Exploiting the Gut Microbiota and Its Metabolites in Pelvic Cancer

NCT ID: NCT05605353

Last Updated: 2023-05-16

Basic Information

• Recruitment Status: RECRUITING
• Total Enrollment: 450 participants
• Study Classification: OBSERVATIONAL
• Study Start Date: 2023-03-01
• Study Completion Date: 2029-05-31

Brief Summary

The large intestine is the last part of the digestive tract. It absorbs water and dietary substances. However, it is also where most of our bacteria are resident. These bacteria are important for our health and influence many different diseases, including Colon Cancer, Ulcerative Colitis and Crohn's disease. The gut bacteria can also potentially influence responses to treatments in other cancers by helping to change the responses to radiotherapy and chemotherapy. The interactions between these bacteria and the rest of our cells are only now becoming understood and there is little research on the interactions between these bacteria and cancer radiotherapy treatments in pelvic cancer.

We will therefore explore this in more detail. We will ask for samples of the patient's poo before their treatment for pelvic cancers. This will include patients with bladder, prostate, cervical, ovarian, womb or colorectal cancers. By doing so we will be able to compare the profile of gut bacteria with responses to treatments, thereby increasing our understanding of the colonic bacteria.

To do this we process the poo specimens to remove the bacterial genetic material (DNA) of the bacteria and process it on a machine to read the genetic code and also study the metabolites that they will produce. We can then make a direct comparison between different samples of the relative numbers of different bacteria present. In some cases, we will compare this to metabolites and inflammatory and immune markers identified in a blood sample. This work might help future patients by determining what are the best bacteria to have in the colon during cancer treatments. These could potentially be given to patients, before their cancer treatment, in the form of probiotic medications, should there be an improvement demonstrated in our research. Alternatively we could alter the patients' intakes of specific dietary fibres to boost these bacteria specifically.

Detailed Description

The University of Aberdeen and Aberdeen Royal Infirmary (ARI) in NHS Grampian are in the unique position of having a single site campus for microbiota-related laboratory science at the world-famous Rowett Institute, Biorepository facilities on campus for rapid sample processing and NHS facilities for treatment of multiple pelvic tumour types, including colorectal, gynaecological and urological.

Patients will be approached in their respective pelvic cancer clinics, after identification for potential inclusion at the respective multi-disciplinary team (MDT) meeting. The patient will be informed of their diagnosis and management plan by a clinician responsible for their care (may include Clinical Nurse Specialist). Patients will only be approached about the research at a subsequent meeting, e.g. when the specialist nurses contact the patient to address any further questions around the management plan discussed, they attend the consultant clinic for consent to definitive treatment, etc. This gives the patient sufficient time to process their diagnosis and management plan before introducing the research. At this meeting patients will be provided with the PIS (this will be posted to the patient if the meeting is via video teleconference). If they are willing to consider being involved, they will then be contacted by a research nurse or other suitably qualified team member, who will discuss the study further and answer any questions. If they are willing to take part arrangements will be made for a member of the clinical team to obtain written informed consent when the patient attends hospital for a subsequent clinical appointment.

They will be asked to donate a faecal sample (and in a subset of colorectal patients, a right-sided colonic contents sample taken at the time of their operation) for processing at the Rowett Institute Human Nutrition Unit before the start of their next cancer therapy (chemotherapy, radiotherapy or surgery). Consent will also be sought to obtain a blood sample. This will normally be obtained during routine venesection for clinical reasons and will be blood surplus to clinical requirements processed by the Biorepository. Where necessary, if blood is not being collected as part of standard clinical care, an extra venepuncture, of 5mls, will be requested. Blood will be processed for plasma extraction.

Patients will also be encouraged to complete an optional food frequency questionnaire (FFQ) indicating what they have eaten and drank in the three months before taking their stool samples. However, if they feel unable to complete this, their decision will be respected and they can continue in the study. These questionnaires take around 30 minutes to complete and will be provided to the patients either during a clinical appointment before their first cancer therapy or posted out to them. A subgroup of patients will also be asked if they would be willing to provide a more in-depth assessment of their diet on the four days before providing the stool sample but it will be highlighted to them that this is optional and they are free to refuse.

Faecal samples will be collected from the ARI brought to the hospital on the day of a clinic appointment or initial treatment for the patient. Alternatively, the participant can leave the sample at a specific drop off centre in the Rowett institute. This will be left to the discretion of the participant as to whichever is most convenient for them. Completed food diaries/questionnaires will also be collected at the same time and in the same location as the faecal sample drop-off.

No other additional samples are required from the patient. After obtaining the specimens, at the Rowett Institute, a portion will be processed by Dispomix for DNA extraction using Powersoil DNA extraction kits and stored in freezers before analysis by 16S rRNA gene sequencing. Another portion will be processed and stored for SCFA analysis by gas chromatography and some of the remaining faeces stored for future analyses.

