Official Title
Clinical Relevance of Next-generation Sequencing Analysis for High-purity Circulating Tumor Cells From Cancer Patients With Disruptive Gene Mutation(s)
Brief Title
Clinical Relevance of NGS Analysis for High-purity CTC From Cancer Patients With Disruptive Gene Mutation(s)
Protocol ID
NCT03002350
Lead Sponsor
Chang Gung Memorial Hospital
Brief Summary
Distant metastasis of cancer remains the major cause of cancer death. One of the evidence
is that some rare cells shed from primary tumor exist in the circulation of cancer
patients, which has been proven to be related to cancer relapse and distant metastasis.
The number of circulating tumor cells (CTCs) or the expression status of specific
marker(s) on them also correlated with the disease prognosis and treatment effects, which
might change the decision of treatments. In recent years, as specific disruptive genes
were discovered, such as epidermal growth factor receptor (EGFR) in non-small cell lung
cancer,Kirsten rat sarcoma (KRAS) in colorectal cancer, the response rate to treatment,
disease control and survival have been much improved. However, the molecular information
obtained from cancer tissue depends on repeated biopsies, which is very risky and
invasive to cancer patients. By means of the advances of CTCs sampling technique with
genetic analysis, repeated follow-up for specific gene profiles is possible. However, the
protocol has not been well-established and mature, even the correlation between primary
cancer tissue and CTCs remains unknown. To tackle the problems above, the aims of the
project is to isolate high-purity CTCs by the optically induced dielectrophoresis
(ODEP)-based device or other cell sorting techniques and transfer to next-generation
sequencing (NGS) analysis for specific disruptive genes. In the first year of the
project, the investigator will testify and stabilize the platform utilizing healthy
donors' blood and cancer cell lines and adjust the detailed experiment conditions. In the
following year, the investigator will enroll newly diagnosed metastatic cancer patients
with the disruptive gene mutation(s) and follow up the events under gene-based therapy.
Comparison of NGS information between cancer tissue and CTCs will be also made as one of
the major endpoints. In brief, the investigator expect the study could establish a
practical method to get genetic information, to reduce the risk of re-biopsy and to
achieve the ultimate goal of precision medicine.
Detailed Description
(A) Establish a High-purity isolation of CTCs to NGS platform within one year
(B) Design a Prospective trial (CTCNGS01 at www.clinicaltrials.gov) utilizing the
developed technique to elucidate the baseline CTC-NGS information to cancer tissue NGS.
Enrollment Count
40 participants
Eligibility Criteria
Inclusion Criteria:
I. Age at diagnosis ≥ 20 years, II. Can fully understand the purpose of the study,
pros/cons of entering the trial with clear and free mind III. With acceptable laboratory
data for receiving anti-cancer therapy, adjusted by clinicians.
IV. Accept all the protocol procedures, including blood sampling and cancer tissue
retrieve.
Exclusion Criteria:
I. Refuse to any of study protocol or procedure(s) at any time before or during the
trial.
II. Patients without actionable gene alteration or mutation(s) in tissue at screening
phase III. Patients who cannot tolerate anti-cancer therapy for at least 2 months should
be withdrawn IV. Patients who cannot cooperate the imaging study for response evaluation
of anti-cancer therapy V. Patients' tissue is too small to retrieve for NGS analysis. VI.
Difficult blood sampling. VII. Clinician's judgement.
Filters
Recurrence
Metastasis
Death
UNKNOWN
ADULT
OLDER_ADULT