Chronic Fatigue Syndrome Clinical Trial
Official title:
Fecal Microbiota Transplantation in Chronic Fatigue Syndrome - an RCT
Verified date | February 2024 |
Source | University Hospital of North Norway |
Contact | n/a |
Is FDA regulated | No |
Health authority | |
Study type | Interventional |
This is a single-center stratified (on gender and donor), block randomized, placebo-controlled, parallel group trial with 12-months follow-up of 80 chronic fatigue syndrome/encephalomyelitis (CFS/ME) participants. Participants will be randomized to treatment by preprocessed thawed donor fecal microbiota transplant or preprocessed thawed autologous fecal microbiota transplant. Primary endpoint is the efficacy of FMT at three months by the Fatigue Severity Scale. The investigators will use patient reported outcomes for primary and secondary outcome measures. Previous studies suggest that a dysbiosis of the gut microbiota may be a key feature in CFS/ME. We hypothesize that A: CFS/ME is caused by a dysbiosis in the gut flora causing barrier leakage of bacterial products, a low grade systemic immune activation and disturbances in the host energy metabolism. B: Recovery of a normal gut flora by fecal microbiota transplantation (FMT) alleviates symptoms and may even induce remission of CFS/ME. This project aims to determine if there is a true cause and effect relationship between a dysbiotic gut flora and CFS/ME by testing if treatment of the observed dysbiosis by FMT also can resolve CFS/ME symptoms. In this process, collection of blood, fecal, and urine samples before and after FMT will open the possibility to explore the relationship between the gut flora, immune response, host energy metabolism and CFS/ME using technologies of microbiomics, metabolomics and immunological characterizations for a better understanding of the pathobiology of CFS/ME.
Status | Completed |
Enrollment | 80 |
Est. completion date | December 31, 2023 |
Est. primary completion date | March 1, 2023 |
Accepts healthy volunteers | No |
Gender | All |
Age group | 18 Years to 65 Years |
Eligibility | FMT PARTICIPANTS Inclusion Criteria: - International Consensus Criteria for CFS/ME - 18-65 years - Mild-severe CFS/ME - Fatigue Severity Scale score of 5,0-7,0 - Symptom duration for 2-15 years Exclusion Criteria: - Kidney failure - Congestive heart failure - Immuno-deficiency or use of immune-suppresive drugs - Other disease that may explain ME/CFS symptoms discovered during diagnostic work up - Use of antibiotics the last three months, - Use of low dose naltrexone or Isoprinosin - Pregnancy or breastfeeding - Serious endogenous depression - Chronic infectious disease (HIV, hepatitis B or C etc.) - Introduction of new food supplements, change in diet or introduction of new medications the last three months - Assessed not be able to follow the instructions for data and sample collection - Very severe ME/CFS (WHO class IV) - Symptom duration of less than 24 months or more than 15 years - History of abdominal surgery, with the exception of appendectomy, cholecystectomy, caesarean section and hysterectomy - Previous treatment with FMT FMT DONORS Inclusion criteria: - Healthy - Age 16-30 years - Type 3 or 4 stool by the Bristol Stool Scale Exclusion criteria: - Use of peroral antibiotics past 3 months - Use of topical antibiotics past 2 months - Tattoo or piercing past 6 months - Former imprisonment - History of: -chronic diarrhea - constipation - inflammatory bowel disease - colorectal polyps - colorectal cancer - immuno-suppression - Obesity - Metabolic syndrome - Atopic skin disease - CFS/ME - Psychiatric disorders - Other serious autoimmune disease - Close relatives with serious autoimmune disease - High risk sexual behavior - Bowel movements that does not correspond to a Bristol Stool Scale type 3 or 4 - Journeys abroad the last six months to countries high in antibiotic resistance - Use of food supplements, pre-, -pro, -or symbiotics past one month - Dysbiosis grade 3 or more by the GA dysbiosis test |
Country | Name | City | State |
---|---|---|---|
Norway | University Hospital of North Norway, Harstad | Harstad | Troms |
Lead Sponsor | Collaborator |
---|---|
University Hospital of North Norway | Cornell University, Quadram Institute Bioscience, The Research Council of Norway, Umeå University |
Norway,
Type | Measure | Description | Time frame | Safety issue |
---|---|---|---|---|
