[Comparative study of ultra-high field diffusion-weighted MRI imaging between hepatocellular carcinoma and paracancerous, distant cancerous, and background liver tissues].

Q3 Medicine
T Yuan, B G Tan, J Ou, Y P Wu, T W Chen
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The Kruskal-Wallis H test and Bonferroni method were used to test the differences between the measured values of the five tissues. The statistical differences were used to evaluate the diagnostic efficacy of the five tissues by parametric receiver operating characteristic (ROC) curve and area under the curve (AUC). <b>Results:</b> The comparison of average ADC and eADC among five types of tissues in the liver cirrhosis group showed that the average ADC and eADC measured at b values of 50, 100, 400, and 600 s/mm<sup>2</sup> had statistically significant differences (adjusted <i>P</i><0.005) between cancerous and proximal paracancerous, distal paracancerous, distant cancerous, and background liver tissue, as well as the average ADC measured at b=1 000 s/mm<sup>2</sup> between cancerous and proximal paracancerous tissue. 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引用次数: 0

Abstract

Objective: To investigate the differences in multi-b-value apparent diffusion coefficient (ADC) and exponential apparent diffusion coefficient (eADC) between hepatocellular carcinoma (HCC) and paracancerous liver tissue, distant cancerous liver tissue, and background liver tissues by ultra-high field 3.0T diffusion-weighted (DWI) MRI imaging. Methods: Sixty-eight consecutive HCC cases confirmed by surgical pathology from January 2018 to October 2021 were enrolled and divided into a cirrhosis (n=39) and a non-cirrhosis group (n=29) according to the presence or absence of cirrhosis.The average ADC and eADC of liver tissues of paracancerous (including proximal and distal), distant cancerous, and background were measured by DWI images with diffusion sensitivity factors (b) of 50, 100, 400, 600 s/mm2, and 1 000 s/mm2, respectively. The Kruskal-Wallis H test and Bonferroni method were used to test the differences between the measured values of the five tissues. The statistical differences were used to evaluate the diagnostic efficacy of the five tissues by parametric receiver operating characteristic (ROC) curve and area under the curve (AUC). Results: The comparison of average ADC and eADC among five types of tissues in the liver cirrhosis group showed that the average ADC and eADC measured at b values of 50, 100, 400, and 600 s/mm2 had statistically significant differences (adjusted P<0.005) between cancerous and proximal paracancerous, distal paracancerous, distant cancerous, and background liver tissue, as well as the average ADC measured at b=1 000 s/mm2 between cancerous and proximal paracancerous tissue. The average ADC and eADC in the non-cirrhosis group had statistically significant differences (adjusted P<0.005) between cancerous and proximal paracancerous, distant paracancerous, distant cancerous, and background liver tissue measured at b values of 50, 100, and 400 s/mm2, respectively. The average ADC and eADC measured at b=600 s/mm2 showed statistically significant differences (adjusted P<0.005) between cancerous and proximal paracancerous, distal paracancerous, and distant cancerous liver tissue, as well as the average ADC measured at b=1 000 s/mm2 between cancerous and distal paracancerous, and distant cancerous liver tissue. The average ADC and eADC in the cirrhosis group had no statistically significant difference between the proximal paracancerous and the distant cancerous, as well as the background liver tissue measured at b-values of 50, 100, 400, 600, and 1 000 s/mm2, respectively (adjusted P>0.005), while there were statistically significant differences (adjusted P<0.005) in the average ADC values in the non-cirrhosis group between the proximal paracancerous and the distant paracancerous and background liver tissues at b=50 s/mm2, as well as the average ADC and eADC values between the proximal paracancerous and the distant liver tissues at b=100 s/mm2. The average ADC and eADC values measured in the cirrhosis group and non-cirrhosis group had no statistically significant difference between the distant paracancerous, distant cancerous, and background liver tissue (adjusted P>0.005). The efficacy of average ADC and eADC in distinguishing five types of tissues (cancerous and proximal paracancerous, distant paracancerous, distant cancerous, and background liver tissue) showed that in the cirrhosis group, the diagnostic efficacy was best at b=50 s/mm2. The area under the ROC curve (AUC) of average ADC was 0.815, 0.828, 0.855, and 0.855, respectively, and the AUC of average eADC was 0.815, 0.830, 0.856, and 0.855, respectively. The diagnostic efficacy was best in the non cirrhosis group at b=100 s/mm2, with average ADC AUCs of 0.787, 0.823, 0.841, and 0.821, and average eADC AUCs of 0.836, 0.874, 0.893, and 0.873, respectively. The AUC of the average ADC in the non-cirrhosis group for distinguishing between proximal paracancerous and distant cancerous liver tissues, as well as proximal paracancerous and background liver tissues, with b=50 s/mm2, were 0.605 and 0.604, respectively. The average AUC of ADC and eADC for distinguishing between proximal paracancerous and distant liver tissues with b=100 s/mm2 were 0.619 and 0.620, respectively. Conclusion: The average ADC and eADC measured by multiple b-values are helpful in distinguishing HCC from proximal paracancerous, distal paracancerous, distant-cancerous, and background liver tissues in patients with cirrhosis and non-cirrhosis, while the average ADC and eADC at b=50 s/mm2 and 100 s/mm2 exhibit differences between the proximal paracancerous from the distant cancerous liver tissue and background liver tissue in patients with non-cirrhosis.

