Clinical Trials Logo

Clinical Trial Summary

Purpose: To study the changes in the microbiome and stool composition in patients with Clostridium Difficile Infection (CDI) who undergo Fecal Microbiota Transplantation (FMT), along with changes in their clinical characteristics.


Clinical Trial Description

This is a prospective, descriptive cohort study. Patients will receive current standard of care. Once a potential subject is planned for FMT, they will be approached by study coordinators or investigators for participation in the study. If they agree to participate in the study, then patient health, medical and demographic information will be collected from the patient and/or from the medical record and entered into the research database, and associated with a research code with which the stool samples will also be labeled. The study coordinator will be responsible for ensuring completion of the study questionnaire, which consists of pre- and post-FMT sections. The questionnaire will be attempted to be administered in person by the physician or study coordinator at a clinic visit, but may on occasion be completed at home and mailed in to the study coordinator or physician, or completed over the phone with the study coordinator or physician. Stool preparations will be obtained by a nonprofit third party, OpenBiome, with whom the University of North Carolina has collaborated for over one year. Preparations include a 250mL (milliliter) preparation for lower administration, a 30mL preparation for upper administration, and frozen capsules (30 in one treatment) for oral delivery. The actual FMT procedure will be performed in the majority of cases by colonoscopy. Other possible routes of administration are via nasogastric or nasoduodenal tube (with upper formulation), enema and frozen oral tablets. The current preferred route of administration is via colonoscopy, based on observation (no head-to-head) trials showing improved efficacy, but standards of care may change in the future. In all cases, the route of administration will be based on patient characteristics and preferences, not for purposes related to the study. In all cases, informed consent for the treatment will be documented as guided by the Food and Drug Administration (FDA). The patient will stop all antibiotics (including vancomycin or other antibiotics against C. diff) at least 2 days prior to FMT. For all administrations other than oral capsules, patients will perform a bowel preparation with 4 liters of Golytely or equivalent osmotic laxative split between the evening prior to the procedure and the morning of the procedure. In a minority of instances, especially for pediatric patients, the patient may be electively admitted to the hospital the night before, to monitor medical stability during the preparation, facilitate bowel preparation, and provide intravenous hydration. The bowel cleansing preparation is generally taken orally, though in rare instances must be administered via nasogastric or nasoduodenal (NG/ND) tube. Hospital admission and bowel preparation via NG/ND tube will only be performed if indicated as standard-of-care, not for purposes specifically related to the study. For colonoscopic FMT, the procedure will be performed with anesthesia support at the UNC Memorial Hospital endoscopy unit. Sedation will be at the discretion of the treating anesthesiologist in agreement with the endoscopist, but generally consists of intravenous propofol, with monitored anesthesia care. For colonoscopic FMT, the patient is given two 2mg doses of loperamide orally, two hours prior to FMT, and is then to take an additional two capsules after recovery from anesthesia (recommended immediately upon arrival home, when an outpatient procedure). Donor stool is obtained from OpenBiome, a third-party stool bank that screens donors for medication use, allergies, and health-related conditions and prepares stool per a standard protocol including suspension in normal saline. 250ml of donor stool is used for colonoscopic FMT in patients with over one meter squared of body surface area. For small children this quantity may be reduced proportionately. The entire 250ml's are placed into the ileum, cecum and/or ascending colon, or at the extent reached by the colonoscope, via the operative channel of the colonoscope. Patients are asked to maintain a right lateral recumbent position as much as possible for the hour after infusion, to encourage permanence of the material in the proximal colon. Of note, the FMT colonoscopy does not include meticulous mucosal examination if not otherwise indicated, and as such is not a substitute for routine colorectal cancer screening. Patients are monitored by post-anesthesia care unit (PACU) personnel until ready for discharge, per standard unit protocol. For nasogastric or nasoduodenal administration, 30ml of donor stool is infused slowly over 1 hour. Before infusion, NG/ND tube placement is confirmed by X-ray per standard hospital protocol, according to standard hospital consent form. In rare cases where procedural sedation, colonoscopy or NG/ND tube is contraindicated, frozen oral capsules or enema may be used to administer FMT. With capsule administration, in addition to stopping antibiotics two days prior to the procedure, the patient takes proton pump inhibitor on the day before treatment and the day of treatment. There is no bowel preparation. The patient takes the 30 capsules orally under direct physician supervision within 90 minutes. Metoclopramide 5-10 mg x i may be taken one hour prior to the treatment. With enema administration, bowel preparation will be performed prior to administration. Bowel cleansing preparation, loperamide administration, and right lateral recumbency will be attempted as per colonoscopic FMT. The enema will be administered under direct physician supervision, as well. For the study, subjects who are undergoing the above treatment per standard of care will be asked to submit four (4) total stool samples. The first will be pre-FMT, at any time from 2 weeks prior to FMT (possibly at a clinic visit), up until directly before the pre-FMT bowel preparation. Post-FMT stool samples at 2 weeks (range 1-3 weeks), 2 months (range 7-9 weeks) and 6 months post-FMT. All stool samples will be collected according to the same protocol, described in a handout (entitled "Stool Collection Instructions") provided to participants. There are several options for submitting the sample, basically according to patient convenience. If they can produce a sample at a clinic visit, they can submit at that time. Alternatively, they will be provided supplies to safely collect and then store samples they collect at home in their own freezer. They will then have to deliver these samples to UNC (or possibly North Carolina State University [(NCSU)] if that is more convenient for a particular subject), which can be done at one visit with all of the samples, or in segments as they collect them. Before submission to the biobank, the samples will be labeled with the research code and any other identifying labels on the stool sample will be removed and destroyed. The de-identified stool specimens will be aliquoted in the research laboratory for storage at -80° Celsius. They will be transported by the study coordinators from UNC to a storage unit at NCSU. Research samples will be stored in a manner that will permit subsequent microbial DNA extraction, microbial cultivation and metabolite analysis. They will also be asked to complete a post-FMT section of the questionnaire, from which the main outcomes of FMT will be determined. They will be evaluated at two post-FMT clinic visits, which may correspond to first two post-FMT stool samples, where evidence for any possible adverse events or recurrences will be personally queried and evaluated. If patients do not attend any scheduled post-FMT visits, the study coordinator will attempt to contact them by phone and then by mail, both to encourage them to reschedule their clinic visit, of if this is not possible, then to at least obtain the questionnaire data. Primary aim (clinical outcomes): Descriptive statistics of the clinical outcomes, such as mean and median number of days of symptom duration, primary cure rate, percentage of subjects with resolution of diarrhea, abdominal pain, fatigue, etc will be calculated. Standard deviations and/or confidence intervals will be provided where appropriate. If statistical power allows, multivariate logistic regression models may be used to identify patient-level risk factors predictive of primary cure (such as sex, age, independent-living status, etc.). Secondary aims: Differences in pre-and post-FMT stool composition, and between early and late post-FMT samples, will be calculated with McNemar's test for significant differences in proportions of rRNA (ribosomal ribonucleic acid) sequences pertaining to the relevant bacterial phyla (Bacteroidetes, Firmicutes, and Proteobacteria), and paired t-tests and ANOVA's (or their non-parametric counterparts) for significant differences in Shannon diversity indices (a measure of bacterial diversity) and in concentrations of multiple bile acids. If these measures are different from pre- to post-FMT samples, then the relationship of percent differences in each stool parameter to clinical outcome will be evaluated using logistic regression with primary outcome of "primary cure" within two months of FMT, and a Cox proportional hazards model with the time variable as "days to primary cure" and the censor variable as "primary cure." Secondary analyses may be conducted with "any cure" as the outcome variable if repeat FMT is frequently needed. The investigators will also compare a sample of donor stool to the post-FMT samples with the same statistical tests, under the hypothesis that the closer that post-FMT stool resembles donor stool (and the more durable this resemblance), the better the clinical response. All statistical analyses will be performed at an alpha of 0.05. ;


