使用正电子发射断层扫描技术对肺癌患者中 [(11)C]多西他赛动力学进行绝对定量。

Absolute quantification of [(11)C]docetaxel kinetics in lung cancer patients using positron emission tomography.

机构信息

Department of Nuclear Medicine & PET Research, VU University Medical Center, Amsterdam, The Netherlands.

出版信息

Clin Cancer Res. 2011 Jul 15;17(14):4814-24. doi: 10.1158/1078-0432.CCR-10-2933. Epub 2011 Jul 12.

DOI:10.1158/1078-0432.CCR-10-2933

PMID:21750197

Abstract

PURPOSE

Tumor resistance to docetaxel may be associated with reduced drug concentrations in tumor tissue. Positron emission tomography (PET) allows for quantification of radiolabeled docetaxel ([(11)C]docetaxel) kinetics and might be useful for predicting response to therapy. The primary objective was to evaluate the feasibility of quantitative [(11)C]docetaxel PET scans in lung cancer patients. The secondary objective was to investigate whether [(11)C]docetaxel kinetics were associated with tumor perfusion, tumor size, and dexamethasone administration.

EXPERIMENTAL DESIGN

Thirty-four lung cancer patients underwent dynamic PET-computed tomography (CT) scans using [(11)C]docetaxel. Blood flow was measured using oxygen-15 labeled water. The first 24 patients were premedicated with dexamethasone. For quantification of [(11)C]docetaxel kinetics, the optimal tracer kinetic model was developed and a noninvasive procedure was validated.

RESULTS

Reproducible quantification of [(11)C]docetaxel kinetics in tumors was possible using a noninvasive approach (image derived input function). Thirty-two lesions (size ≥4 cm(3)) were identified, having a variable net influx rate of [(11)C]docetaxel (range, 0.0023-0.0229 mL·cm(-3)·min(-1)). [(11)C]docetaxel uptake was highly related to tumor perfusion (Spearman's ρ = 0.815;P < 0.001), but not to tumor size (Spearman's ρ = -0.140; P = 0.446). Patients pretreated with dexamethasone showed lower [(11)C]docetaxel uptake in tumors (P = 0.013). Finally, in a subgroup of patients who subsequently received docetaxel therapy, relative high [(11)C]docetaxel uptake was related with improved tumor response.

CONCLUSIONS

Quantification of [(11)C]docetaxel kinetics in lung cancer was feasible in a clinical setting. Variable [(11)C]docetaxel kinetics in tumors may reflect differential sensitivity to docetaxel therapy. Our findings warrant further studies investigating the predictive value of [(11)C]docetaxel uptake and the effects of comedication on [(11)C]docetaxel kinetics in tumors.

摘要

目的

肿瘤对多西紫杉醇的耐药性可能与肿瘤组织中药物浓度降低有关。正电子发射断层扫描（PET）允许对放射性标记的多西紫杉醇（[（11）C]多西紫杉醇）动力学进行定量，并可能有助于预测治疗反应。主要目的是评估肺癌患者定量[（11）C]多西紫杉醇 PET 扫描的可行性。次要目的是研究[（11）C]多西紫杉醇动力学是否与肿瘤灌注、肿瘤大小和地塞米松给药有关。

实验设计

34 名肺癌患者接受了[（11）C]多西紫杉醇的动态 PET-计算机断层扫描（CT）扫描。使用氧-15 标记的水测量血流。前 24 名患者接受了地塞米松预处理。为了定量[（11）C]多西紫杉醇动力学，开发了最佳示踪剂动力学模型并验证了一种非侵入性方法。

结果

使用非侵入性方法（图像衍生输入函数）可以对[（11）C]多西紫杉醇动力学进行可重复的定量（大小≥4 cm3）。确定了 32 个病变，其[（11）C]多西紫杉醇的净流入率不同（范围为 0.0023-0.0229 mL·cm-3·min-1）。[（11）C]多西紫杉醇摄取与肿瘤灌注高度相关（Spearman's ρ=0.815；P<0.001），但与肿瘤大小无关（Spearman's ρ=-0.140；P=0.446）。接受地塞米松预处理的患者肿瘤中[（11）C]多西紫杉醇摄取量较低（P=0.013）。最后，在随后接受多西紫杉醇治疗的患者亚组中，相对高的[（11）C]多西紫杉醇摄取与肿瘤反应改善有关。

结论

在临床环境中，肺癌[（11）C]多西紫杉醇动力学的定量是可行的。肿瘤中[（11）C]多西紫杉醇动力学的变化可能反映了对多西紫杉醇治疗的不同敏感性。我们的研究结果需要进一步研究[（11）C]多西紫杉醇摄取的预测价值以及联合用药对地塞米松在肿瘤中[（11）C]多西紫杉醇动力学的影响。

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使用正电子发射断层扫描技术对肺癌患者中 [(11)C]多西他赛动力学进行绝对定量。

Absolute quantification of [(11)C]docetaxel kinetics in lung cancer patients using positron emission tomography.

机构信息

出版信息

PURPOSE

EXPERIMENTAL DESIGN

RESULTS

CONCLUSIONS

目的

实验设计

结果

结论

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