Multimodality Breast Imaging for the Assessment of Tumor Response to Neoadjuvant Chemotherapy in Triple Negative Breast Cancer Patients
概览
- 阶段
- 早期 1 期
- 干预措施
- Technetium Tc-99m Sestamibi
- 疾病 / 适应症
- Estrogen Receptor Negative
- 发起方
- M.D. Anderson Cancer Center
- 入组人数
- 96
- 试验地点
- 11
- 主要终点
- Percent change in volume of index tumors and estimated area under receiver operating characteristic (ROC) curves assessed by digital mammogram, ultrasound, dynamic contrast enhanced molecular resonance imaging (DCE-MRI) and molecular breast imaging (MBI)
- 状态
- 进行中(未招募)
- 最后更新
- 11天前
概览
简要总结
This early phase I trial studies how well dynamic contrast enhanced molecular resonance imaging (DCE-MRI) and technetium-Tc99m sestamibi molecular breast imaging (MBI) work in assessing tumor response to chemotherapy in patients with triple negative breast cancer (TNBC) who are undergoing chemotherapy. Investigational imaging scans such as MBI and DCE-MRI may help researchers predict which patients may respond to treatment.
详细描述
PRIMARY OBJECTIVES: I. To determine the predictive value of advanced imaging modalities Tc99m sestamibi (technetium Tc-99m sestamibi) molecular breast imaging (MBI) and dynamic contrast enhanced (DCE) magnetic resonance imaging (MRI) for neoadjuvant chemotherapy (NAC) response in triple negative breast cancer (TNBC). SECONDARY OBJECTIVES: I. To evaluate and compare the ability all imaging modalities including standard of care digital mammogram (DM) and ultrasound (US) as well as novel modalities DCE-MRI and MBI to assess and predict response to neoadjuvant chemotherapy (NAC) in patients with triple negative breast cancer (TNBC). EXPLORATORY OBJECTIVES: I. To determine effect of molecular subtype of TNBC on diagnostic performance of different types of imaging modalities in predicting treatment response. II. To determine the Utility of Dynamic Tc99m sestamibi MBI and DCE-MRI together with molecular profiling to identify a subgroup of chemoresistant TNBC patients. OUTLINE: Patients undergo DCE-MRI over 45-60 minutes. Patients receive technetium Tc-99m sestamibi via injection, and after 5 minutes patients undergo MBI scan over 1 hour. Both DCE-MRI and MBI are performed at the time of enrollment, at the end of anthracycline therapy, and at the conclusion of NAC before surgery. All patients also undergo standard of care imaging with DM and US (at the same time points if the treating doctor chooses to do so).
研究者
入排标准
入选标准
- •The patient has proven TNBC, defined by standard pathologic assays as negative for estrogen receptor (ER) and progesterone receptor (PR) (\< 10% tumor staining) and negative for human epidermal growth factor 2 (HER2) (immunohistochemistry \[IHC\] score \< 3, gene copy number not amplified)
- •TNBC patients who are previously untreated and enrolled in the prospective Institutional Review Board (IRB) approved clinical trial: 2014-0185
- •Patients who are able to understand and give consent to participating in the study
排除标准
- •Is pregnant (confirmed by the patient as imaging clinic standard of care) or nursing mother
- •Has lesions involving chest wall
- •Has known allergy to Tc99m sestamibi
- •Has known contraindications to MRI
- •Has contraindication to MRI contrast
研究组 & 干预措施
Diagnostic (DCE-MRI, MBI)
Patients undergo DCE-MRI over 45-60 minutes. Patients receive technetium Tc-99m sestamibi via injection, and after 5 minutes patients undergo MBI scan over 1 hour. Both DCE-MRI and MBI are performed at the time of enrollment, at the end of anthracycline therapy, and at the conclusion of NAC before surgery. All patients also undergo standard of care imaging with DM and US (at the same time points if the treating doctor chooses to do so).
干预措施: Technetium Tc-99m Sestamibi
Diagnostic (DCE-MRI, MBI)
Patients undergo DCE-MRI over 45-60 minutes. Patients receive technetium Tc-99m sestamibi via injection, and after 5 minutes patients undergo MBI scan over 1 hour. Both DCE-MRI and MBI are performed at the time of enrollment, at the end of anthracycline therapy, and at the conclusion of NAC before surgery. All patients also undergo standard of care imaging with DM and US (at the same time points if the treating doctor chooses to do so).
干预措施: Dynamic Contrast-Enhanced Magnetic Resonance Imaging
Diagnostic (DCE-MRI, MBI)
Patients undergo DCE-MRI over 45-60 minutes. Patients receive technetium Tc-99m sestamibi via injection, and after 5 minutes patients undergo MBI scan over 1 hour. Both DCE-MRI and MBI are performed at the time of enrollment, at the end of anthracycline therapy, and at the conclusion of NAC before surgery. All patients also undergo standard of care imaging with DM and US (at the same time points if the treating doctor chooses to do so).
干预措施: Laboratory Biomarker Analysis
Diagnostic (DCE-MRI, MBI)
Patients undergo DCE-MRI over 45-60 minutes. Patients receive technetium Tc-99m sestamibi via injection, and after 5 minutes patients undergo MBI scan over 1 hour. Both DCE-MRI and MBI are performed at the time of enrollment, at the end of anthracycline therapy, and at the conclusion of NAC before surgery. All patients also undergo standard of care imaging with DM and US (at the same time points if the treating doctor chooses to do so).
干预措施: Scintimammography
结局指标
主要结局
Percent change in volume of index tumors and estimated area under receiver operating characteristic (ROC) curves assessed by digital mammogram, ultrasound, dynamic contrast enhanced molecular resonance imaging (DCE-MRI) and molecular breast imaging (MBI)
时间窗: Up to 4 years
The ability to assess and predict response will be compared among the imaging modalities and with standard pathological evaluation. These volume changes will be correlated with residual cancer burden (RCB) status after surgery and will be used to classify patients into predicted responder or non-responder categories. Predictive accuracies among the imaging modalities will be compared using paired ROC curve analyses.
Percent change in tumor volume assessed by dynamic Tc99m-sestamibi MBI
时间窗: up to 6 months
The index tumor will be measured on both cranial-caudal (CC) and medio-lateral oblique (MLO) views and 3 dimension will be recorded. The percentage change in volume at time points 2 and 3 relative to baseline imaging (time point 1) will be calculated. Data acquisition and image processing algorithms will be developed from having conjugate views of the breast in the MBI examination. Appropriate methods to correct the image from loss of contrast due to scatter and loss of signal from photon attenuation as it transits breast tissue will be explored and implemented. Will investigate the correlations of absolute and relative values of baseline standardized uptake value (SUVb) with pathological tumor response.
Tumor response assessed by pathological examination
时间窗: Up to 4 years
Correlations of pathological response with absolute and relative values of MBI SUVb will be investigated. The longest dimension of the residual tumor will be measured. If only foci of disease are seen the longest dimension of tumor cell distribution will be measured. The M D Anderson Cancer Center (MDACC) Residual Cancer Burden Calculator will be used to categorize cancer burden: RCB-0 (no residual disease in breast or in lymph nodes), RCB-1 (minimal residual disease), RCB-2 (moderate residual disease), or RCB-3 (extensive residual disease).