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Clinical Trial Summary

A spectroscopic probe is a sensor designed to illuminate and gather light directly from the tissue while touching it. The probe contains optical fibres, some which illuminate the surface of the tissue with harmless visible (white) light, and others that collects the light that has been reflected from inside the tissue. As the investigators track the position of the probe, they can create spectroscopic images with richer colour information, allowing surgeons to differentiate between different types of tissue, such as normal or cancerous regions. The spectroscopic probe, either sterilised or covered with a sterile probe cover, will be used on the tissue as part of the patient's operation, inside the body itself. The tissue will be sampled using the spectroscopic probe before the surgeons remove the tissue from the body. The research team will be in the operating theatre. The surgeon or a member of the research team will use the optical probe on the tissue samples. This will involve taking pictures and videos of the sample while the research team scan the samples with the spectroscopic probe.


Clinical Trial Description

Cancers of the gastrointestinal (GI) tract remain a major contributor to the global cancer risk, with approximately 2.8million cases of colorectal and stomach cancer worldwide. These malignancies continue to pose a major threat to public health. The aim of surgery is for complete resection of tumour with clear margins, whilst preserving as much surrounding tissue as possible. A positive circumferential resection margin (CRM) is associated with local recurrence of the tumour and poorer long-term survival, so it is paramount to establish tissue margins accurately. Diffuse reflectance spectroscopy (DRS) is a technique that allows discrimination of normal and abnormal tissue and presents a promising advancement in cancer diagnosis. Light emitted using a DRS probe is absorbed and scattered by different structures within tissue and emitted back onto the probe. The wavelength and intensity of this collected light is specific to each tissue type, and in this way, different tissue can be distinguished based on spectral data. The investigators have developed an optical tracking system to overcome single-point spectral measurements, for use intra-operatively to aid margin assessment. This system is able to process thousands of spectra in a small timeframe, which can be used in real-time to distinguish tumour and non-tumour tissue. A benchtop ex vivo study on upper GI specimens has successfully tested these approaches. Participants undergoing elective GI cancer surgery at Imperial NHS trust will be recruited by the clinical care team through clinic. Patients willing to take part in the study will be consented. The study involves a probe emitting harmless visible light being used on the organ that will be removed during the operation just before it is resected. This should not interfere with the operation being carried out and will take 5-15mins in total. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT05830292
Study type Interventional
Source Imperial College London
Contact Christopher Peters, PhD
Phone 020 3312 6666
Email christopher.peters@imperial.ac.uk
Status Recruiting
Phase N/A
Start date May 20, 2022
Completion date April 1, 2024

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