View clinical trials related to Communicable Diseases.
Filter by:Nearly half of child deaths occur during the neonatal period, and 80% of those occur in babies with low birthweight. Although tremendous progress has been made towards reducing under-five mortality globally, declines in neonatal mortality lag behind those observed in older children. Low birthweight babies are at increased risk of poor outcomes compared to those who are term-appropriate for gestational age, including mortality, stunting, and growth failure. Recent evidence has demonstrated that the incidence of wasting and linear growth failure is highest between birth and 3 months of age, substantially earlier than previously thought. Interventions are urgently needed to improve outcomes in low birthweight babies; however, these interventions must not interfere with breastfeeding and thus some well-established interventions used to treat or prevent malnutrition in older children cannot be considered. The investigators recently demonstrated that biannual mass azithromycin distribution reduces all-cause childhood mortality by approximately 25% in infants aged 1-5 months, with stronger effects seen in underweight infants. This study did not include neonates due to the risk of infantile hypertrophic pyloric stenosis (IHPS) that has been hypothesized to be associated with macrolide use during early infancy. However, our study team documented only a single case of IHPS among 21,833 neonates enrolled in a trial of azithromycin versus placebo administered to neonates aged 8-27 days for prevention of infant mortality, documenting no major risk of IHPS associated with azithromycin. Here, the investigators propose an individually randomized trial where participants will receive a single oral dose of azithromycin (administered either during the neontal period or 21 days after enrollment), two does of oral azithromycin spaced 21 days apart, or two doses of placebo to evalute if azithromycin improves nutritional outcome and reduces infectious burden among neonates aged 1-27 days who are either low birthweight (<2500 g at birth) or underweight (weight-for-age Z-score < -2 at enrollment). The primary outcome will be weight-for-age Z-score at 6 months of age compared between arms. The investigators anticipate that the results of this study will provide definitive evidence on azithromycin as an early intervention for low birthweight/underweight neonates, who are at the highest risk of adverse outcomes.
Rationale: Early diagnosis of sepsis in neonates is complicated as the signs and symptoms are nonspecific. Although blood culture is the gold standard for the diagnosis, false-negative results and long incubation period of 36-72 hours limits the use of blood culture to rule out sepsis at initial suspicion. Since delay in diagnosis may lead to progressive deterioration, antibiotics are often started empirically at initial sepsis suspicion, awaiting results of the blood culture. Consequently, uninfected infants are often unnecessarily exposed to empirical antibiotics. To reduce unnecessary treatment of non-infected infants, an early, sensitive and specific diagnostic tool would be helpful to guide clinicians faster when to discontinue antibiotics. Molecular Culture (MC) via IS-pro is a novel, advanced, molecular culture technique which is able to culture bacteria within 4 hours after blood sampling. MC might thus be a potential diagnostic tool to detect or rule out sepsis in infants quickly, however data on MC for diagnosis of sepsis in this population is limited. Objective: The aim of this study is to evaluate whether MC is of additive predictive value for the diagnosis sepsis in this vulnerable group. Study design: Prospective observational cohort study. Study population: All infants suspected for neonatal sepsis of both early and late onset will be eligible for study participation. They will be treated according to the standard local guidelines. Intervention (if applicable): In case of a suspicion of sepsis at birth, blood will be collected for a conventional blood culture as part of standard care. Additionally, a blood sample will be collected from the umbilical cord for MC. In case of a suspicion of sepsis not directly postpartum, an additional blood sample will be taken for MC analysis, directly following sampling for conventional culture, implying no extra phlebotomy. Main study parameters/endpoints: The main study parameter is the discordance in positive and negative outcomes of MC compared to outcomes of conventional blood culture. As the diagnostic accuracy of the conventional blood culture (the current gold standard) is being questioned, the predictive value of MC versus conventional blood culture towards clinical sepsis will also be tested.
The aim of this diagnostic accuracy study is to evaluate the application of artificial intelligence on the diagnosis of Helicobacter pylori infection and premalignant gastric lesions based on upper endoscopic images. We use techniques of artificial intelligence to analyze the correlation between endoscopic images and urea breath test results/histopathological results.
Within the Denali study the effect of 3 weeks intervention with GOS on the abundance of Bifidobacterium in faecal samples will be investigated.
This is a Prospective, multi-center study enrolling adults subjects presented to the ED/Urgent care, with symptoms consistent with lower respiratory infection (LRTI). The reason of this study is to demonstrate the MeMed BV can help clinicians make decisions about using antibiotics in patients with lower respiratory track infections and see how it would impact clinical outcomes, antibiotics use, hospitalizations, ED clinicians find ways to improve health and medical care.
