Vonarbourg A, Sapin A, Lemaire L, Franconi F, Menei P, Jallet P, Le Jeune J J
Inserm U646, "Ingénierie de la Vectorisation Particulaire" bâtiment IBT, 10, rue André Boquel, 49100, Angers, France.
MAGMA. 2004 Dec;17(3-6):133-9. doi: 10.1007/s10334-004-0049-5. Epub 2004 Oct 20.
Two different experimental rat brain tumours (F98 glioma and 9L glioma) were characterized using T1 and T2, apparent diffusion coefficient (ADC) and magnetization transfer ratio (MTR). Even though both tumours appeared homogenous at the early stage of growth, significant differences were measured for all parametric images between tumours and normal brain tissue. Irrespective of the sequence used, tumour lesion/normal parenchyma contrast for the non-infiltrative 9L was twice that of the infiltrative F98 glioma. The use of spin preparation via an inversion pulse in a fast spin echo sequence increases contrast by a factor of 20-30.
使用T1、T2、表观扩散系数(ADC)和磁化传递率(MTR)对两种不同的实验性大鼠脑肿瘤(F98胶质瘤和9L胶质瘤)进行了表征。尽管两种肿瘤在生长早期均表现为均匀性,但在肿瘤与正常脑组织之间的所有参数图像上均测量到了显著差异。无论使用何种序列,非浸润性9L肿瘤病变/正常实质的对比度是浸润性F98胶质瘤的两倍。在快速自旋回波序列中通过反转脉冲进行自旋准备可使对比度提高20至30倍。