Abstract
Purpose Developed a preoperative prediction model based on multimodality imaging to evaluate the probability of inferior vena cava (IVC) vascular wall invasion due to tumor infiltration. Materials and Methods We retrospectively analyzed the clinical data of 110 patients with renal cell carcinoma (RCC) with level I-IV tumor thrombus who underwent radical nephrectomy and IVC thrombectomy between January 2014 and April 2019. The patients were categorized into two groups: 86 patients were used to establish the imaging model, and the data validation was conducted in 24 patients. We measured the imaging parameters and used logistic regression to evaluate the uni- and multivariable associations of the clinical and radiographic features of IVC resection and established an image prediction model to assess the probability of IVC vascular wall invasion. Results In all of the patients, 46.5% (40/86) had IVC vascular wall invasion. The residual IVC blood flow (OR 0.170 [0.047-0.611]; P = 0.007), maximum coronal IVC diameter in mm (OR 1.203 [1.065-1.360]; P = 0.003), and presence of bland thrombus (OR 3.216 [0.870-11.887]; P = 0.080) were independent risk factors of IVC vascular wall invasion. We predicted vascular wall invasion if the probability was >42% as calculated by: {Ln [Pre/(1 − pre)] = 0.185 × maximum cornal IVC diameter + 1.168 × bland thrombus–1.770 × residual IVC blood flow–5.857}. To predict IVC vascular wall invasion, a rate of 76/86 (88.4%) was consistent with the actual treatment, and in the validation patients, 21/26 (80.8%) was consistent with the actual treatment. Conclusions Our model of multimodal imaging associated with IVC vascular wall invasion may be used for preoperative evaluation and prediction of the probability of partial or segmental IVC resection.
Highlights
Renal cell carcinoma (RCC) has a propensity for vascular growth [1] extending into the renal veins or inferior vena cava (IVC) in approximately 4-10% of patients [2,3,4,5,6]
magnetic resonance imaging (MRI) and/or computed tomography (CT) radiographic imaging showed that compared to the patients with no vascular wall invasion, factors that predicted the probability of IVC wall invasion were as follows: those with residual IVC vascular wall invasion were significantly more likely to have distal bland thrombosis (P < 0:001), complete IVC occlusion at the renal vein ostium (RVo) (P < 0:001), and no residual blood flow (P < 0:001) and a significantly larger maximum AP IVC diameter 34.1 (29.2, 40.4) mm vs. 26.4 (22.1, 32.0) mm, P < 0:001; IVC AP diameter at the RVo 30.1 (25.6, 34.4) mm vs. 24.1 (22.3, 28.9) mm, P < 0:001; and a maximum coronal IVC diameter (36:3 ± 5:6) mm vs. (29:2 ± 4:8) mm, P < 0:001
In the final multivariable model (Table 3), three features were used to predict the probability of IVC wall invasion: the residual IVC blood flow, maximum coronal IVC diameter in mm, and presence of bland thrombus
Summary
Renal cell carcinoma (RCC) has a propensity for vascular growth [1] extending into the renal veins or inferior vena cava (IVC) in approximately 4-10% of patients [2,3,4,5,6]. Radical nephrectomy with thrombectomy may be a curative option [7,8,9,10]. Tumor invasion of the IVC wall is considered a risk factor for recurrence and poor prognosis in RCC. In order to achieve the purpose of radical resection of tumor, the invaded vascular wall needs to be removed [13]. It involves partial or segmental IVC resection, which requires vascular reconstruction using patch grafts or IVC resection and interruption.
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