增强分数与肿瘤血管微环境的关系在脑胶质瘤中的研究:动态对比增强磁共振成像研究。
Enhancing fraction in glioma and its relationship to the tumoral vascular microenvironment: A dynamic contrast-enhanced MR imaging study.
机构信息
University of Manchester, United Kingdom.
出版信息
AJNR Am J Neuroradiol. 2010 Apr;31(4):726-31. doi: 10.3174/ajnr.A1925. Epub 2009 Dec 17.
BACKGROUND AND PURPOSE
EnF is a newly described measure of proportional tumor enhancement derived from DCE-MR imaging. The aim of this study was to assess the relationship between EnF and the more established DCE-MR imaging parameters: K(trans), v(e), and v(p).
MATERIALS AND METHODS
Forty-two patients with 43 gliomas (16 grade II, 3 grade III, and 24 grade IV) were studied. Imaging included pre- and postcontrast T1-weighted sequences through the lesion and T1-weighted DCE-MR imaging. Parametric maps of EnF, K(trans), v(e), and v(p) were generated. Voxels were classified as enhancing if the IAUC was positive (EnF(IAUC)(60>0)). A threshold of IAUC > 2.5 mmol.s was used to generate EnF(IAUC)(60>2.5). Both measures of EnF were compared with the DCE-MR imaging parameters (K(trans), v(e), and v(p)).
RESULTS
In grade II gliomas, EnF(IAUC60>0) and EnF(IAUC60>2.5) correlated with v(p) (R(2) = 0.6245, P < .0005; and R(2) = 0.4727, P = .003) but not with K(trans) or v(e). In grade IV tumors, both EnF(IAUC60>0) and EnF(IAUC60>2.5) correlated with K(trans) (R(2) = 0.3501, P = .001; and R(2) = 0.4699, P < .0005) and v(p) (R(2) = 0.1564, P = .01; and R(2) = 0.2429, P = .007), but not with v(e). Multiple regression analysis showed K(trans) as the only independent correlate of both EnF(IAUC60>0) and EnF(IAUC60>2.5) for grade IV tumors.
CONCLUSIONS
This study suggests that in grade II tumors, EnF reflects v(p) and varies due to changes in vascular density. In grade IV gliomas, EnF is affected by K(trans) with secondary associated changes in v(p).
背景与目的
EnF 是一种新描述的来自 DCE-MR 成像的肿瘤增强比例测量。本研究的目的是评估 EnF 与更成熟的 DCE-MR 成像参数:K(trans)、v(e)和 v(p)之间的关系。
材料与方法
42 例 43 例脑胶质瘤患者(16 级 2 例,3 级 3 例,24 级 4 例)。影像学检查包括病变前后 T1 加权序列和 T1 加权 DCE-MR 成像。生成 EnF、K(trans)、v(e)和 v(p)的参数图。如果 IAUC 为正(EnF(IAUC)(60>0)),则将体素分类为增强。使用 IAUC > 2.5 mmol·s 生成 EnF(IAUC)(60>2.5)。用 DCE-MR 成像参数(K(trans)、v(e)和 v(p))比较两种 EnF 测量值。
结果
在 2 级胶质瘤中,EnF(IAUC60>0)和 EnF(IAUC60>2.5)与 v(p)相关(R² = 0.6245,P <.0005;R² = 0.4727,P =.003),但与 K(trans)或 v(e)不相关。在 4 级肿瘤中,EnF(IAUC60>0)和 EnF(IAUC60>2.5)均与 K(trans)(R² = 0.3501,P =.001;R² = 0.4699,P <.0005)和 v(p)(R² = 0.1564,P =.01;R² = 0.2429,P =.007)相关,但与 v(e)不相关。多元回归分析显示,K(trans)是 4 级肿瘤中 EnF(IAUC60>0)和 EnF(IAUC60>2.5)的唯一独立相关因素。
结论
本研究表明,在 2 级肿瘤中,EnF 反映 v(p),并因血管密度的变化而变化。在 4 级脑胶质瘤中,EnF 受 K(trans)的影响,继发性 v(p)变化。
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