The purpose of this study is to better understand the effectiveness and safety of microbiome therapies (MT) as a treatment for patients with Multidrug Resistant Organism (MDRO) colonization after an infection. Limited data from prior studies suggest that MT may be an effective treatment to reduce intestinal MDRO colonization Although shedding of MDROs from patients to their surrounding environment is a recognized pathway of transmission, the potential effect of MT on the transmission of MDRO to other patients in the hospital environment is unclear. This study will test the safety and efficacy of MT for this use in hospitalized patients. This study will also help design larger studies. The MT may help reduce MDROs that colonize the gut. By reducing colonization before infections happen, this could help doctors avoid using "last resort" antibiotics that can have serious side effects like kidney damage. The reduction in MDROs after MT was originally identified in patients treated with MT for recurrent Clostridioides difficile (often called "C. diff") diarrhea. It has been shown that a type of MT called fecal microbiota transplant (FMT) can eliminate both C. difficile and other resistant bacteria.
Antimicrobial resistance (AR) has been declared by the World Health Organization to be one of the greatest threats to global health. Every year, at least 2 million people are infected with antibiotic-resistant bacteria, and over 23,000 die from such infections. This study aims to take initial steps to directly address these public health priorities and clinical threats of MDRO by estimating the safety of the IP in reducing patient-level intestinal MDRO colonization as well as the effect of the IP on environmental contamination. FAIR is a phase 2, randomized, placebo-controlled, double-blind, parallel, clinical trial of the IP for the treatment of MDRO colonization. The hypothesis is that lyophilized human intestinal microbiota will safely and efficaciously reduce MDRO colonization. This is a randomized, controlled, clinical trial with two arms: a placebo arm and an intervention arm. The target population will include 40 adult inpatients with multi-drug resistant organisms (MDRO) colonization after infection. Target MDRO colonization is defined as a positive clinical microbiology bacterial culture and antibiotic susceptibility result that is consistent with one or more of the following: carbapenem-resistant Enterobacteriaceae (CRE), vancomycin-resistant Enterococcus spp (VRE), extended-spectrum β-lactamase (ESBL) producing Enterobacteriaceae, multidrug-resistant (MDR) Acinetobacter and/or MDR Pseudomonas
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
TREATMENT
Masking
TRIPLE
Enrollment
40
Participants will receive a single course of study treatment (IP, Encapsulated Microbiota): Orally delivered, non-frozen, encapsulated investigational intestinal microbiota, consisting of 16 capsules. One dose (8 capsules) is administered daily (QD) for 2 days. The capsules are to be taken orally with water on an empty stomach. Each dose will be taken approximately every 24 hours, with a minimum of 12 hours from the previous dose to a maximum of 36 hours. Both doses must be completed within the stated 36 hours ±12 hours. Depending on the time of the first dose, dosing may occur over 3 calendar days. A second cycle will begin and a second treatment will be given if the participant is still MDRO positive on Day 14 of Cycle 1. If applicable, Cycle 2 will begin within 7 days of Day 14.
Participants will receive a single course of study treatment (Color-matched placebo capsules containing microcrystalline cellulose (MCC) powder), consisting of 16 capsules. One dose (8 capsules) is administered daily (QD) for 2 days. The capsules are to be taken orally with water on an empty stomach. Each dose will be taken approximately every 24 hours, with a minimum of 12 hours from the previous dose to a maximum of 36 hours. Both doses must be completed within the stated 36 hours ±12 hours. Depending on the time of the first dose, dosing may occur over 3 calendar days. A second cycle will begin and a second treatment will be given if the participant is still MDRO positive on Day 14 of Cycle 1. If applicable, Cycle 2 will begin within 7 days of Day 14.
Emory University Hospital Midtown
Atlanta, Georgia, United States
RECRUITINGEmory Rehabilitation Hospital
Atlanta, Georgia, United States
RECRUITINGEmory University Clinical Research Network
Atlanta, Georgia, United States
RECRUITINGEmory University Hospital (EUH)
Atlanta, Georgia, United States
RECRUITINGEmory University at Wesley Woods Hospital
Atlanta, Georgia, United States
RECRUITINGChange in stool MDRO colony-forming unit (CFU) density
MDRO colony-forming unit (CFU) densities from quantitative stool cultures in placebo vs IP-treated participants.
Time frame: Day 0, day 14 of last cycle (each cycle is 14 days), and 28 weeks
Change in proportion of MDRO colonized participants after last treatment cycle with the investigational product (IP)
Proportion of stool cultures positive for any target MDRO will be compared in IP-treated vs placebo-treated participants.
Time frame: Day 0, day 14 of last cycle (each cycle is 14 days), and 28 weeks
Estimate safety of the IP for MDRO colonization after infection
The frequency of adverse events from IP efficacy for reducing recurrent MDRO infection will be assessed by the frequency of MDRO infections at 24 weeks
Time frame: Day 0, day 7, day 14 of last cycle (each cycle is 14 days), and 28 weeks
Severity of adverse events caused by administration of the investigational product
Severity of adverse events after administration of MT will be graded as mild, moderate or severe, form the time of MT administration up to 24 weeks.
Time frame: Day 0, day 7, day 14 of last cycle (each cycle is 14 days), and 28 weeks
Estimate efficacy of the IP for reducing recurrent MDRO infection
Efficacy will be measured by the frequency of MDRO infections from Day 0 of the first cycle until 24 weeks
Time frame: Day 0, 24 weeks post Day 14 of last cycle (each cycle is 14 days)
Time to recurrent MDRO infection after IP administration
Time to recurrent MDRO infection from Day 0 of first cycle censored at last final safety visit, or death.
Time frame: Day 0, 24 weeks post Day 14 of last cycle (each cycle is 14 days)
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