View clinical trials related to Clostridium Difficile.
Filter by:The investigators will conduct a two-period, two-intervention, cluster randomized crossover (CRXO) designed study at Foothills Hospital in Calgary, Alberta. Each cluster (hospital ward) will receive each of the two interventions in a separate approximately 6-month period of time leading to two "cluster-periods" with associated "wash-in" and "wash-out" periods attached. The two interventions are: 1) a rapid diagnostic test (RDT) using near-patient testing (NPT) for C. difficile infections (CDI); 2) testing for CDI using centralized testing facilities (standard operating procedure, 2 step algorithm). The investigators hypothesize that NPT for CDI will result in reduced patient isolation days in the hospital, decreased morbidity and mortality, reduced unnecessary antibiotic use and overall reduced costs to the health care system, including both hospital and laboratory. Our primary endpoint is to examine the differential effect of NPT on the duration of contact precautions (i.e. patient isolation days). Secondary outcomes will compare turn-around times from specimen submission to result, days of hospitalization, the number of days of antibiotic therapy, the incidence of CDI, severe CDI, and in-hospital mortality. A comprehensive economic evaluation will be performed to determine the cost of testing, patient isolation, and hospitalization for all patients in the control and treatment arms.
This study evaluates the effectiveness of a new intervention, fluoroquinolone (FQ) Preprescription Authorization (PPA) strategy, to reduce and prevent Clostridium difficile infection (CDI) in hospital intensive care units (ICUs). The investigators will model a successful FQ PPA strategy in several Wisconsin ICUs and compare whether the intervention has improved outcomes in reducing CDIs. An additional goal of the study is to evaluate environmental and work system factors using systems engineering models in order to determine the most successful way to implement these new strategies.
This study evaluated the safety and efficacy of VE303 for participants with primary C. difficile infection (pCDI) at high risk for recurrence or subjects with recurrent C. difficile infections (rCDI).
Clostridium difficile causes ~453,000 infections and ~29,300 deaths per year in the US, making it the most common hospital acquired infection in the country. C. difficile is an anaerobic bacterium that has the capacity to inhabit the colon of humans and other mammals. Initially thought to be a commensal, it was later found to be associated with antibiotic induced enterocolitis. Since then, it has gradually become one of the most important healthcare associated pathogens. C. difficile infection (CDI) causes colitis, which is inflammation of the colonic mucosa with a spectrum of severity from mild to more protracted diarrhea, abdominal pain, fever, toxic megacolon, sepsis, and in some instances death. Mortality occurs despite the existence of three antibiotic options. CDI is also associated with higher hospital readmission rates, and associated healthcare costs in the US are estimated at 4.8 billion dollars annually. Due to the significance of C. difficile in healthcare, hospital level C. difficile rates are publically reported and closely scrutinized by the Centers for Medicare and Medicaid. Standard infection control bundles are proving to be insufficient for controlling the national C. difficile problem. Better understanding of the biological steps preceding clinical infection and reversal of the underlying gut dysbiosis will allow us to curtail our C. difficile epidemic. The present study aims to manipulate the gut microbiota to halt the biological progression of C. difficile. CDI is a serious problem in hematology-oncology patients. The incidence of CDI in the hematology-oncology population is much higher than in other populations and hematology-oncology inpatient units frequently have the highest incidence of CDI cases within an institution. Additionally, hematology-oncology patients have high rates of C. difficile colonization upon hospitalization and more than 50% of patients detected with C. difficile colonization before bone marrow transplantation end up diagnosed with hospital associated CDI. This finding is not trivial as CDI treatment with oral vancomycin causes major and prolonged perturbations of their intestinal microbiota, which has been associated with higher mortality. In addition to the usual complications of CDI, a higher incidence of graft-versus-host-disease has been described in patients with CDI.
Fecal microbiota transplantation (FMT) has been very effective for patients who suffer from mild C diff infection (CDI) which recurs but it is unclear how effective FMT alone is in treating severe and fulminant CDI. Current evidence suggests that FMT in combination with vancomycin is required, and that multiple treatments are necessary. The investigators think fidaxomicin may be a better option in the context and may potentially reduce the number of FMT required. However, fidaxomicin has never been used to treat severe or fulminant CDI. In this pilot study, the investigators plan to use a combination of FMT plus fidaxomicin to determine efficacy and safety in treating patients with severe or fulminant CDI. The investigators want to see if this approach may reduce the number of FMT treatment required, and/or the length of hospital stay.
