Hyper-Spectral Endoscopy for Detection of Early Neoplasia in Barrett's Oesophagus
NCT ID: NCT06119906
Last Updated: 2023-11-07
Study Results
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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UNKNOWN
NA
24 participants
INTERVENTIONAL
2024-04-01
2025-06-30
Brief Summary
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Participants will firstly undergo a standard endoscopy, followed by another endoscopy using the experimental HySe device. Subsequently, patients will receive biopsies according to Seattle protocol, and up to 6 additional (optional) snap frozen research biopsies.
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Detailed Description
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The team has developed a custom hyperspectral endoscope based around a commercially available, standard-of-care endoscopy stack from Olympus (Tokyo, Japan). In this system, the original gastroscope, video processor and display are used with a modified light source that incorporates a laser with tunable wavelength for illuminating the scene through the endoscope. A live video feed from the gastroscope is displayed on the endoscopy theatre monitors and can be acquired and saved in the native video acquisition system.
Given that it is essential in the pilot study to assess the detection of neoplastic lesions in a small patient cohort, we will artificially enrich for patients with early neoplasia by including patients with previously recognized early neoplasia within Barrett's oesophagus (high grade dysplasia and intramucosal adenocarcinoma). These patients will receive a clinically indicated endoscopy to be assessed to determine eligibility for endoscopic treatment, and imaging would be done at this time point. This will allow the team to have sufficient number of outcomes to have preliminary data on diagnostic accuracy and be able to power future studies in non-enriched patient cohorts.
Conditions
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Study Design
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NA
SINGLE_GROUP
DIAGNOSTIC
NONE
Study Groups
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Standard + Experimental Endoscopy
The endoscopist will intubate the patient with a high resolution white light endoscope (Olympus GIFH290Z or GIF-EZ1500) and thoroughly inspect the mucosal surface of the oesophagus. A careful note will be made of any visible lesion with their location, and the surrounding mucosa will be marked with cautery to localize the lesion for further hyperspectral imaging and biopsy. We will aim to identify at least two areas of interest per patient with the possibility to select more if the length of the Barrett's oesophagus allows. The endoscopist will remove the standard of care endoscope and then reintubate the patient with the experimental device and perform unbiased imaging first followed by targeted imaging of the endoscopic areas previously marked
Hyper-Spectral Endoscopy
We have developed a custom hyperspectral endoscopy approach based around a commercially available endoscopy system. An Olympus gastroscope (GIF-H260) and video processor and display are used with a modified light source that incorporates a laser with tunable wavelength for illuminating the scene through the endoscope. A live video feed from the gastroscope is displayed on the endoscopy monitors and can be acquired and saved in the native video acquisition system. The spectral imaging data is also saved within this video feed, where imaging wavelength corresponds to a given timestamp in the video.
Interventions
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Hyper-Spectral Endoscopy
We have developed a custom hyperspectral endoscopy approach based around a commercially available endoscopy system. An Olympus gastroscope (GIF-H260) and video processor and display are used with a modified light source that incorporates a laser with tunable wavelength for illuminating the scene through the endoscope. A live video feed from the gastroscope is displayed on the endoscopy monitors and can be acquired and saved in the native video acquisition system. The spectral imaging data is also saved within this video feed, where imaging wavelength corresponds to a given timestamp in the video.
Eligibility Criteria
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Inclusion Criteria
* Previous diagnosis of Barrett's oesophagus, with an endoscopic length of at least 2 cm if circumferential (C≥2 according to Prague classification) or 3 cm if not circumferential (maximal extent M≥3, according to Prague classification).
* Previous diagnosis of oesophageal glandular dysplasia or early oesophageal adenocarcinoma for consideration of endoscopic therapy.
Exclusion Criteria
* Pregnancy, or planned pregnancy during the course of the study.
* Currently breastfeeding.
* Any history of oesophageal varices, liver impairment of moderate or worse severity (Child's- Pugh class B \& C) or evidence of varices on initial treatment endoscopy.
* Any history of oesophageal surgery, except for uncomplicated fundoplication.
* History of coagulopathy, with INR\>1.3 and/or platelet count of \<75,000.
* On clopidogrel, and/or warfarin for high risk condition and unable to withhold temporarily the medication.
18 Years
ALL
No
Sponsors
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University of Manchester
OTHER
University of Cambridge
OTHER
Responsible Party
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Massimiliano di Pietro, MD
Principal Investigator
Principal Investigators
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Sarah Bohndiek
Role: PRINCIPAL_INVESTIGATOR
University of Cambridge
Locations
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Cambridge University Hospital
Cambridge, County (optional), United Kingdom
Countries
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Central Contacts
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Other Identifiers
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HySe trial v1.0
Identifier Type: -
Identifier Source: org_study_id
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