Changes in the tumor oxygenation but not in the tumor volume and tumor vascularization reflect early response of breast cancer to neoadjuvant chemotherapy.

Mikhail V Pavlov, Anna P Bavrina, Vladimir I Plekhanov, German Yu Golubyatnikov, Anna G Orlova, Pavel V Subochev, Diana A Davydova, Ilya V Turchin, Anna V Maslennikova
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引用次数: 3

Abstract

Background: Breast cancer neoadjuvant chemotherapy (NACT) allows for assessing tumor sensitivity to systemic treatment, planning adjuvant treatment and follow-up. However, a sufficiently large number of patients fail to achieve the desired level of pathological tumor response while optimal early response assessment methods have not been established now. In our study, we simultaneously assessed the early chemotherapy-induced changes in the tumor volume by ultrasound (US), the tumor oxygenation by diffuse optical spectroscopy imaging (DOSI), and the state of the tumor vascular bed by Doppler US to elaborate the predictive criteria of breast tumor response to treatment.

Methods: A total of 133 patients with a confirmed diagnosis of invasive breast cancer stage II to III admitted to NACT following definitive breast surgery were enrolled, of those 103 were included in the final analysis. Tumor oxygenation by DOSI, tumor volume by US, and tumor vascularization by Doppler US were determined before the first and second cycle of NACT. After NACT completion, patients underwent surgery followed by pathological examination and assessment of the pathological tumor response. On the basis of these, data regression predictive models were created.

Results: We observed changes in all three parameters 3 weeks after the start of the treatment. However, a high predictive potential for early assessment of tumor sensitivity to NACT demonstrated only the level of oxygenation, ΔStO2, (ρ = 0.802, p ≤ 0.01). The regression model predicts the tumor response with a high probability of a correct conclusion (89.3%). The "Tumor volume" model and the "Vascularization index" model did not accurately predict the absence of a pathological tumor response to treatment (60.9% and 58.7%, respectively), while predicting a positive response to treatment was relatively better (78.9% and 75.4%, respectively).

Conclusions: Diffuse optical spectroscopy imaging appeared to be a robust tool for early predicting breast cancer response to chemotherapy. It may help identify patients who need additional molecular genetic study of the tumor in order to find the source of resistance to treatment, as well as to correct the treatment regimen.

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肿瘤氧合的变化而非肿瘤体积和肿瘤血管化的变化反映了乳腺癌对新辅助化疗的早期反应。
背景:乳腺癌新辅助化疗(NACT)可以评估肿瘤对全身治疗的敏感性,规划辅助治疗和随访。然而,有足够多的患者未能达到预期的病理肿瘤反应水平,而目前尚未建立最佳的早期反应评估方法。在我们的研究中,我们同时通过超声(US)评估早期化疗诱导的肿瘤体积变化,漫射光学成像(DOSI)评估肿瘤氧合,多普勒超声(Doppler US)评估肿瘤血管床状态,以阐述乳腺癌肿瘤对治疗反应的预测标准。方法:133例确诊为浸润性乳腺癌II至III期的乳腺癌患者在乳房手术后入住NACT,其中103例纳入最终分析。在第一和第二周期NACT前,用DOSI测定肿瘤氧合,用US测定肿瘤体积,用多普勒超声测定肿瘤血管化。NACT完成后,患者接受手术,随后进行病理检查和肿瘤病理反应评估。在此基础上,建立了数据回归预测模型。结果:我们观察到治疗开始3周后所有三个参数的变化。然而,早期评估肿瘤对NACT敏感性的高预测潜力仅显示氧合水平ΔStO2, (ρ = 0.802, p≤0.01)。回归模型预测肿瘤反应的正确率很高(89.3%)。“肿瘤体积”模型和“血管化指数”模型不能准确预测肿瘤对治疗无病理反应(分别为60.9%和58.7%),而预测肿瘤对治疗的积极反应相对较好(分别为78.9%和75.4%)。结论:漫射光谱学成像似乎是早期预测乳腺癌化疗反应的有力工具。它可能有助于确定需要对肿瘤进行额外分子遗传学研究的患者,以便找到对治疗产生耐药性的来源,并纠正治疗方案。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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