This study is an observational study to collect stool samples from patients with Clostridium difficile infection (CDI) to investigate the virulence mechanisms of C. difficile ribotypes in Hong Kong, mainly ribotype 002. No intervention is involved.
A total of 440 patients meeting enrollment criteria with a primary episode of C. Difficile Infection (CDI) will be enrolled across 3 sites. The total study time period for study procedures followed by clinical monitoring is anticipated to be about 24 months (biomarker assays and other analyses may be completed after the 24 month time period). All participants will receive oral antibiotics for CDI under the care of their physician. After consenting to participate in the study, participants will be randomized to receive either misoprostol (200 mcg po BID) or matching placebo for 14 days. Participants will be monitored for a total time-period of approximately 9 weeks with the goal of monitoring for recurrence of CDI during an 8-week follow-up period from the time that the course of antibiotic treatment is completed. Patients will have blood and stool samples (or rectal swabs if participants are unable to provide a stool sample) collected throughout the study to assess adherence, biomarkers, and to confirm recurrence of CDI (if necessary).
The digestive microbiota graft is performed in three clinical circumstances: Clostridium difficile colitis is responsible for numerous deaths each year showing a severe prognosis. In 2013, fecal microbiote (or digestive microbiota) transplantation showed its superiority compared to the reference treatment in recurrences of C. difficile colitis. Our team has demonstrated the value of early grafting in C. difficile-associated colitis associated with ribotype 027. This strain is associated with severe cases and high mortality. In view of the major benefit observed in these particular clinical situations, investigators have implemented since 2013 in C. difficile O27 colitis and then in 2014 in severe C. difficile colitis and since May 2016 for all patients. More than 100 transplants were performed in the department dividing the risk of mortality by 5. The investigators also demonstrated the value of early fecal grafting in severe colitis irrespective of the ribotype involved. In addition, The investigators want to evaluate our protocol of fecal microbiote transplant from the first episode of C. difficile colitis in the "Unit of contagion at IHU". 2- Antibiotic-resistant bacteria In the case of digestive colonization with emergent multi-resistant bacteria, the fecal transplant has proved its effectiveness.. 3- Chronic diarrhea without etiologies Finally, and after the other etiologies have been eliminated, the fecal graft may be used in this indication. The purpose of this study is to study the characteristics of patients who have undergone treatment by grafting of digestive microbiota according to a protocol standardized either by nasogastric tube or by freeze-dried digestive microbiota capsules in 3 indications: clostridium difficile Diarrhea, multidrug resistance bacteria and chronic unexplained diarrhea without altering patient management elsewhere. 200 patients (adults) hospitalized for an episode of C. difficile colitis, multidrug resistant bacteria or chronic diarrhea without etiologies will be recruited during a period of 3 Years. After treatment by grafting of digestive microbiota, and after signed consent, data were collected during their hospitalization and followed up at one month, 3 months, 6 month and 2 years. Data were analysed in order to determine the characteristics of patients benefiting from a digestive microbiota transplant according to a standardized protocol.
To assess the association between Clostridium difficile (CD) toxins' serum levels and the grade of Clostridium difficile infection (CDI) severity/failure to CDI treatment and rate of recurrence. Furthermore, the kinetics of CD toxins in serum of CDI patients undergoing anti-CDI treatment, as well as the relationship between serum toxins levels and length of CDI diarrhea will be evaluated.
Fecal microbiota transplantation (FMT) is acknowledged as a highly effective treatment for recurrent Clostridium difficile infection (CDI). Usually single fecal infusion achieves satisfactory cure rates of recurrent CDI). However, several retrospective studies show that severe clinical picture of recurrent CDI is a risk factor for the failure of single-infusion FMT, suggesting that multiple fecal infusions are required to cure this condition. This is an open-label randomized clinical trial aiming to assess if multiple-infusion FMT is more effective than single-infusion FMT in curing severe CDI