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Clinical Trial Summary

Pancreatic carcinoma has a dismal prognosis at time of diagnosis, due to late onset of clinical symptoms, patients present with advance disease. Complete surgical resection is the only potential curative treatment, however only a small percentage is eligible for upfront total surgical resection due to extension into anatomical related important vascular structures. Neoadjuvant chemo(radio)therapy has become the standard treatment modality for non-primary resectable disease (borderline resectable and locally advanced pancreatic cancer (LAPC)), where subsequent downstaging can make identification of the primary tumor more challenging during surgery. Near-infrared (NIR) fluorescence imaging can aid surgeons by providing real-time visualization of tumors, suspect lymph nodes and vital structures during surgery. Additional intra-operative feedback could possibly reduce the frequency of positive resection margins and increase complete removal of locally spread tumor and involved lymph nodes and could thereby improve patient outcomes as well as overall survival. SGM-101 is a targeted NIR-fluorophore, with specific binding capacity for Carcino Embryonic Antigen (CEA) which is overexpressed on tumor cells in the gastro-intestinal tract, including pancreatic cancer.


Clinical Trial Description

Pancreatic cancer is a lethal cancer type and is continuously rising as cause of cancer-related death in the Western World. Despite advances in surgical and systemic treatment, the 5-year overall survival (OS) rate remains approximately 10%. This low survival rate is mostly caused by late detection of disease due to the late onset of symptoms. Therefore, most patients are diagnosed with advanced stage disease: at the time of diagnosis, about 15% of patients has (borderline) resectable ((B)RPC) disease (stage I or II), 35% locally advanced pancreatic cancer (LAPC, stage III), and 50% metastatic disease (stage IV). The resectability of disease is determined by the extent of tumor contact with the superior mesenteric artery, celiac artery, superior mesenteric vein, and portal vein. Over the last decade, preoperative chemo(radio)therapy has increasingly been used in an attempt to downstage BRPC or LAPC and select patients with more favorable tumor biology for resection, with the aim to reduce the chance for (early) recurrence. In essence, only patients showing regression or stable disease without suspected metastatic disease are considered for surgical exploration. However, preoperative therapy complicates the preoperative radiological staging, because conventional imaging modalities cannot differentiate between vital tumor tissue, inflammation and fibrosis induced by the preoperative chemo(radio)therapy. As a consequence, vascular tumor involvement is often overestimated and also hard to interpret with substantial interobserver variability. Therefore, non-progressive disease following preoperative therapy regarding imaging and tumor markers is usually an indication for surgical exploration to determine whether radical resection is achievable. During surgical exploration preceding intended tumor resection, the surgeon has to assess the extent of local (vascular) tumor involvement based on preoperative imaging and visual and tactile senses. This visual intraoperative White Light Inspection (WLI) combined with tactile feedback, are the main instruments for guidance and decision-making available to surgeons nowadays. As a result of neoadjuvant therapy the appearance, dimensions, and tactile feedback of the target lesion can be altered, mostly as a result of therapy-induced fibrosis, which complicates the assessment of (local) invasiveness. Surgeons benefit from additional tools that give them real-time directional feedback on local tumor status, which is one of the strengths of optical molecular imaging techniques, like Near-infrared fluorescence (NIRF) imaging. Near-infrared fluorescence (NIRF) imaging is an emerging important intraoperative tool for enhancement of visual contrast and is able to provide real-time guidance in tumor visualization and demarcation. Particularly the use of tumor-specific markers coupled to fluorescent imaging moieties show great promise to improve intraoperative staging and allow more radical cytoreductive surgery if considered resectable. The compound that will be studied in this trial is SGM-101, a CEA-specific chimeric antibody conjugated with a NIR emitting moiety developed by SurgiMab (Montpellier, France). Anti-CEA monoclonal antibodies have been used in more than 100 clinical studies without any toxicity concerns. In addition, it has been shown that it is possible to link an anti-CEA monoclonal antibody to a near-infrared (NIR) emitting fluorophore. Carcinoembryonic antigen (CEA) is a tumor-specific marker that is highly expressed in a number of tumors of epithelial origin (such as colorectal carcinoma and pancreas carcinoma) while it is