Other | Engraftment of donor microbiota | Comparison between baseline profile, post FMT and donor profile will show if engraftment of donor mikrobiota parallels clinical response to active FMT. To assess fecal gut microbiota composition, morning stool samples will be obtained at baseline and three and twelve months after FMT. Participants will collect their first morning bowel movement in a 120ml container for storing in their home freezer (-20C). Two-four weeks after, samples will be collected from participants home and stored on dry ice during transport until freezing at -80°C at the University Hospital of North Norway Harstad. Fecal analysis will be done by NextSeq500 allowing for enhanced metagenomics (prokaryote and viral) sequencing. | 3 months after FMT | |
Other | Engraftment of donor microbiota | Comparison between baseline profile, post FMT and donor profile will show if engraftment of donor microbiota parallels clinical response to active FMT. To assess fecal gut microbiota composition, morning stool samples will be obtained at baseline and three and twelve months after FMT. Participants will collect their first morning bowel movement in a 120ml container for storing in their home freezer (-20C). Two-four weeks after, samples will be collected from participants home and stored on dry ice during transport until freezing at -80°C at the University Hospital of North Norway Harstad. Fecal analysis will be done by NextSeq500 allowing for enhanced metagenomics (prokaryote and viral) sequencing. | 12 months after FMT | |
Other | Difference in metagenomic profile between responders and non responder to FMT | To assess fecal gut microbiota composition, morning stool samples will be obtained at baseline and three and twelve months after FMT. Participants will collect their first morning bowel movement in a 120ml container for storing in their home freezer (-20C). Two-four weeks after, samples will be collected from participants home and stored on dry ice during transport until freezing at -80°C at the University Hospital of North Norway Harstad. Fecal analysis will be done by NextSeq500 allowing for enhanced metagenomics (prokaryote and viral) sequencing. | Baseline samples before FMT | |
Other | Change in the nature of host immune and antibody response | Analysis (multipex technology) of mediators in the innate and adaptive immune response | Change from baseline to 3 months and difference between responders and non-responders to treatment at 3 months | |
Other | Change in the nature of host immune and antibody response | Analysis (multipex technology) of mediators in the innate and adaptive immune response | Change from baseline to 12 months and difference between responders and non-responders to treatment at 12 months | |
Other | Difference in the nature of host immune and antibody response between responders and non responders to FMT | Analysis (multipex technology) of mediators in the innate and adaptive immune response | Baseline samples before FMT | |
Other | Change in the metabolome in feces, blood and urine | Analysis (mass spectrometry) on fecal extracts, urine and serum in order to assess the functional output of the microbiota | Change from baseline to 3 months and difference between responders and non-responders to treatment at 3 months | |
Other | Change in biomarkers for breach in gut epithelium (sLPS-binding protein and sCD14) before and after transplantation | Analysis (ELISA) of immunological markers associated with gut barrier leak (sCD14 and sLPS-BP) | Change from baseline to 3 months and difference between responders and non-responders to treatment at 3 months | |
Other | Change in biomarkers for breach in gut epithelium (sLPS-binding protein and sCD14) before and after transplantation | Analysis (ELISA) of immunological markers associated with gut barrier leak (sCD14 and sLPS-BP) | Change from baseline to 12 months and difference between responders and non-responders to treatment at 12 months | |
Other | Difference in biomarkers for breach in gut epithelium (sLPS-binding protein and sCD14) in responders and non responders to FMT | Analysis (ELISA) of immunological markers associated with gut barrier leak (sCD14 and sLPS-BP) | Baseline samples before FMT | |
Primary | Proportion with treatment success in FSS score in donor versus placebo FMT group. Treatment success is defined as an improvement of more than 1.2 points on the Fatigue Severity Scale (FSS) | Fatigue Severity Scale (FSS) is a self-reported, 9-item fatigue scale. Participants rate all 9 items on a 7-point Likert scale (1-2-3-4-5-6-7) depending on how appropriate they felt the statement applied to them over the preceding week. The total score is calculated by adding up the answer from each item and divide by 9. Lower scores indicate better outcomes. Maximum score is 7.
