Will a Pre-therapy Exercise Intervention Improve the Outcomes of Patients With Advanced Oesophageal Cancer? (OPTIMUS)

January 29, 2026 updated by: Adam Frampton, University of Surrey

Optimising Prehabilitation Exercise to Enhance Tumour Outcomes in Advanced Oesophageal Cancer

Background

Regular exercise can significantly improve physical and mental health during cancer treatment and reduce the time needed in the hospital. Animal studies suggest that exercise training can also reduce the number of cancer cells. For example, exercise training in mice produces more immune cells in the tumour. These immune cells in the tumour contribute to the destruction and reduction of the size of the tumour and are a vital component of effective immunotherapy (cancer treatment that helps the immune system fight cancer).

In humans, exercise training and the immune response in tumours are less understood. Only 1 study has investigated the effect of a single exercise session before surgical removal of the prostate in prostate cancer patients. As the benefits of exercise are gained from weeks/months of exercise, no effect on the immune cells in the tumours were found.

The investigators have carried out a previous study looking at how exercise affects fitness before major surgery. After this they used state-of-the-art methods to detect and visualise immune cells within the tumour. Compared with the patients who did not exercise, the exercise group had significantly more immune cells in their tumours, consisting of a group of cells that are important for killing cancerous cells called CD8+ T cells. CD8+ T cells in tumours are associated with improved survival outcomes.

Importantly, they found a link between changes in fitness and the amount of these cells in the tumour. This suggests that if there is increase in fitness, there also an increase in the frequency of these cells in the tumour. Therefore, the investigators propose performing a clinical trial to find out the best level of exercise patients need to sustain before surgery to produce this improved immune response.

The trial will aim to understand how this happens and how the entry of immune cells into the tumour changes the environment around a tumour. The investigators consist of a team of exercise immunologists, tumour immunologists and clinicians working with the Human Performance Institute at the University of Surrey in collaboration with the Royal Surrey NHS Trust.

How it will be done

The investigators will assess immune cell response in blood samples obtained from oesophageal cancer patients before, during and after a high or low intensity exercise programme. Following the exercise programme, tumour tissue removed at surgery from these patients will be used to investigate the the presence and quantity of these immune cells.

Potential impact

A better understanding of this is important, as current anti-cancer immune-based therapeutics work best when there is a an immune response within the patient's tumour. Generating evidence that exercise can improve the immune response against the tumour in patients with oesophageal cancer would provide significant justification for introducing "personalised" exercise programmes to improve treatment outcomes.

Study Overview

Status

Status

Indicates the current recruitment status or the expanded access status.
Recruiting

Conditions

Conditions

The disease, disorder, syndrome, illness, or injury that is being studied. On ClinicalTrials.gov, conditions may also include other health-related issues, such as lifespan, quality of life, and health risks.

Intervention / Treatment

Intervention / Treatment

A process or action that is the focus of a clinical study. Interventions include drugs, medical devices, procedures, vaccines, and other products that are either investigational or already available. Interventions can also include noninvasive approaches, such as education or modifying diet and exercise.

Detailed Description

Oesophageal cancer is one of the most challenging cancers to treat, with low survival rates, even when people receive intensive treatments such as chemotherapy and surgery. New treatment strategies could therefore lead to significant benefits to patients.

One of the most promising new treatments is immunotherapy, which works by "releasing the brakes" on immune cells. Immunotherapy has transformed outcomes in some cancers, but its impact in oesophageal cancer has been modest so far. One important reason may be that many oesophageal tumours contain few active immune cells to begin with. Finding safe, practical ways to ''wake up'' the immune system and draw immune cells into the tumour could make existing treatments more effective.

Exercise is a simple, low-cost option that could help. Exercise programmes are already used before major surgery to improve fitness and help people cope better with treatment. Research in other cancers shows that exercise can increase the number and activity of key immune cells in the blood and, in some cases, inside tumours. Exercise also affects the gut microbiome. This is the community of bacteria and other microorganisms in our intestines, and the chemicals they produce. These microbial products can travel through the bloodstream and shape how the immune system behaves. However, it is still unclear yhow these changes work together in people with oesophageal cancer receiving chemotherapy.

