Guimaraes R, Clément O, Bittoun J, Carnot F, Frija G
Laboratoire de Recherche en Imagerie, Faculté de Médecine Necker, Paris, France.
AJR Am J Roentgenol. 1994 Jan;162(1):201-7. doi: 10.2214/ajr.162.1.8273666.
The purpose of this study in rodents was to determine the pathologic basis for enhancement patterns of hyperplastic and tumours lymph nodes shown by MR lymphography after IV injection of superparamagnetic iron oxide nanoparticles (AMI-227).
Hyperplastic and tumorous lymph nodes were imaged in vivo at 1.5 T 1 day after IV administration of AMI-227 (40-200 mumol Fe/kg) to rats. Inguinal and axillary lymph nodes were surgically resected, and in vitro imaging was done by using the same magnet with a prototype coil that allowed a pixel size of 70 x 230 microns. Imaging findings were correlated with histologic findings and iron staining of the nodes.
With all sequences, at doses of 80 mumol Fe/kg or higher, the signal intensity of hyperplastic nodes was lower than on unenhanced images. The same pattern was seen in the remaining normal tissue of tumourous lymph nodes. This T2* effect was a result of clustered particles inside macrophages in the lymphatic sinuses. At doses of 200 mumol/kg, the tumor itself consistently showed an increase in signal intensity on T1-weighted images. This T1 effect probably resulted from particles leaking into the interstitial spaces of the tumor.
After IV injection of superparamagnetic nanoparticles, a decrease in signal intensity indicates active uptake of particles into macrophages, whereas an increase in signal intensity indicates altered capillary permeability in tumor. These findings in rats may prove to be clinically useful in the future for differentiating benign from malignant enlarged lymph nodes.
本项针对啮齿动物的研究旨在确定静脉注射超顺磁性氧化铁纳米颗粒(AMI - 227)后磁共振淋巴造影显示的增生性和肿瘤性淋巴结强化模式的病理基础。
给大鼠静脉注射AMI - 227(40 - 200 μmol铁/千克)1天后,在1.5 T场强下对增生性和肿瘤性淋巴结进行体内成像。手术切除腹股沟和腋窝淋巴结,使用同一台带有原型线圈的磁体进行体外成像,该线圈允许像素大小为70×230微米。将成像结果与淋巴结的组织学结果和铁染色进行关联。
在所有序列中,当剂量达到80 μmol铁/千克或更高时,增生性淋巴结的信号强度低于未增强图像。在肿瘤性淋巴结的其余正常组织中也观察到相同模式。这种T2*效应是淋巴窦内巨噬细胞内聚集颗粒的结果。当剂量为200 μmol/千克时,肿瘤本身在T1加权图像上始终显示信号强度增加。这种T1效应可能是由于颗粒渗漏到肿瘤的间质间隙中所致。
静脉注射超顺磁性纳米颗粒后,信号强度降低表明颗粒被巨噬细胞主动摄取,而信号强度增加表明肿瘤中的毛细血管通透性发生改变。大鼠中的这些发现未来可能在临床上有助于鉴别良性与恶性肿大淋巴结。