Plasma will be extracted from the blood samples from the NHS Haematology laboratories and transferred to the Rowett Institute by the research team involved in the study. In situations where a blood sample has not been taken for clinical purposes the blood sample will be collected by a phlebotomist or other trained staff at the Human Nutrition unit of the Rowett Institute. Once the plasma has been extracted, the blood samples will be stored in freezers at the Rowett Institute.

16S rRNA gene sequencing of faecal DNA will be undertaken at the Centre for Genome Enabled Biology and Medicine (CCEBM), University of Aberdeen, including bioinformatics analysis. Using 16S rRNA gene sequencing, a small portion of the bacterial genetic material is examined, which differs between different bacteria, allowing us to estimate the 'relative abundance' of each within each specimen. We will also analyse SCFAs in faeces by GC and plasma by GC-MS (this more sensitive technique is required for plasma due to lower concentrations of metabolites present) at the Rowett Institute Analytical facility. At the end of this study, if sufficient sample remains in a usable condition we would like to store this for future research. After necessary funding and approvals are obtained we may in future investigate bacterial DNA in more detail (to species/strain level) by metagenomics and other metabolites, e.g. tryptophan, bile acids, and inflammatory (e.g. calprotectin) and immune markers (e.g. cytokines).

Clinical data will be pseudo-anonymised at source and collected by the research team (including biobank staff for baseline data and, research nurses, clinical fellows, radiographers, etc, for follow up data). This will be included in the subsequent analysis. Tumour responses and the side effects of radiotherapy/ chemoradiotherapy or surgery will be obtained from patient notes to look at toxicity and outcomes, and some patients will have been asked to fill in questionnaires as part of their routine clinical follow-up, such as the RTOG and EPIC26 (questionnaires routinely used in clinical practice).

16S rRNA gene sequencing data will be analysed by Bioinformaticians at the University of Aberdeen specialised in handling these large data sets, to determine the richness and relative abundance of bacteria present. Data will be stored by IT services on the High Performance Computer Cluster and submitted to a public repository. Associations will be studied between 16S rRNA gene sequencing data, SCFA analysis and available clinical data. Statistical analysis will be undertaken by Statisticians from Biomathematics and Statistics Scotland

Conditions

Pelvic Neoplasm

Study Design

• Observational Model Type: COHORT
• Study Time Perspective: PROSPECTIVE

Study Groups

Colorectal

Patients with rectal or colon cancer

Faecal microbiota sampling and blood sampling

Intervention Type: DIAGNOSTIC_TEST

There is no intervention in this study. We will obtain faeces and blood from the recruited patients and assess the microbiota and their metabolites therein. This is an observational work

Gynaecological

Patients with uterine, ovarian or cervical cancers

Faecal microbiota sampling and blood sampling

Intervention Type: DIAGNOSTIC_TEST

There is no intervention in this study. We will obtain faeces and blood from the recruited patients and assess the microbiota and their metabolites therein. This is an observational work

Urological

Patients with bladder or prostate cancers

Faecal microbiota sampling and blood sampling

Intervention Type: DIAGNOSTIC_TEST

There is no intervention in this study. We will obtain faeces and blood from the recruited patients and assess the microbiota and their metabolites therein. This is an observational work

Interventions

Faecal microbiota sampling and blood sampling

There is no intervention in this study. We will obtain faeces and blood from the recruited patients and assess the microbiota and their metabolites therein. This is an observational work

Intervention Type: DIAGNOSTIC_TEST

Eligibility Criteria

Inclusion Criteria

1. Patients willing to consent

2. Any patient who is being treated in NHS Grampian for a pelvic cancer (Colorectal, urological or gynaecological) above 16 years of age

Exclusion Criteria

1. patients who are not willing to consent to be involved

2. Malignancies from other sources or anatomical locations

3. Patients who lack the understanding of the study to obtain appropriate levels of consen

• Minimum Eligible Age: 16 Years
• Maximum Eligible Age: 99 Years
• Eligible Sex: ALL
• Accepts Healthy Volunteers: No

Sponsors

University of Aberdeen

OTHER

Sponsor Role: lead

Responsible Party

Responsibility Role: SPONSOR

Principal Investigators

George Ramsay, FRCS

Role: PRINCIPAL_INVESTIGATOR

University of Aberdeen

Locations

Aberdeen Royal Infirmary

Aberdeen, Scotland, United Kingdom

Site Status: RECRUITING

Countries

United Kingdom

Central Contacts

George Ramsay, FRCS

Role: CONTACT

george.ramsay@abdn.ac.uk

03454566000

Facility Contacts

George Ramsay, Phd FRCS

Role: primary

george.ramsay@abdn.ac.uk

07846663356

Other Identifiers

2-066-22

Identifier Type: -

Identifier Source: org_study_id