- ICH GCP
- US Clinical Trials Registry
- Clinical Trial NCT01957332
IMaging PAtients for Cancer Drug selecTion - Metastatic Breast Cancer (IMPACT-MBC)
Towards Patient Tailored Cancer Treatment Supported by Molecular Imaging IMPACT: IMaging PAtients for Cancer Drug selecTion - Metastatic Breast Cancer
Study Overview
Status
Conditions
Intervention / Treatment
Detailed Description
Patient selection for hormone therapy and anti-HER2 therapy is based on the presence of their respective targets, the ER and HER2, as currently assessed on tumor tissue by molecular biological techniques. In primary breast cancer, both ER and HER2 are powerful predictors for response to ER or HER2 targeting treatment, driving treatment decisions. If both receptors are absent, targeted hormone or anti-HER2 therapy will not be administered and chemotherapy is the only therapeutic option left. MBC management in oncology practice is often based on ER and HER2 status of the primary tumor. However, a biopsy of a metastasis is considered part of the standard work up for MBC, in view of the potential conversion of ER and HER2 during the course of the disease. In contrast to primary breast cancer, no prospective studies have been done to evaluate the impact of (converted) receptor status on metastases, on prognosis and prediction of response to subsequent targeted therapy. Although receptor conversion in MBC is a well known phenomenon, clinicians may refrain from having a biopsy taken, for instance when it would require a highly invasive procedure. Even if it is feasible, the biopsy will only reflect ER and HER2 status of a single lesion, and disregard the potential heterogeneity of expression of ER and HER2 status between and within metastatic lesions.
Therefore, the current standard work up of MBC is not adequate enough or too invasive in a relevant proportion of MBC patients to drive treatment decisions. As a result, these patients incorrectly receive an ineffective treatment with potentially toxic effects. Meanwhile, an effective treatment for these patients may be delayed or even denied (such as chemotherapy or anti-HER2 based therapy) because of inadequate assessment of ER and HER2 status. This shows the need of obtaining up-to-date whole body information with information of characteristics of the different metastases within a patient. Non-invasive 18F-fluoroestradiol(18F-FES)-PET and Zirconium-89(89Zr)-trastuzumab-PET scan techniques are able to visualize the ER and HER2 in metastatic lesions throughout the whole body, and may therefore - in a patient friendly way- provide comprehensive information (i.e. of the primary tumor and various metastatic lesions) on ER and HER2 status. Furthermore, optimal selection of the right treatment for the right patient may not only reduce unnecessary toxicity, but also health care costs. Although various studies have already indicated the clinical utility of 18F-FES-PET and 89Zr-trastuzumab-PET, no prospective data are yet available assessing their predictive value (14-19). Therefore, it is clear that these new techniques, and also the aspects of cost-effectiveness, need to be prospectively evaluated within the framework of established assessments (including metastases biopsies and FDG-PET), to ensure their implementation in standard care.
Study Type
Enrollment (Actual)
Phase
- Not Applicable
Contacts and Locations
Study Locations
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Amsterdam, Netherlands
- VU University Medical Center
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Groningen, Netherlands, 9700RB
- University Medical Center
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Nijmegen, Netherlands
- University Medical Center St. Radboud
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Participation Criteria
Eligibility Criteria
Ages Eligible for Study
Accepts Healthy Volunteers
Description
Inclusion Criteria:
- Patient with first presentation of MBC, regardless of ER and HER2 status of the primary tumor, who is eligible for first-line systemic therapy.
Patient with non-rapidly progressive MBC, not requiring urgent initiation of chemotherapy, based on clinician's evaluation which may include:
- no recent (< 2 weeks prior to screening visit) significant worsening of MBC related signs and symptoms according to patient history.
- in case of liver metastases: no significant increase in liver function tests alanine aminotransferase aspartate transaminase (ASAT) and alanine transaminase (ALAT) in 2 weeks prior to screening visit. (Significant increase of liver function test is defined as 50% increase of absolute amount of ASAT/ALAT.)
- Patients in whom standard imaging work-up of MBC was recently (≤ 28 days) performed. Standard imaging must include: CT chest/abdomen, 18F-FDG-PET and bone scintigraphy.
- Patient with measurable or clinically evaluable (bone only) disease on recent standard work up of MBC are eligible.
- Metastatic lesion(s) of which a histological biopsy can safely be obtained according to standard clinical care procedures.
- Primary tumor blocks available for confirmatory central laboratory ER/HER2 testing in the UMCG. If available a snap frozen sample of the primary tumor will also be centralized in the University Medical Center Groningen (UMCG).
- WHO performance status 0-2.
- Patient is able to undergo PET imaging procedures.
- Age >18 years of age, willing and able to comply with the protocol as judged by the investigator.
- Signed written informed consent.
Exclusion Criteria:
- Contraindications for systemic treatment (as will be assigned based on biopsy and experimental scan results), either chemotherapy, hormonal therapy or anti-HER2 therapy, based on clinical judgment of treating medical oncologist and patient history.
- Pregnant or lactating women.
- Prior allergic reaction to immunoglobulins or immunoglobulin allergy.
- Inability to comply with study procedures.
- Rapidly progressive (visceral) disease requiring rapid initiation of chemotherapy.
Study Plan
How is the study designed?
