Multi-time DCE-MRI and pathological characteristics of rabbit model bearing liver VX2 tumor
10.13481/j.1671-587x.20140608
- VernacularTitle:兔VX2肝肿瘤多时间点MR增强扫描信号特点及其病理学表现
- Author:
Yaoqi HAN
;
Zhongkui HUANG
;
Liling LONG
;
Wenmei LI
;
Li LI
- Publication Type:Journal Article
- Keywords:
VX2;
liver neoplasms;
magnetic resonance imaging;
dynamic contrast-enhanced MR imaging
- From:
Journal of Jilin University(Medicine Edition)
2014;(6):1166-1170
- CountryChina
- Language:Chinese
-
Abstract:
Objective To observe the growth characteristics and multi-time dynamic contrast-enhanced MR(DCE-MR)findings of rabbit VX2 liver tumor on MR imaging, and to provide a reliable basis for the values of MR in assessment of non-surgical treatment effect of rabbit VX2 liver tumor.Methods 10 rabbit VX2 liver tumor models were established by liver tissue embedding through laparotomy under direct vision and DCE-MRI scaning was performed at the 2nd,3rd,4th and 5th week after establishment.The tumor volume (V)and tumor growth rate (TGR)were calculated at different time points and the signal characteristics were analyzed on MR imaging;then all the rabbits were excuted and HE staining were performed to observe the cancer cells in different places with microscope.Results The TGR at the 3rd week after establishment (404.16%±114.64%)was significantly higher than that at the 4th week (223.49%±65.90%)(t=3.417,P<0.05).The tumors with well-boundary were rim-like enhanced significantly and the central parts were not enhanced on DCE-MR imaging,and the parts between the edge and centre of tumors were heterogeneously mild enhanced. The HE staining results showed that 6 cases of tumor were squamous cell carcinoma and the cells were distributed densely in the edge,the cancer cells and necrosis were distributed equally in the parts between the edge and centre of tumors and the centre of tumors were necrosis parts.Conclusion The rabbit VX2 liver tumor grows rapidly at the 3rd week after establishment, and its histological features can be better reflected by DCE-MRI.
