Gashev Anatoliy A, Nagai Takashi, Bridenbaugh Eric A
Department of Systems Biology and Translational Medicine, College of Medicine, Cardiovascular Research Institute, Division of Lymphatic Biology, Texas A&M Health Science Center, Temple, Texas 76504, USA.
Lymphat Res Biol. 2010 Jun;8(2):127-30. doi: 10.1089/lrb.2010.0005.
Near-infrared (NIR) fluorescence imaging using indocyanine green (ICG) has recently been presented as a comparatively easy and informative technique to image lymphatic channels in vivo. However, no data or references have been provided concerning the impact of ICG application on normal lymphatic contractility and lymph transport. Thus, the imaging agent and/or the method of administration may introduce a significant artifact.
Standard pharmacological tests were performed to investigate the influence of ICG on the spontaneous contractility of isolated, cannulated, and pressurized rat mesenteric lymphatic vessels. The data demonstrate that non-irradiated ICG dramatically and dynamically influences the contractility of rat lymphatic vessels in both a dose- and diluent-dependent manner with low ICG concentrations principally altering contractile frequency and higher ICG concentrations completely blocking lymphatic contractility.
Currently, both researchers and doctors should exercise caution in extrapolating the data obtained with ICG imaging to normal lymphatic function regardless of whether it was obtained in mice, pigs, or humans. Careful and extended pharmacological tests must be performed to evaluate the mechanism of action of ICG on the contractility and physiology of lymphatic vessels with consideration of dose, diluent, and duration of irradiation.
使用吲哚菁绿(ICG)的近红外(NIR)荧光成像最近已成为一种在体内对淋巴管进行成像的相对简单且信息丰富的技术。然而,尚未提供有关ICG应用对正常淋巴管收缩性和淋巴运输影响的数据或参考文献。因此,成像剂和/或给药方法可能会引入显著的假象。
进行了标准药理学测试,以研究ICG对分离、插管并加压的大鼠肠系膜淋巴管自发收缩性的影响。数据表明,未照射的ICG以剂量和稀释剂依赖的方式显著且动态地影响大鼠淋巴管的收缩性,低浓度的ICG主要改变收缩频率,而高浓度的ICG则完全阻断淋巴管收缩。
目前,无论在小鼠、猪还是人类中获得的数据,研究人员和医生在将ICG成像获得的数据外推至正常淋巴功能时都应谨慎。必须进行仔细且全面的药理学测试,以评估ICG对淋巴管收缩性和生理学的作用机制,并考虑剂量、稀释剂和照射持续时间。