Trials / Active Not Recruiting

Active Not RecruitingNCT05622721

REMBRANDT: REcovery of the MicroBiome fRom Antibiotics for Dental implanTs

Impact of Pet Contact on Antimicrobial-associated Dysbiosis and Clostridioides Difficile Infection

Summary

Antimicrobial therapy can lead to disruption of the gut microbiome and infection with Clostridioides difficile, a disease associated with high morbidity and mortality, particularly among the elderly. Drawing on observations that pet ownership and close contact with pets are protective against colonization with C. difficile and recurrence of C. difficile infection, the proposed study will test the hypothesis that microbiota that provide colonization resistance against C. difficile are shared between patients and their pets and that pet contact can mitigate antimicrobial-associated gut dysbiosis and the risk of C. difficile infection. This study will further define epidemiologic and pathophysiologic characteristics of C. difficile infection and gut microbiome dysbiosis that could enhance therapeutic options for these conditions, potentially through non-invasive interventions involving animal contact.

Detailed description

Clostridioides difficile infection (CDI) is one of the most common causes of healthcare-associated infectious diarrhea and results in significant morbidity and mortality. CDI occurs when the native gut microbiome is disrupted, most often following antimicrobial therapy, and the consequent dysbiosis results in a decrease in microbial diversity, changes in abundance of certain bacterial taxa, and loss of colonization resistance against C. difficile. Restoration of a "functionally intact" gut microbiome is critical to clearing C. difficile, and inadequate restoration can lead to recurrent CDI. The recovery of the gut microbiome from dysbiosis is poorly understood, and factors associated with having and re-gaining a providing colonization resistance against C. difficile are not well known. While animal reservoirs can serve as potential sources of pathogenic bacteria, studies by the candidate and other investigators found that pet ownership protects against colonization and re-infection with C. difficile. Moreover, microbiota are shared between pets and their owners, and the microbiomes of pets contain bacterial taxa that provide colonization resistance against C. difficile. Based on these data, the proposed research will 1) test the hypothesis that the observed protective effects of pet ownership are due to sharing of microbiota that provide colonization resistance against C. difficile between pets and owners; 2) determine whether pet contact mitigates antimicrobial-associated disruption of the gut microbiome and enhances its recovery; and 3) assess whether pet contact decreases the likelihood of colonization and infection with C. difficile following antimicrobial therapy. This will be accomplished though longitudinal sampling of the gut microbiome within the patient/pet unit among patients receiving prophylactic antimicrobials for non-enteric indications (dental implants). The study will further define epidemiologic and pathophysiologic characteristics of CDI that could enhance therapeutic options for this disease. The underlying premise that animals are a source of protective microbiota rather than a reservoir of C. difficile represents a paradigm shift in CDI epidemiology that may identify animal contact as a novel microbiome-based form of therapy.

Conditions

• Dysbiosis
• Clostridium Difficile
• Pet-Human Bonding
• Antibiotic-Associated Colitis

Timeline

Start date

2022-05-30

Primary completion

2026-05-01

Completion

2026-05-01

First posted

2022-11-21

Last updated

2026-03-06

Locations

1 site across 1 country: United States

Source: ClinicalTrials.gov record NCT05622721. Inclusion in this directory is not an endorsement.