In an intention to treat analysis we will categorize participants as responders/non-responders, defining responders as decrease of more than 1,2 to the total baseline score in the FSS at 3 months post FMT by Chi Square. Baseline score will be the average of the two scores from the screening period. Missing values will be regarded as non responders |
Three months after treatment | |
Secondary | Change in donor versus placebo FMT group in fatigue by the Fatigue Severity Scale score | Change in Fatigue severity scale by repeated measures from baseline and until 1, 3, 6, 9 and 12 months after treatment | ||
Secondary | Change in donor versus placebo FMT group in quality of life by the SF36 score | The SF-36 consists of eight scaled scores (vitality, physical functioning, bodily pain, general health perceptions, physical role functioning, emotional role functioning, social role functioning and mental health), which are the weighted sums of the questions in their section. Each scale is directly transformed into a 0-100 scale on the assumption that each question carries equal weight. The lower the score the more disability. | Change in SF36 score by repeated measures from baseline and until 3 and 12 months after treamtent | |
Secondary | Change in donor versus placebo FMT group in neurocognitive function by the Repeatable Battery for the Assessment of Neuropsychological Status (RBANS) score from baseline and until 3 months after treatment. | RBANS is a neuropsychological assessment that consists of ten subtests which give scores to five domains: Immediate memory, visuospatial/constructional ability, language, attention and delayed memory. | Change from baseline and until three months after treatment | |
Secondary | Change in donor versus placebo FMT group in anxiety and depression by the Hospital Anxiety Depression Scale (HADS) score | HADS is an instrument with 14-items for detection of depression and anxiety in hospitalized patients. Scores range from 1-21 interpreted as: normal (0-7), mild (8-10), moderate (11-14), severe (15-21). Subscales for anxiety (HADS-A) and depression (HADS-D) is also defined. We will explore the FMT effects on HADS by an independent sample T-test (or, if necessary, non-parametric Mann-Whitney) comparing change in global score. We will apply last value forward for missing values. | Change in HADS score by repeated measures from baseline and until 3 and 12 months after treatment | |
Secondary | Change in donor versus placebo FMT group in gastrointestinal related complaints by the sum score of selected items in the DePaul Questionnaire (DPQ) (29, 30, 46 and 47) | The DPQ assesses key symptoms of ME/CFS such as fatigue, gastrointestinal complaints, post-exertional malaise, sleep, pain, neurological/cognitive impairments and autonomic, neuroendocrine and immune symptoms. At each item, participants have to rate the frequency and severity of the symptom on a scale from 0 to 4. We wil use the sum score from the questions that assess gastrointestinal complaints in the DPQ in this endpoint. This endpoint was implemented after 19 out of 80 participants had completed the three months follow up | Change in DPQ score by repeated measures from baseline and until 6 and 12 months after treatment | |
Secondary | Number of Participants with Adverse Events as a Measure of Safety and Tolerability | Participants will be screened for adverse events from the time of informed consent through the end of the trial. In case of an identified adverse event, this will be recorded and described in the CRF | Baseline to end of follow up at 12 months after FMT | |
Secondary | Change in HRV in donor FMT vs placebo FMT group derived from the R-R intervals in continuous ECG recordings. The primary vagal function outcome will be differences in changes from pre-post treatment between groups in High Frequency HRV (HF-HRV; in ms2 | Firstbeat Bodyguard will record R-R interval and the Firstbeat life style assessment software will analyze the R-R interval recording and provide the outcome measure | 3 months after treatment | |
Secondary | Change in HRV in donor FMT vs placebo FMT group derived from the R-R intervals in the resting continuous ECG recordings. The secondary vagal function outcome will be differences in changes from pre-post treatment between groups in RMSSD (RMSSD; in ms2) | 3 months after treatment | ||
Secondary | Difference in mean baseline HRV (HF-HRV and RMSSD) between responders vs non-responders to donor FMT. | As defined by the primary endpoint in the clinical study, a responder will be defined as an improvement of more than 1.2 points on the Fatigue Severity Scale (FSS) from baseline and until 3 months after treatment. To determine HRV in each group we will use High Frequency Power analysis denominating HRV in ms2. | 3 months after treatment |
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