In this study, people with oesophageal cancer who are due to receive chemotherapy before surgery will be invited to join a supervised exercise programme. All patients will exercise under the guidance of specialist staff while they are on chemotherapy. One group will follow a lower-intensity programme similar to current NHS prehabilitation. The other group will complete higher-intensity sessions, within safe limits. Comparing these two realistic options will allow us to test whether exercise intensity makes a difference.

The investigators will collect blood and stool samples at key time points before and during treatment. From blood, there will be an analysis of the changes in immune cells and proteins that signal how "switched on" the immune system is. From stool, the investigators will study the gut microbiome and the metabolites (small molecules) they produce. After surgery, the removed tumour will be examined under the microscope to see whether exercise is linked to differences in the number and type of immune cells inside the tumour. By bringing these measurements together, we hope to understand whether more intensive exercise leads to a more immune-active tumour, and how the change in immune cells alongside systemic signalling molecules are related to these states.

Study Type

Study Type

Describes the nature of a clinical study. Study types include interventional studies (also called clinical trials), observational studies (including patient registries), and expanded access.
Interventional

Enrollment (Estimated)

Enrollment

The number of participants in a clinical study. The "anticipated" enrollment is the target number of participants that the researchers need for the study.
50

Phase

Phase

The stage of a clinical trial studying a drug or biological product, based on definitions developed by the U.S. Food and Drug Administration (FDA). The phase is based on the study's objective, the number of participants, and other characteristics. There are five phases: Early Phase 1 (formerly listed as Phase 0), Phase 1, Phase 2, Phase 3, and Phase 4. Not Applicable is used to describe trials without FDA-defined phases, including trials of devices or behavioral interventions.
  • Not Applicable

Contacts and Locations

This section provides the contact details for those conducting the study, and information on where this study is being conducted.

Study Contact

Study Contact

The name and contact information for the person who can answer enrollment questions for a clinical study. Each location where the study is being conducted may also have a specific contact, who may be better able to answer those questions.

Study Locations

  • United Kingdom
    • Surrey
      • Guildford, Surrey, United Kingdom, GU2 7XH
        • Recruiting
        • University of Surrey
        • Contact:
        • Sub-Investigator:
          • Jamal Dirie, MD
        • Principal Investigator:
          • Adam Frampton, PhD

Participation Criteria

Researchers look for people who fit a certain description, called eligibility criteria. Some examples of these criteria are a person's general health condition or prior treatments.

Eligibility Criteria

Eligibility Criteria

The key requirements that people who want to participate in a clinical study must meet or the characteristics they must have. Eligibility criteria consist of both inclusion criteria (which are required for a person to participate in the study) and exclusion criteria (which prevent a person from participating). Types of eligibility criteria include whether a study accepts healthy volunteers, has age or age group requirements, or is limited by sex.

Ages Eligible for Study

  • Child
  • Adult
  • Older Adult

Accepts Healthy Volunteers

No

Description

Inclusion Criteria:

  • Adults with resectable oesophageal adenocarcinoma who are planned for neoadjuvant chemotherapy followed by surgery

Exclusion Criteria:

  • Inability to carry out CPET or exercise due to underlying health conditions
  • pregnancy
  • <18 years old

Study Plan

This section provides details of the study plan, including how the study is designed and what the study is measuring.

How is the study designed?