minimally expressed in normal adult tissues. CEA, among others like Carbohydrate Antigen 19-9 (CA 19-9) is used as diagnostic and prognostic marker during different stages of malignant pancreatic disease. From a previous study conducted in the LUMC with this compound in patients with (borderline) resectable pancreatic cancer the investigators learned that near-infrared fluorescence imaging of pancreatic tumors using a single dose up to 10mg of the anti-CEA targeted fluorophore SGM-101 is safe, well-tolerated, feasible and effective. It results in specific accumulation of SGM-101 in CEA-expressing primary tumors, peritoneal and liver metastases, allowing real-time identification and guidance using intraoperative fluorescence imaging. Furthermore, CEA expression on the targeted PDAC tissue is expected to be none to minimally influenced by the neoadjuvant treatment, either FOLFIRINOX or a combination of Gemcitabine with or without radiotherapy, as described by previous studies. In addition to experience in pancreatic tumors, there is ample experience from finalized phase-II and ongoing phase-III studies in patient with colorectal carcinoma. A recent study in colorectal cancer patients showed that additional malignant lesions were detected and resected using NIR fluorescence imaging in 6 out of 17 patients (35%). Moreover, an expansion on this study showed no SGM-101 related adverse events up to 15 milligrams in 75 patients. There were no trends or clinically relevant changes in vital signs, ECGs or laboratory parameters reported. Any changes in the laboratory results reported in the follow-up moments were related to the surgical procedure. Best imaging results (according to the tumor to background ratio) were achieved with 10 milligrams injected 3 to 5 days prior to surgery. This study evaluates the yield of NIR-Fluorescence imaging as additional surgical-tool for visualization and assessment of local extent and resectability status of neoadjuvant treated localized pancreatic tumors, local lymph node-involvement as well as potential distant metastatic disease using a single intravenous dose of 10mg SGM-101. Main objective: Determination of the performance of SGM-101 as a fluorescent tracer for NIR-Fluorescence-guidance (FLI) during surgical pancreatic resections after neoadjuvant therapy for assessment of (local) tumor extent and delineation of the primary tumor, local lymph nodes and potential distant metastatic disease Design: Part A: This is a single-center prospective clinical cohort study in patients with neoadjuvant treated non-primarily resectable ((borderline) resectable and locally advanced) pancreatic cancer undergoing scheduled surgical resection. A total of 20 patients will be prospectively enrolled in this study evaluating the performance of NIR-Fluorescence imaging as an additional surgical-tool for the visualization and determination of the local extent of primary tumor, lymph node-involvement and occult hepatic and peritoneal metastatic disease in patients using a single dose of 10mg of SGM-101. The selected dose is based on the pre-clinical and phase I/II results in patients with pancreatic and colorectal cancer. Part B: Part B is synchronous to part A, to compare and match the TdEV containing blood samples from patients participating in part A this trial needs 20 healthy donor control blood samples of 30mL to address our exploratory endpoints regarding TdEV's. Therefore in this trial 20 healthy volunteers will be asked to participate as anonymous healthy blood donor of 30mL (3 EDTA tubes) peripheral venous blood for a single visit to donate healthy donor blood. The control samples will be used anonymous and there is no further follow-up or additional study related activities. Investigational drug: The Investigational Medicinal Product (IMP) used in part A is the injectable conjugate SGM-101 is composed of a chimeric monoclonal antibody specific of CEA, bound to a fluorochrome. SGM-101 is manufactured in compliance with Good Manufacturing Practice (GMP). It is a sterile solution for injection supplied in 4 mL amber glass vial (5 mg/mL; 2,3 mL/vial). A dose of 10 mg SGM-101 will be administered intravenously over 30 minutes 3 to 5 (±4) days prior to surgery. Imaging system: The Investigational Medical Device (IMD) used in part A is the imaging system that will be used in the study is a dedicated NIRF-camera system from Quest Medical Imaging (Quest Medical Imaging, Olympus Europe) the Quest Spectrum 2/3.0 Platform, that is optimized for measurements in the 700-800nm NIR-spectrum. For this device ample handling-experience for end-users exists at the LUMC, gained from standard-of-care and research activities with intra-operative NIRF-imaging. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05984810
Study type Interventional
Source Leiden University Medical Center
Contact
Status Recruiting
Phase Phase 2
Start date March 18, 2024
Completion date December 2026

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