Perlitz Christin, Licha Kai, Scholle Frank-Detlef, Ebert Bernd, Bahner Malte, Hauff Peter, Moesta Kurt Thomas, Schirner Michael
Optical Imaging and New Modalities Research, Research Laboratories, Schering AG, Müllerstrasse, 13342 Berlin, Germany.
J Fluoresc. 2005 May;15(3):443-54. doi: 10.1007/s10895-005-2636-x.
Optical technologies are evolving in many biomedical areas including the biomedical imaging disciplines. Regarding the absorption properties of physiological molecules in living tissue, the optical window ranging from 700 to 900 nm allows to use fluorescent dyes for novel diagnostic solutions. Here we investigate the potential of two different carbocyanine-based dyes fluorescent in the near infrared as contrast agents for in vivo imaging of subcutaneously grown tumours in laboratory animals. The primary aim was to modify the physicochemical properties of the previously synthesized dye SIDAG to investigate the effect on the in vivo imaging properties.
光学技术正在许多生物医学领域不断发展,包括生物医学成像学科。就活体组织中生理分子的吸收特性而言,700至900纳米的光学窗口使得荧光染料可用于新型诊断解决方案。在此,我们研究了两种不同的近红外荧光菁染料作为实验动物皮下生长肿瘤体内成像造影剂的潜力。主要目的是改变先前合成的染料SIDAG的物理化学性质,以研究其对体内成像特性的影响。