Goh Vicky, Halligan Steve, Hugill Jo-Ann, Bassett Paul, Bartram Clive I
Intestinal Imaging Centre, St. Mark's Hospital, Watford Rd., Level 4V, Harrow, Middlesex, HA1 3UJ, United Kingdom.
AJR Am J Roentgenol. 2005 Jul;185(1):225-31. doi: 10.2214/ajr.185.1.01850225.
The objective of our study was to determine inter- and intraobserver agreement of MDCT colorectal cancer perfusion measurements.
Thirty-one patients (17 men, 14 women; median age, 69 years) with proven colorectal cancer were examined prospectively using MDCT. A 65-sec dynamic study (cine mode, 4 x 5 mm collimation) was acquired through the tumor after i.v. contrast administration (100 mL of iopamidol 350, 5 mL/sec). Tumor blood volume, blood flow, mean transit time, and permeability measurements were determined by two independent observers using commercial software. Inter- and intraobserver agreement was assessed using the Bland-Altman test.
The mean difference for interobserver agreement (95% limits of agreement) was -0.81 mL/100 g tissue (-3.14 to 1.52); -9.94 mL/100 g tissue/min (-51.43 to 32.65); -1.09 sec (-7.05 to 4.86); and -2.90 mL/100 g tissue/min (-11.48 to 5.68) for blood volume, blood flow, mean transit time, and permeability, respectively. The intraclass correlation coefficient was 0.83, 0.89, 0.89, and 0.80, respectively. The mean difference for intraobserver agreement (95% limits of agreement) was 0.12 mL/100 g tissue (-1.90 to 2.14); 0.02 mL/100 g tissue/min (-13.13 to 13.17); -0.19 sec (-3.19 to 2.81); and 0.00 mL/100 g tissue/min (-2.45 to 2.45) for observer 1 and 0.26 mL/100 g tissue (-1.46 to 1.98); 4.47 mL/100 g tissue/min (-26.65 to 35.59); -0.21 sec (-2.48 to 2.06); 1.08 mL/100 g tissue/min (-4.92 to 7.08) for observer 2. The intraclass correlation coefficient was 0.86, 0.98, 0.97, 0.98 for observer 1 and 0.93, 0.96, 0.99, and 0.94, respectively, for observer 2.
There is greater inter- than intraobserver agreement for CT vascular perfusion measurements of primary colorectal cancer, which must be addressed for reliable clinical application in therapeutic monitoring.
我们研究的目的是确定多排螺旋CT(MDCT)对结直肠癌灌注测量的观察者间和观察者内一致性。
对31例经证实患有结直肠癌的患者(17例男性,14例女性;中位年龄69岁)进行前瞻性MDCT检查。静脉注射造影剂(100 mL碘帕醇350,5 mL/秒)后,通过肿瘤进行65秒的动态研究(电影模式,4×5 mm准直)。两名独立观察者使用商业软件测定肿瘤血容量、血流、平均通过时间和通透性。使用Bland-Altman检验评估观察者间和观察者内一致性。
观察者间一致性的平均差异(95%一致性界限)分别为:血容量-0.81 mL/100 g组织(-3.14至1.52);血流-9.94 mL/100 g组织/分钟(-51.43至32.65);平均通过时间-1.09秒(-7.05至4.86);通透性-2.90 mL/100 g组织/分钟(-11.48至5.68)。组内相关系数分别为0.83、0.89、0.89和0.80。观察者1的观察者内一致性平均差异(95%一致性界限)分别为:血容量0.12 mL/100 g组织(-1.90至2.14);血流0.02 mL/100 g组织/分钟(-13.13至13.17);平均通过时间-0.19秒(-3,19至2.81);通透性0.00 mL/100 g组织/分钟(-2.45至2.45);观察者2的分别为:血容量0.26 mL/100 g组织(-1.46至1.98);血流4.47 mL/100 g组织/分钟(-26.65至35.59);平均通过时间-0.21秒(-2.48至2.06);通透性1.08 mL/100 g组织/分钟(-4.92至7.08)。观察者1的组内相关系数分别为0.86、0.98、0.97和0.98,观察者2的分别为0.93、0.96、0.99和0.94。
原发性结直肠癌CT血管灌注测量的观察者间一致性高于观察者内一致性,在治疗监测的可靠临床应用中必须解决这一问题。
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