Shen Yingli, Lifante José, Zabala-Gutierrez Irene, de la Fuente-Fernández María, Granado Miriam, Fernández Nuria, Rubio-Retama Jorge, Jaque Daniel, Marin Riccardo, Ximendes Erving, Benayas Antonio
Nanomaterials for Bioimaging Group (NanoBIG), Universidad Autónoma de Madrid, Madrid, 28049, Spain.
Nanomaterials for Bioimaging Group (NanoBIG), Instituto Ramón y Cajal de Investigación Sanitaria, Ctra de Colmenar Viejo Km 9,100, Madrid, 28034, Spain.
Adv Mater. 2022 Feb;34(7):e2107764. doi: 10.1002/adma.202107764. Epub 2022 Jan 9.
Temperature of tissues and organs is one of the first parameters affected by physiological and pathological processes, such as metabolic activity, acute trauma, or infection-induced inflammation. Therefore, the onset and development of these processes can be detected by monitoring deviations from basal temperature. To accomplish this, minimally invasive, reliable, and accurate measurement of the absolute temperature of internal organs is required. Luminescence nanothermometry is the ideal technology for meeting these requirements. Although this technique has lately undergone remarkable developments, its reliability is being questioned due to spectral distortions caused by biological tissues. In this work, how the use of bright Ag S nanoparticles featuring temperature-dependent fluorescence lifetime enables reliable and accurate measurement of the absolute temperature of the liver in mice subjected to lipopolysaccharide-induced inflammation is demonstrated. Beyond the remarkable thermal sensitivity (≈ 3% °C around 37 °C) and thermal resolution obtained (smaller than 0.3 °C), the results included in this work set a blueprint for the development of new diagnostic procedures based on the use of intracorporeal temperature as a physiological indicator.
组织和器官的温度是受生理和病理过程影响的首批参数之一,这些过程包括代谢活动、急性创伤或感染引发的炎症。因此,通过监测与基础体温的偏差,可以检测出这些过程的发生和发展。要做到这一点,需要对内部器官的绝对温度进行微创、可靠且准确的测量。发光纳米温度测量法是满足这些要求的理想技术。尽管该技术最近取得了显著进展,但由于生物组织引起的光谱畸变,其可靠性受到质疑。在这项工作中,展示了如何使用具有温度依赖性荧光寿命的明亮硫化银纳米颗粒,对脂多糖诱导炎症的小鼠肝脏绝对温度进行可靠且准确的测量。除了具有显著的热灵敏度(37°C左右约为3%/°C)和获得的热分辨率(小于0.3°C)之外,这项工作中的结果为基于将体内温度用作生理指标来开发新的诊断程序奠定了蓝图。
