Chemotherapy on Methylation Patterns in Breast Tumor Tissue Correlating With Clinical Response and Outcomes
NCT ID: NCT00698477
Last Updated: 2008-06-17
Study Results
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Basic Information
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UNKNOWN
OBSERVATIONAL
2007-10-31
Brief Summary
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1. To identify hypermethylated genes in paired pretreatment breast tumor tissue and plasma samples from locally advanced and metastatic breast cancer patients using a known gene panel which includes APC1, Cyclin D2, RARB, RASSF1A, Twist, Hin1 and GSTP1.
Rationale: We and others have determined the optimal panel of genes that are able to detect free DNA in plasma and serum. We will determine if the same panel of genes is effective for detecting tumor DNA in the plasma of locally advanced and metastatic breast cancer patients. Further, to determine if the methylation profile of the plasma DNA for these genes is the same or different from the primary tumor at presentation, we will analyze the primary tumor DNA from fresh frozen samples.
2. To identify methylation pattern changes in the same subset of patients' plasma samples at 24 hours after completion of cycle 1 of chemotherapy and within 24 hours before cycle 2.
Rationale: The optimal timing of sampling for methylation analysis that is reflective of the tumors response to chemotherapy is not known. How soon methylation changes are observed, whether they are high within 24 hours, as that tumor responds to chemotherapy, or whether changes can be observed only some time after one cycle of chemotherapy will be studied. (3) To also identify methylation pattern changes in breast tumor tissue after one cycle of chemotherapy.
Rationale: To look for a correlation with plasma methylation patterns
Secondary Objectives
(1) To correlate our observed patterns of methylation pre- and post-treatment with clinical parameters such as clinical and/or radiological response and patient outcome.
Detailed Description
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Our hypothesis is that DNA methylation pattern changes at baseline and early into a course of systemic therapy can predict disease response or progression as well as survival. In the long term, this could prove clinically useful in limiting exposure to ineffective regimens and allowing earlier identification of more effective systemic therapy.
Core biopsies of breast tumor tissue are taken at baseline and after cycle 1 of docetaxel/ketoconazole. Plasma samples are drawn at baseline, 24 hours after cycle 1 chemotherapy and 24 hours before cycle 2. Thirty patients' specimens (60 core biopsies and 90 plasma samples) will be utilized. Quantitative multiplex methylation-specific PCR will be used for analyses of several tumor suppressor genes including APC1, Cyclin D2, RARB, RASSF1A, Twist, Hin1 and GSTP1. From this data, we will identify a preliminary gene panel associated with breast cancer which undergoes the most changes in methylation following systemic therapy. Thirty paraffin-embedded healthy tissue samples from mastectomy specimens and blood samples from unaffected individuals will serve as normal controls.
This preliminary study can be used to determine the clinical utility of DNA methylation in breast tumor tissue and plasma as a predictive marker for response to chemotherapy and a prognostic marker for patient outcome. If a relationship is found, we can then further study if the change in methylation pattern has clinical utility in influencing therapeutic decision-making which may be further expanded to the adjuvant setting..
Conditions
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Eligibility Criteria
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Inclusion Criteria
1. Any female adult patient above 21
2. No current or past history of underlying malignancies
Exclusion Criteria
21 Years
FEMALE
Yes
Sponsors
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National University Hospital, Singapore
OTHER
Principal Investigators
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Sing Huang Tan, MBBS, MRCP
Role: PRINCIPAL_INVESTIGATOR
National University Hospital, Singapore
Locations
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National University Hospital
Singapore, , Singapore
Countries
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Central Contacts
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Facility Contacts
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Sing Huang Tan, MBBS, MRCP
Role: primary
References
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Fackler MJ, McVeigh M, Mehrotra J, Blum MA, Lange J, Lapides A, Garrett E, Argani P, Sukumar S. Quantitative multiplex methylation-specific PCR assay for the detection of promoter hypermethylation in multiple genes in breast cancer. Cancer Res. 2004 Jul 1;64(13):4442-52. doi: 10.1158/0008-5472.CAN-03-3341.
Swift-Scanlan T, Blackford A, Argani P, Sukumar S, Fackler MJ. Two-color quantitative multiplex methylation-specific PCR. Biotechniques. 2006 Feb;40(2):210-9. doi: 10.2144/000112097.
Other Identifiers
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BR04/19/07
Identifier Type: -
Identifier Source: org_study_id