots.

Quantum dots (QDs) are thought to be a novel inorganic probe for in vivo fluorescence imaging because of their excellent fluorescence properties. Autofluorescence is generally known to be produced from various living bodies including humans, rats, and mice. However, the influence of the autofluorescence on in vivo fluorescence imaging using QDs remains poorly understood. In this article, we assessed the autofluorescence derived from a mouse body and the influence of the autofluorescence on in vivo fluorescence imaging using QDs. The dorsal and ventral autofluorescence derived from a mouse from which the hair was removed were detected under all kinds of excitation/fluorescence filter settings (blue, green, yellow, red, deep red, and NIR) using the Maestro™ in vivo imaging system. The degree of autofluorescence was found to be extremely high in the red filter condition, but transplanted ASCs labeled with QDs on the back of a mouse could be detected in the red filter condition. Moreover, the ASCs labeled with QDs could be traced for at least 5 days. We suggest that fluorescence imaging using QDs can be useful for the detection of transplanted cells.

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Cell medicine
Cell medicine MEDICINE, RESEARCH & EXPERIMENTAL-
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