CT灌注作为一种影像生物标志物在监测软组织肉瘤新辅助贝伐单抗和放疗反应中的应用:与肿瘤形态、循环和肿瘤生物标志物以及基因表达的比较
CT perfusion as an imaging biomarker in monitoring response to neoadjuvant bevacizumab and radiation in soft-tissue sarcomas: comparison with tumor morphology, circulating and tumor biomarkers, and gene expression.
作者信息
Kambadakone Avinash, Yoon Sam S, Kim Tae-Min, Karl Daniel L, Duda Dan G, DeLaney Thomas F, Sahani Dushyant V
机构信息
1 Division of Abdominal Imaging and Intervention, Department of Radiology, Massachusetts General Hospital, Harvard Medical School, White 270, 55 Fruit St, Boston, MA 02114.
出版信息
AJR Am J Roentgenol. 2015 Jan;204(1):W11-8. doi: 10.2214/AJR.13.12412.
OBJECTIVE
The purpose of this study was to evaluate the role of CT perfusion in monitoring response to neoadjuvant antiangiogenic and radiation therapy in resectable soft-tissue sarcomas and correlate the findings with tumor size, circulating and tumor biomarkers, and gene expression.
SUBJECTS AND METHODS
This phase II clinical trial included 20 patients (13 men and 7 women; mean age, 55 years) with soft-tissue sarcomas who were undergoing treatment with the antiangiogenic drug bevacizumab followed by bevacizumab, radiation, and surgical resection. The patients underwent CT perfusion and diagnostic contrast-enhanced CT at baseline, at 2 weeks after bevacizumab therapy, and after completion of bevacizumab and radiation therapy. Multiple CT perfusion parameters (blood flow, blood volume, mean transit time, and permeability) were correlated with tumor size, circulating and tumor biomarkers, and gene expression.
RESULTS
Two weeks after bevacizumab therapy, there was substantial fall in blood volume (31.9% reduction, p = 0.01) with more pronounced reduction in blood flow, blood volume, and permeability after treatment completion (53-64% reduction in blood flow, blood volume, and permeability; p = 0.001), whereas tumor size showed no significant change (p = 0.34). Tumors with higher baseline blood volume and lower baseline tumor size showed superior response to bevacizumab and radiation (p = 0.05). There was also an increase in median plasma vascular endothelial growth factor and placental-derived growth factor concentration after bevacizumab therapy paralleled by a decrease in tumor perfusion depicted by CT perfusion, although this was not statistically significant (p = 0.4). The baseline tumor microvessel density (MVD) correlated with blood flow (p = 0.04). At least 20 different genes were differentially expressed in tumors with higher and lower baseline perfusion.
CONCLUSION
CT perfusion is more sensitive than tumor size for monitoring early and late response to bevacizumab and radiation therapy. CT perfusion parameters correlate with MVD, and the gene expression levels of baseline tumors could potentially predict treatment response.
目的
本研究旨在评估CT灌注成像在监测可切除软组织肉瘤新辅助抗血管生成及放射治疗反应中的作用,并将研究结果与肿瘤大小、循环及肿瘤生物标志物以及基因表达进行关联。
受试者与方法
这项II期临床试验纳入了20例软组织肉瘤患者(13例男性和7例女性;平均年龄55岁),这些患者接受抗血管生成药物贝伐单抗治疗,随后进行贝伐单抗、放射治疗及手术切除。患者在基线期、贝伐单抗治疗2周后以及贝伐单抗和放射治疗完成后接受CT灌注成像及诊断性增强CT检查。多个CT灌注参数(血流量、血容量、平均通过时间和通透性)与肿瘤大小、循环及肿瘤生物标志物以及基因表达进行关联。
结果
贝伐单抗治疗2周后,血容量显著下降(降低31.9%,p = 0.01),治疗完成后血流量、血容量和通透性下降更为明显(血流量、血容量和通透性降低53 - 64%;p = 0.001),而肿瘤大小无显著变化(p = 0.34)。基线血容量较高且基线肿瘤较小的肿瘤对贝伐单抗和放射治疗反应更佳(p = 0.05)。贝伐单抗治疗后,血浆血管内皮生长因子和胎盘衍生生长因子浓度中位数增加,同时CT灌注成像显示肿瘤灌注减少,尽管差异无统计学意义(p = 0.4)。基线肿瘤微血管密度(MVD)与血流量相关(p = 0.04)。至少20种不同基因在基线灌注较高和较低的肿瘤中差异表达。
结论
CT灌注成像在监测对贝伐单抗和放射治疗的早期及晚期反应方面比肿瘤大小更敏感。CT灌注参数与MVD相关,基线肿瘤的基因表达水平可能预测治疗反应。
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