Urinary tract hardware such as pig-tail catheters are are frequently used for management of urolithiasis or other obstructive pathologies. They are readily colonized by urogenital flora leading to asymptomatic bacteriuria. While asymptomatic bacteriuria is not per se a problem for patients, it may lead to severe infections in the context of hardware manipulation leading to mucosal damage (e.g. catheter exchanges or stone extraction). Such interventions therefore warrant an antibiotic prophylaxis. However, bacteria rapidly form biofilms on hardware; aside of fluoroquinolones, antibiotics have limited anti-biofilm activity. Furthermore, the widespread use of antibiotics has lead to resistant strains. Hence, novel antimicrobial strategies are needed. Recently, metabolism-based potentiation of aminoglycoside has shown high antimicrobial activity against persistent forms of bacteria such as biofilms in the context of murine catheter-associated urinary tract infections. Because of the highly favorable pharmacodynamic profile of aminoglycoside in the urinary tract and the metabolic potentiation, aminoglycosides can be reduced to levels with minimal toxicity. UROPOT aims to compare the efficacy of potentiated aminoglycoside to standard of care for (i) prophylaxis of asymptomatic bacteriuria during urinary hardware manipulations with mucosal trauma (Pig-tail catheter exchange, stone surgery with prior in-dwelling catheter, etc.) and (ii) sustained microbiological eradication through antibiofilm activity. UROPOT will compare the rate of post-interventional urinary tract infections (primary outcome). It will also assess safety and eradication potency (microbiological outcome).
The goal of this clinical trial is to evaluate the off-target/non-specific effects of the measles-mumps-rubella (MMR) vaccine in children.
This study is a cross-sectional study that examines the prevalence of Latent Tuberculosis Infection [LTBI], defined as individuals infected with Mycobacterium tuberculosis with no clinical evidence of disease, and the possible risk factors of LTBI in a large cohort of health care workers (HCWs) and students.
Congenital CMV infection is the leading cause of non-genetic deafness and neurodevelopmental disorders. Its prevalence in France is estimated between 0.3% and 1% of births depending on the study. Congenital infection is symptomatic in 10% of cases with a large clinical spectrum with different degree of severity. These sequelae develop progressively and fluctuate, which justifies prolonged follow-up of children for several years, even if they are asymptomatic at birth. There is yet no treatment with AMM in neonates or pregnant women. In France, screening for congenital CMV infection is widely debated. It remains oriented to certain newborns considered at risk or depending on their symptoms and varies with the practices of each Neonatology or Maternity Hospital. In the Regional Maternity of Nancy, a new screening protocol for congenital CMV infection was implemented from early 2019. It is based on screening by non-invasive salivary test (CMV PCR) in newborns at particular risk who are included in a registry open for this screening. The aim of this research was to assess the relevance of the proposed criteria in the Protocol for defining a population at risk of congenital CMV infection thus qualifying for CMV screening. The secondary endpoints are the modalities of the screening test, the evaluation of each risk factor for infection, and the study of affected patients (symptoms, therapeutic intervention, neurological and auditory outcome).
The study design is a randomized, open-label, clinical trial of omadacycline vs Standard of Care (SOC) antibiotics for bone and join infection (BJI) treatment. Study participants will have their BJI regimen chosen by their treating physicians, (typically Infectious Diseases for hardware and prosthetic joint infections, or multidisciplinary Limb Salvage team for diabetic foot infections) prior to enrollment. Then participants will be randomized to an omadacycline-containing regimen versus the a priori chosen SOC regimen. Participants must require between 4 and 12 weeks of therapy for their BJI. The exact duration of therapy will be decided by the participants' treating physician. At 12 weeks, if the treating physician wishes to extend therapy, participants receiving omadacycline will be transitioned to other SOC antibiotics. Once enrolled, participants will be followed via in-person clinic visits at the following intervals: weeks 0, 2, 4, 8, and 12. A final in-person visit will occur 2 weeks post-treatment completion. A phone survey will occur 3 months post-treatment completion. Participants in the SOC group will follow the same schedule. Oral once-daily dosing options for S. aureus and Coagulase negative Staphylococcus are essentially non-existent. Thus, omadacycline possesses a novel and advantageous option for BJI treatment. Its convenient dosing regimen will almost certainly be associated with improved adherence, and higher adherence may, in turn, improve clinical outcome. Investigators hypothesize that omadacycline will be a well-tolerated and efficacious oral antibiotic for BJIs and will be associated with improved adherence compared with standard of care oral antibiotics. Investigators believe omadacycline addresses the unmet need for an oral antibiotic that is well-tolerated and efficacious for use as a prolonged therapy for BJIs. To this aim, investigators will perform a randomized, open-label clinical trial of omadacycline to SOC antibiotics for BJIs.