Design Details
- Primary Purpose: Diagnostic
- Allocation: N/A
- Interventional Model: Single Group Assignment
- Masking: None (Open Label)
Arms and Interventions
Participant Group / Arm |
Intervention / Treatment |
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Experimental: Molecular imaging
All patients receive 18F-FES (~200MBq) injection followed by a FES-PET.
On the same day or the day after 18F-FES injection 89Zr-trastuzumab (~37 MBq) will be injected.
The HER2-PET will be performed 4 days after tracerinjection.
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On the day of FES-injection&scan or the day after FES-injection, 89Zr-trastuzumab (~37 MBq) will be injected.
The HER2-PET will be performed 4 days after tracerinjection.
Other Names:
All patients receive 18F-FES (~200MBq) injection followed by a FES-PET.
Other Names:
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What is the study measuring?
Primary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Clinical utility
Time Frame: 3-5 years (End of study)
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The primary objective is to evaluate the clinical utility of experimental PET scans, in the setting of MBC at first presentation.
These scans include Fluor-18-16 alpha-fluoroestradiol(18F-FES)-PET and Zirconium-89(89Zr)-trastuzumab-PET scans at baseline, and 18F-2-fluoro-2-deoxy-D-glucose fluorodeoxyglucose(18F-FDG)-PET for early response measurement.
Clinical utility in this setting might be defined as improved personalized medicine, when the PET scans show improved predictive value for therapy response in comparison or in addition to currently available clinical information including a biopsy.
But also when the PET scans would have the same predictive value for therapy response compared to a biopsy, they would have clinical utility because they are less invasive and more patient friendly.
The inherent focus (the primary endpoint) of this study is therefore therapy response.
Therapy response will be related to the novel PET scans, both per patient and per metastasis analysis.
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3-5 years (End of study)
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Secondary Outcome Measures
Outcome Measure |
Measure Description |
Time Frame |
---|---|---|
Correlation PET scans & progression-free survival (PFS)
Time Frame: 3-5 years (End of study)
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To relate experimental PET scans (baseline 18F-FES-PET and 89Zr-trastuzumab-PET; 2 week 18F-FDG-PET scan) to (progression free) survival.
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3-5 years (End of study)
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Correlation of DNA and RNA analyses to imaging, molecular analyses and follow-up data
Time Frame: 3-5 years (End of study)
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To relate DNA sequencing and RNA expression analysis of the baseline biopsy and venous blood samples (only DNA sequencing; baseline) to all other molecular, imaging (standard and experimental), and clinical follow-up data (treatment response and survival).
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3-5 years (End of study)
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Correlation miRNA analysis to molecular analyses, imaging & clincal follow-up data
Time Frame: 3-5 years (End of study)
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To relate miRNA analysis of the baseline biopsy and a venous blood sample at baseline to all other molecular, imaging and clinical follow-up data.
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3-5 years (End of study)
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Correlation of peptide profiling to all other molecular, imaging and clinical follow-up data
Time Frame: 3-5 years (EoS)
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To relate peptide profiling of new baseline biopsy and venous blood samples (baseline and day of standard response assessment) to all other molecular, imaging and clinical follow-up data.
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3-5 years (EoS)
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Correlation of standard pathology results to all molecular, imaging and clinical follow up data.
Time Frame: 3-5 years (EoS)
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To assess molecular changes (including pathological examination) of primary biopsy, new baseline biopsy and (optional) biopsy taken during treatment and relate to all molecular, imaging and clinical follow up data.
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3-5 years (EoS)
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To compare CTC enrichment approaches and correlation of CTC analysis to all molecular, imaging and clinical follow-up data
Time Frame: 3-5 years (EoS)
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To relate CTC count and ER/HER2 status of CTCs at baseline to all molecular, imaging and clinical follow-up data.
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3-5 years (EoS)
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Correlation circulating tumor DNA analysis to all other molecular, imaging and clinical follow-up data
Time Frame: 3-5 years (EoS)
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To relate circulating tumor DNA analysis (baseline, day of early 18F-FDG-PET imaging and day of standard response assessment) to all other molecular, imaging and clinical follow-up data.
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3-5 years (EoS)
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Cost-effectiveness of molecular imaging
Time Frame: 3-5 years (EoS)
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To assess cost-effectiveness of experimental PET scans.
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3-5 years (EoS)
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QoL
Time Frame: 3-5 years (EoS)
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To assess impact of baseline biopsy procedure and baseline molecular imaging, as well as quality of Life (QoL) before and during therapy.
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3-5 years (EoS)
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Collaborators and Investigators
Investigators
- Principal Investigator: Carolien Schröder, MD, PhD, UMCG
- Principal Investigator: Willemien Menke, MD, PhD, VUMC
- Principal Investigator: Winette vd Graaf, MD, PhD, RUMC
Publications and helpful links
Study record dates
Study Major Dates
Study Start (Actual)
Primary Completion (Estimated)
Study Completion (Estimated)
Study Registration Dates
First Submitted
First Submitted That Met QC Criteria
First Posted (Estimated)
Study Record Updates
Last Update Posted (Actual)
Last Update Submitted That Met QC Criteria
Last Verified
More Information
Terms related to this study
Keywords
Additional Relevant MeSH Terms
Other Study ID Numbers
- IMPACT MBC
This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.
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