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Spots Global Cancer Trial Database for Correlation Between EGFR Mutation Using cfDNAs and Circulating Tumor Cells in Patients With NSCLC

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Trial Identification

Brief Title: Correlation Between EGFR Mutation Using cfDNAs and Circulating Tumor Cells in Patients With NSCLC

Official Title: Correlation Between Epithelial Growth Factor Receptor(EGFR) Mutation Using cfDNA and CTCs in Patients With Non-Small Cell Lung Cancer

Study ID: NCT02422628

Conditions

Lung Cancer

Interventions

Study Description

Brief Summary: Correlation of epithelial growth factor receptor mutation in blood of lung cancer patient and clinical outcome.

Detailed Description: EGFR tyrosine kinase mutation is frequently seen in our NSCLC, especially adenocarcinoma.1 The epidermal growth factor receptor (EGFR) of receptor tyrosine kinases (TKs) regulate many developmental, metabolic and physiological processes. In tumor cells, the TK activity of EGFR may be dysregulated by several mechanisms, including EGFR gene mutation, increased gene copy number and EGFR protein overexpression.1 Improper activation of EGFR TK results in increased malignant cell survival, proliferation, invasion and metastasis. EGFR overexpression is observed in tumors from more than 60% of patients with metastatic non-small-cell lung cancer (NSCLC) and is correlated with poor prognosis.2 Treatment with the reversible EGFR TK inhibitors (TKIs), gefitinib and erlotinib, results in dramatic antitumor activity in a subset of patients with NSCLC. Sequencing of the EGFR gene revealed that a majority of tumors responding to EGFR TKIs harbored mutations in the TK domain of EGFR. For patients whose tumors exhibit EGFR mutations, the response rate to gefitinib and erlotinib is approximately 75%, suggesting that these mutations, at least in part, drive malignant transformation. However, the disease-free time to progression was still less than 1 year in most study.3-5 More than half of patients acquired resistant by new EGFR T790M resistance mutation. A second biopsy at the time of progression is becoming an issue. However, Only around 30% of NSCLC patients can receive gene testing to predict target therapy response because of the risk and difficulty in obtaining adequate tissues from the primary lung tumors by biopsy. Serial monitoring the emergence of resistant mutations is almost not possible. Recently, circulating free DNAs (cfDNAs) become a promising topic in cancer research. cfDNA can be used as a liquid biopsy, allowing repeated blood samples to be taken and changes in mutation status to be tracked throughout a cancer treatment, paving the way for a potential use in following up of treatment response, gauging prognosis, or monitoring of recurrence.6 It has been known for over a hundred years that disseminated tumor cells can be found in the circulation of patients with metastatic cancer and it has been hypothesized that these circulating tumor cells (CTCs) may represent cancer stem cells or a high metastatic potential cellular population.7 The major challenge since as few as one CTC may be found in the background of 105-106 peripheral blood mononuclear cells.8 CTCs are an attractive alternative to tumor tissue for biomarker analysis including EGFR mutation. CTCs can be obtained from a routine blood draw with minimal risk and inconvenience to the patient compared to a fresh biopsy. Another appealing facet of CTCs as a surrogate diagnostic tissue is the idea that CTCs could also constitute a "liquid biopsy" like cfDNA and provide real-time information about the patient's current disease state.9,10 Analysis of biomarker status in CTCs collected prior to treatment could potentially be used to select an appropriate targeted therapy, while repeated longitudinal sampling during treatment could be used to detect appearance of resistance markers and potentially enable switching to a more appropriate therapy. A side-by-side comparison of EGFR mutation analysis in DNA extracted from circulating tumour cells (CTCs) versus cfDNA from plasma suggested that mutational analysis of CTCs captured on the CellSearch platform was low by comparison with the frequency of EGFR mutations identified in plasma.11 However, this limitation might be related to the CellSearch platform used,11 because other CTC platforms (eg, CTC biochip) have greater sensitivity and specificity for EGFR mutational analyses.12 New technologies, such as next generation sequencing and digital PCR (Figure 1), which can permit more precise quantification of cfDNA and also the CTCs, offer opportunities to design more appropriate treatments. Longitudinal analyses of EGFR and other mutations in cfDNA and CTCs might well prove to be an ideal non-invasive technique to be included in the oncologist's repertoire at the time of assigning or monitoring treatment in patients with NSCLC. In this study, the investigators will collect blood from NSCLC patients who harbor EGFR mutation in biopsy specimens. Buffy coat and serum/plasma will be separated and DNA will be extracted. The investigators will check the EGFR mutation by next generation sequencing or digital PCR. Blood from volunteers without lung cancer patient will be also collected as standard. Serial follow-up the change of EGFR mutation every month in cancer patient will be correlated with clinical course. The Investigators hope the detection of EGFR mutation and serial change in the patient blood could offer as a marker for early diagnosis and early relapse.

Eligibility

Minimum Age: 20 Years

Eligible Ages: ADULT, OLDER_ADULT

Sex: ALL

Healthy Volunteers: Yes

Locations

National Taiwan University Hospital, Taipei city, , Taiwan

Contact Details

Name: Chao-Chi Ho

Affiliation: National Taiwan University Hospital No. 7, Chung-Shan South Road, Taipei, Taiwan

Role: PRINCIPAL_INVESTIGATOR

Useful links and downloads for this trial

Clinicaltrials.gov

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