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SERS Sensor Based on CHA Reaction for EGFR Mutation Typing in Advanced Lung Cancer

NCT ID: NCT06772376

Last Updated: 2025-03-31

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

NOT_YET_RECRUITING

Total Enrollment

400 participants

Study Classification

OBSERVATIONAL

Study Start Date

2026-05-01

Study Completion Date

2026-06-01

Brief Summary

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Summary:This study is a prospective, multicenter clinical study. In previous studies, we successfully constructed a CHA reaction-mediated self-calibrated SERS biosensor for the detection of EGFR mutation typing (Del-19, T790M, L858R) in lung cancer patients, and verified that the accuracy, sensitivity, and specificity of the SERS biosensor exceeded 95% in a small sample of 32 patients. In order to obtain the highest level of clinical evidence and truly achieve clinical transformation, this prospective, multicenter clinical study aims to verify the analytical efficiency of the SERS biosensor for EGFR mutation typing in patients with advanced lung cancer.

Purposeļ¼šThis prospective, multicenter clinical study aims to verify the analytical efficacy of the previously constructed CHA reaction-mediated self-calibrated SERS biosensor in EGFR mutation typing in patients with advanced lung cancer.

Research subjects: The patients enrolled in this project are confirmed to be advanced non-small cell lung cancer (NSCLC). Enrollment will be completed in 25 centers and the enrollment will be competitive.

Research location: 900th Hospital of Joint Logistics Support Force Research intervention: None Study duration: Patients will be enrolled from June 2024 to June 2025. Subject participation time: Telephone follow-up will be conducted every three months until the end of the study.

Detailed Description

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With the continuous development of medical technology, especially molecular biology technology, targeted therapy for lung cancer has made rapid progress, and the prognosis of targeted therapy has been significantly improved compared with chemotherapy. In clinical practice, molecular typing of EGFR mutations is conducive to timely and optimal tumor treatment. At present, common detection methods include Sanger sequencing, next-generation sequencing (NGS) and RT-PCR, and most of their samples are from tumor tissues. However, the defects of tissue samples such as small quantity, long detection cycle, heterogeneity and invasiveness have brought challenges to the application of these methods. Therefore, in order to overcome the many limitations faced in detecting gene mutations in tumor tissues, it is of great significance to seek feasible alternatives that are easy to obtain and low intrusiveness for EGFR mutation screening. Previous reports have shown that clinical serum circulating tumor DNA (ctDNA) retains relatively complete genetic information, and EGFR mutations in tumor cells can be reflected in ctDNA in real time. In blood, the detection of ctDNA has unique advantages, such as high timeliness, low false positives and high specificity. Therefore, with blood as an ideal substitute, low-invasive ctDNA detection can become an effective tool for liquid biopsy. Unfortunately, there is no standardized method to detect EGFR mutations in blood samples. Common methods for detecting ctDNA include NGS, mutation amplification retardation system (ARMS) and digital PCR. However, these methods have disadvantages such as complex operation, long time, high cost, low sensitivity and poor specificity. Therefore, a new method for rapid and sensitive ctDNA typing detection is urgently needed.

SERS has become one of the most promising tools in biomedical analysis due to its excellent optical properties. However, since the copy number of mutant ctDNA in blood is only 1% of wild-type DNA, traditional SERS technology cannot meet the strict conditions for ultrasensitive detection. Catalytic hairpin assembly (CHA) is a typical isothermal enzyme-free signal amplification strategy. In order to further improve the analytical ability of the detection platform for low-abundance ctDNA, we combined CHA and SERS as a biosensor constructed as a dual signal amplification strategy to improve the analytical performance of the detection platform for EGFR in serum. In our previous study, we successfully constructed a CHA reaction-mediated self-calibrated SERS biosensor for EGFR mutation typing (Del-19, T790M, L858R) in lung cancer patients, and verified the accuracy, sensitivity, and specificity of the SERS biosensor in a small sample of 32 patients to be over 95%. In order to obtain the highest level of clinical evidence and truly achieve clinical transformation, this prospective, multicenter clinical study aims to verify the analytical efficiency of the SERS biosensor for EGFR mutation typing in advanced lung cancer patients.

Conditions

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Lung Cancer in Normal and Malignant Tumors

Keywords

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SERS CHA EGFR advanced lung cancer

Study Design

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Observational Model Type

COHORT

Study Time Perspective

PROSPECTIVE

Study Groups

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Patients diagnosed with advanced stage NSCLC by pathology

The study was conducted in 25 centers across the country, recruiting 200 patients with advanced NSCLC with different confirmed EGFR mutation types (Del-19, L858R, T790M, and no gene mutation).

SERS sensor based on CHA reaction

Intervention Type DIAGNOSTIC_TEST

1\. Screening interested participants should sign the appropriate informed consent (ICF) prior to completion any study procedures. 2. The investigator will review symptoms, risk factors, and other non-invasive inclusion and exclusion criteria. 3. The following is the general sequence of events during the 3 months evaluation period: 4. Completion of baseline procedures Participants were assessed for 3 months and completed all safety monitoring.

Interventions

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SERS sensor based on CHA reaction

1\. Screening interested participants should sign the appropriate informed consent (ICF) prior to completion any study procedures. 2. The investigator will review symptoms, risk factors, and other non-invasive inclusion and exclusion criteria. 3. The following is the general sequence of events during the 3 months evaluation period: 4. Completion of baseline procedures Participants were assessed for 3 months and completed all safety monitoring.

Intervention Type DIAGNOSTIC_TEST

Other Intervention Names

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NGS RT-PCR

Eligibility Criteria

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Inclusion Criteria

1. Participants with Lung cancer meeting the criteria of TNM (Ninth Edition);
2. Participants are willing to participate in this study and follow the research plan;
3. Participants or legally authorized representatives can give written informed consent approved by the Ethics Review Committee that manages the website;

Exclusion Criteria

1. Patients with other active malignant tumors;
2. Patients with missing baseline clinical data;
3. Patients with severe underlying lung diseases (such as bronchiectasis, bronchial asthma or COPD, etc.), or those with a history of occupational or environmental exposure to dust, mines or asbestos;
4. Participants who do not cooperate or refuse to participate in clinical trials at a later stage.
Minimum Eligible Age

18 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

No

Sponsors

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Fuzhou General Hospital

OTHER

Sponsor Role lead

Responsible Party

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Responsibility Role SPONSOR

Central Contacts

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Zongyang Yu, Ph.D

Role: CONTACT

Phone: 13509327806

Email: [email protected]

Other Identifiers

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2024-045

Identifier Type: -

Identifier Source: org_study_id