Design Details

  • Primary Purpose: Supportive Care
  • Allocation: Randomized
  • Interventional Model: Parallel Assignment
  • Masking: Single

Arms and Interventions

Participant Group / Arm

Participant Group / Arm

A group or subgroup of participants in a clinical trial that receives a specific intervention/treatment, or no intervention, according to the trial's protocol.
Intervention / Treatment

Intervention / Treatment

A process or action that is the focus of a clinical study. Interventions include drugs, medical devices, procedures, vaccines, and other products that are either investigational or already available. Interventions can also include noninvasive approaches, such as education or modifying diet and exercise.
Active Comparator: Low intensity/Low amount (LAM) arm
Behavioral: Low intensity exercise
Participants undertake supervised cycling twice weekly. Each session comprises 5 min warm-up at 30% heart rate reserve (HRR), then 20 min continuous cycling starting at 40% HRR. After participants complete two supervised sessions/week at 40% HRR without adverse events, intensity increases by 5% HRR per session to a target of 60% HRR, which is maintained for the remainder of the pre-operative period (until surgery). After cycling, participants complete flexibility and resistance exercises targeting six major muscle groups (2 sets of 12 repetitions, rating of perceived exertion (RPE) 12-14), with load increased when RPE <12. Participants also complete a home programme three times weekly (60 min/session) focusing on resistance and core stability using appropriately weighted bands.
Experimental: moderate-vigorous-intensity/moderate-high-amount (MAM) arm
Behavioral: High intensity exercise
Exercise Group 2 (moderate-vigorous-intensity/moderate-high-amount (MAM)) is a progressive, individualised programme with two supervised aerobic sessions/week using harness-supported treadmill walking where possible, or cycle ergometry if needed. Each session begins with 5 min at 40% heart rate reserve (HRR). For ~2 weeks, participants complete 15 min of intervals (30 s at 80% HRR then 1 min at 50% HRR), followed by 5 min cool-down at 40% HRR. Training then progresses by increasing hard bouts to 1 min, building to 20 intervals, then targeting 90%/50% HRR with gradual increases in time spent at 90% HRR. After aerobic exercise, flexibility plus resistance (chest press, leg press, seated row) is performed for 2 sets to fatigue at rating of perceived exertion (RPE) 15-17, increasing load when 2x25 reps are achieved. Home aerobic exercise is prescribed for 60 min, 3x/week at ~60% HRR using heart-rate telemetry (home cycle provided if walking not feasible).

What is the study measuring?

Primary Outcome Measures

Primary Outcome Measures

In a clinical study's protocol, the planned outcome measure that is the most important for evaluating the effect of an intervention/treatment. Most clinical studies have one primary outcome measure, but some have more than one.
Outcome Measure
Measure Description
Time Frame
Tumour immune infiltration
Time Frame: From enrollment to the end of treatment at 16 weeks
Percentage increase of CD8 T Cells within the tumour
From enrollment to the end of treatment at 16 weeks
Improvement in cardiorespiratory function
Time Frame: From enrollment to the end of treatment at 16 weeks
Measured through VO2 peak
From enrollment to the end of treatment at 16 weeks

Secondary Outcome Measures

Secondary Outcome Measures

In a clinical study's protocol, a planned outcome measure that is not as important as the primary outcome measure for evaluating the effect of an intervention but is still of interest. Most clinical studies have more than one secondary outcome measure.
Outcome Measure
Measure Description
Time Frame
Change in peripheral blood mononuclear cells (PBMC)
Time Frame: From enrollment to the end of treatment at 16 weeks
We will analyse longitudinal shifts in PBMC subsets and phenotypes.
From enrollment to the end of treatment at 16 weeks
Change in plasma cytokines
Time Frame: From enrollment to the end of treatment at 16 weeks
We will analyse longitudinal shifts in PBMC subsets and phenotypes.
From enrollment to the end of treatment at 16 weeks

Collaborators and Investigators

This is where you will find people and organizations involved with this study.

Sponsor

Sponsor

The organization or person who initiates the study and who has authority and control over the study.
University of Surrey

Collaborators

Collaborators

An organization other than the sponsor that provides support for a clinical study. This support may include activities related to funding, design, implementation, data analysis, or reporting.
World Cancer Research Fund International

Investigators

Investigators

A researcher involved in a clinical study. Related terms include site principal investigator, site sub-investigator, study chair, study director, and study principal investigator.
  • Principal Investigator: Adam Frampton, PhD, University of Surrey

Study record dates

These dates track the progress of study record and summary results submissions to ClinicalTrials.gov. Study records and reported results are reviewed by the National Library of Medicine (NLM) to make sure they meet specific quality control standards before being posted on the public website.

