Endoscopic submucosal dissection (ESD) is a relatively new technique to treat superficial cancers in the upper gastrointestinal (GI) tract. Previous studies reported high en bloc resection rates (95%-97%). However, R0 resection rates (84.5%) suggest that the tumour is not radically removed in all cases, resulting in a risk of tumour recurrence. One of the key challenges is the limited accuracy in determining the depth of cancer invasion. To reduce the risk of tumour recurrence, the endoscopist would greatly benefit from proper and complete visualization of the tumour margin and depth during ESD. Several studies have shown that near-infrared quantified fluorescence molecular endoscopy (qFME) could serve as a red flag detection method and might be a useful imaging tool for tumour demarcation in the upper GI tract. The aim of this study is to evaluate the feasibility of ICG-enhanced near-infrared qFME to determine tumour demarcation and tumour depth in upper GI tumours (e.g. superficial esophageal and/or gastric adenocarcinoma (T1)) during ESD.
Study Type
INTERVENTIONAL
Allocation
NA
Purpose
OTHER
Masking
NONE
Enrollment
10
Systemic administration of indocyanine green during the endoscopic procedure.
Near-infrared quantified fluorescence molecular endoscopy (qFME) will be used during the endoscopic procedure.
University Medical Centre Groningen
Groningen, Provincie Groningen, Netherlands
RECRUITINGFeasibility of ICG-enhanced qFME to determine tumour demarcation and depth in upper gastrointestinal tumours during ESD
Feasibility will be assessed by analyzing the fluorescent imaging data obtained during and after the procedure. Visible fluorescence will be determined by calculating the target-to-background ratio (TBR), where the target is defined as the mean pixel intensity of the resection bed in areas displaying fluorescence.
Time frame: One week after the qFME procedure
Feasibility of ICG-enhanced qFME to determine tumour demarcation and depth in upper gastrointestinal tumours during ESD
Secondary evaluation will focus on whether visible fluorescence after resection correlates with an R1 resection grade based on histopathology.
Time frame: One week after the qFME procedure
Feasibility of ICG-enhanced qFME to determine tumour demarcation and depth in upper gastrointestinal tumours during ESD
Fluorescence will also be quantified using mucosal multi-diameter single-fiber reflectance / single-fiber fluorescence (MDSFR/SFF) spectroscopy, a non-invasive measurement technique.
Time frame: After study completion, to be expected within 8 months
Visibility of the papilla of Vater and the intraduodenal part of the extrahepatic biliary anatomy by detecting fluorescent signal with ICG-enhanced qFME
Visibility is determined visual evaluation during the endoscopic procedure and calculating the TBR in the same manner as explained above.
Time frame: One week after the qFME procedure
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