Dardzinski B J, Sotak C H
Department of Biomedical Engineering, Worcester Polytechnic Institute, MA 01609.
Magn Reson Med. 1994 Jul;32(1):88-97. doi: 10.1002/mrm.1910320112.
Fluorine-19 inversion-recovery, echo-planar imaging (IR-EPI) was used in conjunction with a new PFC emulsion, perfluoro-15-crown-5-ether, to map the spatial distribution of oxygen tension in murine liver, spleen and radiation induced fibrosarcoma (RIF-1) tumors. Intravenously administered PFC emulsions were allowed to sequester in the liver, spleen, and tumor 3 to 7 days prior to imaging experiments. Seven, 64 x 64 IR-EPIs were acquired with successively increasing inversion times (TI). A nonlinear least-squares regression algorithm was used to fit the seven two-dimensional matrices, on a pixel-by-pixel basis, to solve for the relaxation rate, R1, of the sequestered PFC. From in vitro calibration curves, the oxygen tension (pO2) was calculated from the measured R1. Oxygen tension maps were then murine liver and spleen were produced (in 2.5 min) to demonstrate the technique and changes in tissue oxygenation as a function of breathing gas (air and carbogen (95% O2-5% CO2)) are presented. Tissue pO2 maps from RIF-1 tumors (n = 5) were obtained in less than 10 min and changes in tumor pO2 were studied when the breathing gas was switched from air to carbogen. The results from tumor pO2 maps were compared with 19F MR spectroscopy measurements to check for consistency. Histogram analysis yielded an average liver and spleen pO2 of 43 torr and 26 torr for RIF-1 tumors when the animals were breathing air. Statistically significant changes in tumor oxygenation as a function of breathing gas were obtained from both pO2 maps (6 +/- 2 torr, P < 0.05) and 19F MR spectroscopy (13 +/- 3 torr, P < 0.01) as evaluated using the Student's paired t test.
氟 - 19反转恢复回波平面成像(IR - EPI)与一种新型全氟碳(PFC)乳剂全氟 - 15 - 冠 - 5 - 醚联合使用,以绘制小鼠肝脏、脾脏和辐射诱导纤维肉瘤(RIF - 1)肿瘤中氧张力的空间分布。在成像实验前3至7天,静脉注射PFC乳剂,使其在肝脏、脾脏和肿瘤中蓄积。通过依次增加反转时间(TI),采集了七幅64×64的IR - EPI图像。使用非线性最小二乘回归算法,逐像素地拟合这七个二维矩阵,以求解蓄积的PFC的弛豫率R1。根据体外校准曲线,由测得的R1计算氧张力(pO2)。然后生成小鼠肝脏和脾脏的氧张力图(在2.5分钟内),以展示该技术,并呈现作为呼吸气体(空气和混合气(95% O2 - 5% CO2))函数的组织氧合变化。在不到10分钟的时间内获得了RIF - 1肿瘤(n = 5)的组织pO2图,并研究了呼吸气体从空气切换到混合气时肿瘤pO2的变化。将肿瘤pO2图的结果与19F磁共振波谱测量结果进行比较,以检查一致性。直方图分析得出,当动物呼吸空气时,RIF - 1肿瘤的肝脏和脾脏平均pO2分别为43托和26托。使用学生配对t检验评估,从pO2图(6±2托,P < 0.05)和19F磁共振波谱(13±3托,P < 0.01)均获得了作为呼吸气体函数的肿瘤氧合的统计学显著变化。