Study Major Dates

Study Start (Actual)

Study Start

The actual date on which the first participant was enrolled in a clinical study. The "anticipated" study start date is the date that the researchers think will be the study start date.
April 26, 2024

Primary Completion (Estimated)

Primary Completion

The date on which the last participant in a clinical study was examined or received an intervention to collect final data for the primary outcome measure. Whether the clinical study ended according to the protocol or was terminated does not affect this date. For clinical studies with more than one primary outcome measure with different completion dates, this term refers to the date on which data collection is completed for all the primary outcome measures. The "anticipated" primary completion date is the date that the researchers think will be the primary completion date for the study.
April 30, 2027

Study Completion (Estimated)

Study Completion

The date on which the last participant in a clinical study was examined or received an intervention/treatment to collect final data for the primary outcome measures, secondary outcome measures, and adverse events (that is, the last participant's last visit). The "anticipated" study completion date is the date that the researchers think will be the study completion date.
October 30, 2028

Study Registration Dates

First Submitted

First Submitted

The date on which the study sponsor or investigator first submitted a study record to ClinicalTrials.gov. There is typically a delay of a few days between the first submitted date and the record's availability on ClinicalTrials.gov (the first posted date).
January 21, 2026

First Submitted That Met QC Criteria

First Submitted That Met QC Criteria

The date on which the study sponsor or investigator first submits a study record that is consistent with National Library of Medicine (NLM) quality control (QC) review criteria. The sponsor or investigator may need to revise and submit a study record one or more times before NLM's QC review criteria are met. It is the responsibility of the sponsor or investigator to ensure that the study record is consistent with the NLM QC review criteria.
January 21, 2026

First Posted (Actual)

First Posted

The date on which the study record was first available on ClinicalTrials.gov after National Library of Medicine (NLM) quality control (QC) review has concluded. There is typically a delay of a few days between the date the study sponsor or investigator submitted the study record and the first posted date.
January 29, 2026

Study Record Updates

Last Update Posted (Actual)

Last Update Posted

The most recent date on which changes to a study record were made available on ClinicalTrials.gov. There may be a delay between when the changes were submitted to ClinicalTrials.gov by the study's sponsor or investigator (the last update submitted date) and the last update posted date.
February 2, 2026

Last Update Submitted That Met QC Criteria

Last Update Submitted That Met QC Criteria

The most recent date on which the study sponsor or investigator submitted changes to a study record that are consistent with National Library of Medicine (NLM) quality control (QC) review criteria. It is the responsibility of the sponsor or investigator to ensure that the study record is consistent with the NLM QC review criteria.
January 29, 2026

Last Verified

Last Verified

The most recent date on which the study sponsor or investigator confirmed the information about a clinical study on ClinicalTrials.gov as accurate and current. If a study with a recruitment status of recruiting; not yet recruiting; or active, not recruiting has not been confirmed within the past 2 years, the study's recruitment status is shown as unknown.
January 1, 2026

More Information

Terms related to this study

Keywords

Additional Relevant MeSH Terms

Other Study ID Numbers

Other Study ID Numbers

Identifiers or ID numbers other than the NCT number that are assigned to a clinical study by the study's sponsor, funders, or others. These numbers may include unique identifiers from other trial registries and National Institutes of Health grant numbers.
  • 326527

Plan for Individual participant data (IPD)

Plan to Share Individual Participant Data (IPD)?

YES

Drug and device information, study documents

Studies a U.S. FDA-regulated drug product

No

Studies a U.S. FDA-regulated device product

No

This information was retrieved directly from the website clinicaltrials.gov without any changes. If you have any requests to change, remove or update your study details, please contact register@clinicaltrials.gov. As soon as a change is implemented on clinicaltrials.gov, this will be updated automatically on our website as well.

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