基于拉伸指数非线性回归分析模型的肾脏肿瘤定量光谱CT评估
Quantitative spectral CT evaluation of kidney tumors with the stretched-exponential nonlinear regression analysis model.
作者信息
Yang Xiaotong, Sun Wenge, Huang Desheng, Li Hui, Zhao Yu, Li Peiling, Liu Yi
机构信息
Department of Radiology, The First Hospital of China Medical University, Shenyang, China.
Department of Radiology, Liaocheng People's Hospital, Liaocheng, China.
出版信息
Quant Imaging Med Surg. 2021 Feb;11(2):676-684. doi: 10.21037/qims-20-562.
BACKGROUND
This study aimed to use the stretched-exponential nonlinear regression analysis model to explore the value of the energy spectral curve in the differential diagnosis of clear cell renal cell carcinoma (ccRCC), minimal fat renal angiomyolipoma (RAML), and hypovascular renal cell carcinoma.
METHODS
Sixty-five cases with renal tumors were enrolled retrospectively who had undergone a preoperative multiphase spectral CT scan of the kidney in pre-enhance and double-phase enhanced scanning. The normalized iodine concentrations (NIC) of these lesions, normal renal cortex, and psoas major were measured and calculated. The spectral curves of these lesions and normal tissues were analyzed to calculate the stretched-exponential index (α) and b value with the stretched-exponential nonlinear regression analysis model (y=-b·X). The differences between α, b value, and NIC of these lesions and normal tissues in pre-enhance and two enhanced phases were compared using one-way ANOVA. The correlation between α, b value, and NIC was evaluated using the Pearson coefficient test, with significance assigned at the 5% level.
RESULTS
There was no significant difference in α value between the groups in pre-enhance scanning. In the Cortical phase (CP), there were no significant differences in NIC and α value between minimal fat RAML and hypovascular renal cell carcinoma, or between ccRCC and the normal renal cortex. However, in the nephrographic phase (NP), a significant difference in α value was found between minimal fat RAML and hypovascular renal cell carcinoma, but no difference in NIC between them. In NP, there were significant differences in NIC and α values between ccRCC and the normal renal cortex. In CP and NP, there were significant differences between the psoas major and other groups in all parameters. For b value, in pre-enhance scanning, there was a significant difference between the psoas major and other groups, and between ccRCC and the normal renal cortex. There was no significant difference between other groups. After enhancement, in CP and NP, significant differences were observed between the psoas major and other groups in b value, but no significant differences were observed between all renal tumors and the normal renal cortex. A linear correlation was found between α values and NIC in CP (r=0.780, P=0.00) and NP (r=0.693, P=0.00). The b values and NIC had a low correlation in CP, with no correlation in NP.
CONCLUSIONS
Quantitative spectral CT with the stretched-exponential nonlinear regression analysis model may enhance the differential diagnosis ability for renal tumors. Its clinical value remains to be further explored in other types of soft tissue lesions.
背景
本研究旨在使用拉伸指数非线性回归分析模型,探讨能谱曲线在透明细胞肾细胞癌(ccRCC)、少脂肪肾血管平滑肌脂肪瘤(RAML)和乏血供肾细胞癌鉴别诊断中的价值。
方法
回顾性纳入65例肾肿瘤患者,这些患者均接受了术前肾脏多期能谱CT扫描,包括平扫及双期增强扫描。测量并计算这些病灶、正常肾皮质及腰大肌的标准化碘浓度(NIC)。分析这些病灶及正常组织的能谱曲线,使用拉伸指数非线性回归分析模型(y = -b·X)计算拉伸指数(α)和b值。采用单因素方差分析比较这些病灶及正常组织在平扫及两个增强期的α、b值和NIC的差异。使用Pearson系数检验评估α、b值和NIC之间的相关性,以5%的水平作为显著性标准。
结果
平扫时各组间α值无显著差异。在皮质期(CP),少脂肪RAML与乏血供肾细胞癌之间、ccRCC与正常肾皮质之间的NIC和α值无显著差异。然而,在肾实质期(NP),少脂肪RAML与乏血供肾细胞癌之间α值存在显著差异,但NIC无差异。在NP期,ccRCC与正常肾皮质之间的NIC和α值存在显著差异。在CP期和NP期,腰大肌与其他组在所有参数上均存在显著差异。对于b值,平扫时腰大肌与其他组之间、ccRCC与正常肾皮质之间存在显著差异,其他组之间无显著差异。增强后,在CP期和NP期,腰大肌与其他组在b值上存在显著差异,但所有肾肿瘤与正常肾皮质之间无显著差异。在CP期(r = 0.780,P = 0.00)和NP期(r = 0.693,P = 0.00),α值与NIC之间存在线性相关性。CP期b值与NIC相关性较低,NP期无相关性。
结论
采用拉伸指数非线性回归分析模型的定量能谱CT可能提高肾肿瘤的鉴别诊断能力。其在其他类型软组织病变中的临床价值仍有待进一步探索。
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