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The neoadjuvant Immune Checkpoint Inhibitor (ICI) or ICI combination with chemotherapy for Non-small cell lung cancer (NSCLC) had induced higher major pathologic response (MPR) and complete pathological response (PCR). However, the RECIST underestimated the therapeutic response of neoadjuvant ICI therapy. In this study, dynamic PET/CT compared with RECEST 1.1 for the prediction of therapeutic response of NSCLC treated with neoadjuvant ICI combination with chemotherapy.
Full description
The prognosis of stage Ⅱa-Ⅲb NSCLC was worse, with 5-year survival rate between 26%-60% after resection. Neoadjuvant ICI or ICI combination with chemotherapy had induced high rate major pathologic response (MPR) and complete pathological response (PCR) for NSCLC. CT image (RECIST) underestimate the response of neoadjuvant therapy. In Checkmate 159 trial, 21 patients with stage Ⅰ-Ⅲa NSCLC received two dose preoperative Nivolumab, only 2 (10%) patients were partial response on CT image assessment. While 9 of 20 (45%) patients were MPR on pathological examination. 2 patients shows tumor progression on CT, but one patient achieved PCR and another patient achieved MPR.Therefore, conventional RECIST criteria cannot accurately assess tumor response to treatment.
The occurrence, development and metastasis of tumor are essentially a series of biochemical processes of abnormal gene expression and metabolism, dysfunction and structural change. 18F-FDG can reflect the metabolic changes of the body at the cellular and molecular level, and the transmission of these metabolic information is earlier than the anatomical changes. By detecting the uptake of 18F-FDG and analyzing tumor metabolism, tissue blood perfusion, receptor, etc., it can provide a theoretical basis for monitoring the therapeutic effect of lung cancer with PET.
As a new imaging technique, 18F-2-fluoro-2-deoxy-D-glucose fluorodeoxyglucose (18F-FDG) PET/CT is playing an increasingly important role in the diagnosis of tumors. 18F-FDG PET/CT reflects the glucose metabolism process of tumor tissues, and the diagnosis of benign and malignant tumors is based on the difference in glucose metabolism activity between tumor cells and normal tissue cells. 18F-FDG is an isomer of glucose, which is involved in glucose metabolism. Because it is deoxidized and cannot produce hexose bisphosphate, it cannot participate in the next metabolism, and is trapped in cells. In tumor cells, 18F-FDG uptake is increased due to high expression of glucose transport messenger ribonucleic acid (mRNA), elevated glucose transporter Glut-1 and Glut-3 levels, increased hexokinase expression, and down-regulation of glucose-6-phosphatase levels.Molecular imaging using 18F-FDG PET/CT can provide metabolic information to enable better differentiation of benign and malignant tissues and reveal functional abnormalities before structural damage. At the same time, 18F-FDG PET-CT is an effective method for early monitoring of tumor response. It can monitor the metabolic changes of the body before and after tumor treatment, so as to suggest the response of the body to relevant treatment. However, all the PET/CT scans reported in the relevant literature are based on routine static scans, that is, the image data is based on the static images of the tracer obtained at a fixed time point after injection of 18F-FDG. Conventional static PET (60min post-injection scan) can only be used for qualitative visual analysis or semi-quantitative indicator standardized uptake values (SUV) to determine tumor response to treatment. SUV is vulnerable to the influences of uptake time, blood glucose concentration, insulin level, individual weight and injection dose, making it difficult to accurately and quantitatively evaluate tumor response before and after treatment. In order to improve, we plan to adopt dynamic scanning, that is, collecting dynamic data of whole body tissues at all times from the instant of injection of 18F-FDG to one hour. Dynamic scanning can provide information about the temporal metabolism and distribution of the tracer in the tissue, so it can provide more abundant information about the metabolism and distribution of tumor foci and metastasis foci than static scanning, so it can accurately quantify the tumor response before and after treatment. At the same time dynamic PET does not increase the patient's radiation dose compared to static PET.
This study intends to evaluate the efficacy of neoadjuvant anti-programmed cell death protein 1 (anti-PD1) immunotherapy combined with chemotherapy followed by surgery, evaluate the evaluation value of dynamic PET-CT for the efficacy of neoadjuvant therapy, and evaluate the relationship between circulating tumor DNA (ctDNA) changes and efficacy.
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Any approved anticancer therapy, including chemotherapy, hormonal therapy, or radiotherapy, within 5 years prior to initiation of study treatment; however, the following are allowed:
Malignancies other than the disease under study within 5 years prior to Cycle 1, Day 1, with the exception of those with a negligible risk of metastasis or death and with expected curative outcome or undergoing active surveillance per standard-of-care management (e.g., chronic lymphocytic leukemia Rai Stage 0, prostate cancer with Gleason score ≤ 6, and prostate-specific antigen (PSA) ≤ 10 mg/mL, etc.)
Patients who are receiving any other investigational agents concurrently.
History of allergic reactions attributed to compounds of similar chemical or biologic composition to pembrolizumab, cisplatin, carboplatin, pemetrexed or gemcitabin.
Patients with active hepatitis B or C infections or a history of HIV infection.
Patients with past or resolved hepatitis B infection, defined as having a negative hepatitis B surface antigen (HBsAg) test and a positive for the antibody test to detect antibodies to hepatitis B core antigen (anti-HBc) are eligible.
Patients positive for hepatitis C virus (HCV) antibody are eligible only if polymerase chain reaction (PCR) is negative for HCV RNA.
Uncontrolled intercurrent illness including, but not limited to, ongoing or active infection including tuberculosis (TB), symptomatic congestive heart failure, unstable angina pectoris, cardiac arrhythmia, or psychiatric illness/social situations that would limit compliance with study requirements.
Known clinically significant liver disease, including active viral, alcoholic, or other hepatitis; cirrhosis; fatty liver; and inherited liver disease
Patients with controlled Type 1 diabetes mellitus on a stable insulin regimen may be eligible.
Severe infections within 4 weeks prior to Cycle 1, Day 1, including but not limited to hospitalization for complications of infection, bacteremia, or severe pneumonia
Signs or symptoms of infection within 2 weeks prior to Cycle 1, Day 1 Received oral or IV antibiotics within 2 weeks prior to Cycle 1, Day 1. Patients receiving prophylactic antibiotics (e.g., for prevention of a urinary tract infection or chronic obstructive pulmonary disease) are eligible
Major surgical procedure within 28 days prior to Cycle 1, Day 1 or anticipation of need for a major surgical procedure during the course of the study
Administration of a live, attenuated vaccine within 4 weeks before Cycle 1, Day 1 or anticipation that such a live, attenuated vaccine will be required during the study
Pregnant women
History of interstitial lung disease or pneumonitis of any cause
Is ineligible for an operation based on medical or oncologic contraindications to surgery
Is currently participating in or has participated in a trial of an investigational agent or has used an investigational device within 4 weeks prior to the first dose of trial treatment o Note: Patients who have entered the follow-up phase of an investigational trial may participate as long as it has been 4 weeks after the last dose of the previous investigational agent
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23 participants in 1 patient group
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QingDong Cao, MD
Data sourced from clinicaltrials.gov
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