[肝癌与癌旁组织、远处癌组织和背景肝组织的超高场弥散加权磁共振成像比较研究]。
研究目的通过超高场3.0T弥散加权(DWI)核磁共振成像,研究肝细胞癌(HCC)与癌旁肝组织、远处癌肝组织和背景肝组织之间多b值表观弥散系数(ADC)和指数表观弥散系数(eADC)的差异。研究方法纳入2018年1月至2021年10月经手术病理证实的68例连续HCC病例,根据有无肝硬化分为肝硬化组(n=39)和非肝硬化组(n=29)。用扩散敏感因子(b)分别为 50、100、400、600 s/mm2 和 1 000 s/mm2 的 DWI 图像测量癌旁(包括近端和远端)、远处癌和背景肝组织的平均 ADC 和 eADC。采用 Kruskal-Wallis H 检验和 Bonferroni 方法检验五种组织测量值之间的差异。统计差异通过参数接收者操作特征曲线(ROC)和曲线下面积(AUC)来评估五种组织的诊断效果。结果肝硬化组五种组织的平均 ADC 和 eADC 比较显示,在 b 值为 50、100、400 和 600 s/mm2 时测量的平均 ADC 和 eADC 在癌组织和近端癌旁组织之间具有显著的统计学差异(调整后 P2)。非肝硬化组的平均 ADC 和 eADC 差异有统计学意义(调整后 P2,分别为 0.5、0.5 和 0.5)。在 b=600 s/mm2 条件下测量的平均 ADC 和 eADC 在癌组织、远端癌旁组织和远端癌肝组织之间的差异有统计学意义(调整后 P2)。肝硬化组的平均 ADC 和 eADC 在 b 值分别为 50、100、400、600 和 1 000 s/mm2 时,与近端癌旁组织和远端癌组织以及背景肝组织之间的差异无统计学意义(调整后 P>0.005),而在 b=100 s/mm2 时,与近端癌旁组织和远端癌组织之间的差异有统计学意义(调整后 P2,以及平均 ADC 和 eADC 值)。肝硬化组和非肝硬化组的远处癌旁组织、远处癌组织和背景肝组织的平均ADC和eADC值差异无统计学意义(调整后P>0.005)。平均 ADC 和 eADC 在区分五种组织类型(癌和近端癌旁组织、远端癌旁组织、远端癌组织和背景肝组织)方面的效果显示,肝硬化组在 b=50 s/mm2 时诊断效果最好。平均 ADC 的 ROC 曲线下面积(AUC)分别为 0.815、0.828、0.855 和 0.855,平均 eADC 的 ROC 曲线下面积(AUC)分别为 0.815、0.830、0.856 和 0.855。在 b=100 s/mm2 时,非肝硬化组的诊断效果最好,平均 ADC AUC 分别为 0.787、0.823、0.841 和 0.821,平均 eADC AUC 分别为 0.836、0.874、0.893 和 0.873。非肝硬化组的平均 ADC AUC 分别为 0.605 和 0.604,用于区分近端癌旁组织和远端癌肝组织,以及近端癌旁组织和背景肝组织(b=50 s/mm2)。在 b=100 s/mm2 时,用于区分近端癌旁组织和远端肝组织的 ADC 和 eADC 的平均 AUC 分别为 0.619 和 0.620。结论多个 b 值测量的平均 ADC 和 eADC 有助于区分肝硬化和非肝硬化患者的 HCC 与近端癌旁组织、远端癌旁组织、远端癌组织和背景肝组织,而 b=50 s/mm2 和 100 s/mm2 时的平均 ADC 和 eADC 则显示了非肝硬化患者近端癌旁组织与远端癌组织和背景肝组织之间的差异。
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来源期刊
中华肝脏病杂志
中华肝脏病杂志 Medicine-Medicine (all)
CiteScore
1.20
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0.00%
发文量
7574
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