Study Design


Related Conditions & MeSH terms


NCT number NCT03117582
Study type Observational [Patient Registry]
Source University of North Carolina, Chapel Hill
Contact
Status Completed
Phase
Start date December 2016
Completion date December 11, 2020

See also
  Status Clinical Trial Phase
Completed NCT02896244 - AssessmeNT of the Incidence of Clostridium Difficile Infections in Hospitalized Patients on Antibiotic TrEatment
Recruiting NCT06071312 - FMT in Patients With Recurrent CDI and Ulcerative Colitis: Single Infusion Versus Sequential Approach Phase 1/Phase 2
Recruiting NCT01973465 - Fecal Microbiota Therapy for Recurrent Clostridium Difficile Colitis N/A
Terminated NCT01048567 - Efficacy and Safety of Lactobacillus Acidophilus/Rhamnosus Combination for the Prevention of Antibiotic-associated Diarrhea in the Elderly Phase 2
Completed NCT01066221 - Comparative Study of Three Different Testing Mechanisms for Clostridium Difficile N/A
Not yet recruiting NCT03586206 - Relationship Between C. Difficile Toxins' Serum Level With C. Difficile Infection
Completed NCT02563106 - A Study of SYN-004 for the Prevention of C.Diff in Patients With a LRTI Phase 2
Completed NCT02207140 - Effect of Multi-species Probiotic HOWARU® Restore, on Gut Microbiota of Elderly Phase 0
Completed NCT02857582 - Transplantation of Cultured Gut Microflora to Repeat Antibiotic-induced Diarrhea Due to Clostridium Difficile Phase 2
Not yet recruiting NCT01942447 - Fecal Microbiota Transplantation in Recurrent or Refractory Clostridium Difficile Colitis N/A
Active, not recruiting NCT01703494 - Fecal Transplant for Relapsing C. Difficile Infection Phase 2
Completed NCT01813500 - Host Immune Response to Clostridium Difficile Infection in Inflammatory Bowel Disease Patients N/A
Completed NCT01087892 - Probiotics in Preventing Antibiotic Associated Diarrhoea Including Clostridium Difficile Infection N/A
Suspended NCT00591357 - Efficacy of Loperamide for C. Difficile Colitis and Other Diarrheal Diseases Associated With Antibiotic Therapy Phase 4
Recruiting NCT00377078 - Use of Recombinant Human Lactoferrin in Long-Term Care Patients With Feeding Tubes With Clostridium Difficile. N/A
Completed NCT02254967 - A Phase IIIB/IV Study to Compare the Efficacy of Vancomycin Therapy to Extended Duration of Fidaxomicin Therapy in the Clinical Cure of Clostridium Difficile Infection (CDI) in an Older Population Phase 4
Terminated NCT01775397 - A Post-marketing, Blinded Study to Investigate How Effective Fidaxomicin is Compared to Vancomycin in the Sustained Cure of Clostridium Difficile Infection in Adults That Are Receiving Therapy to Suppress the Immune System Phase 4
Terminated NCT03617172 - PROCLAIM -- Misoprostol in the Prevention of Recurrent CDI Prevent Recurrence of Clostridium Difficile Infection With Misoprostol Phase 2
Recruiting NCT05622721 - REMBRANDT: REcovery of the MicroBiome fRom Antibiotics for Dental implanTs
Completed NCT02437487 - SER-109 Versus Placebo to Prevent Recurrent Clostridium Difficile Infection (RCDI) Phase 2