View clinical trials related to Blood Stream Infection.
Filter by:Acute myeloid leukemia (AML) patients are prone to blood stream infection (BSI) due to bone marrow suppression, oral and gastrointestinal mucositis, endovascular tubes, and the application of a large number of broad-spectrum antibiotics. The associated mortality rate is as high as 7.1 %-42%. The use of antibiotics within one hour after the first observation of hypotensive symptoms can guarantee a 79.9% survival rate. For every hour of delay, the patient's survival rate will drop by 7.6%. At present, the blood culture test cycle is long and the positive rate is low. Other infection-related indicators (PCT, CRP) or next-generation sequencing are not highly specific and easy to be misdiagnosed. X-ray, CT and other examinations only have a certain auxiliary value for the infected site. We need new diagnostic tools to accurately identify pathogens. Nano-seq is a next-generation sequencing technology for single-molecule, real-time sequencing and analysis. With ultra-long sequencing read length, it can quickly and accurately identify BSI pathogens types, and give appropriate drug sensitivity results based on drug resistance genes to meet the needs of 99.9% pathogen screening. At the same time, we hope to conduct a prospective evaluation to target high-risk groups of AML prone to BSI in the early stage. The intestine is the body's largest immune organ and the largest reservoir of microbial pathogens. The expansion of certain gut microbiota usually precedes BSI. If there is a correlation between the gut microbiota and MDR-BSI, the colonization and changes of the intestinal flora can be used to predict the risk of BSI in patients during treatment, and preventive measures such as early decolonization or biological intervention will reduce the risk of infection in the future. Combined with Nano-seq and various existing clinical pathogen detection technologies to reduce the occurrence and progress of clinical BSI.
Catheter related infections (CRIs) were found to be associated with several risk factors, including patient related risk factors such as age, gender, clinical status and catheter related risk factors such as the vascular access location, dwelling time, catheter type and number of lumens. In addition to the inserted solution type and the experience of the professional who performs the procedure ,These factors constitute important strategic points for actions to compare the infectious complications of peripheral versus central venous catheters in critically ill patients.
The primary study objective is to assess the rates of blood stream infection (BSI) from the use of Three-Chamber Bags (e.g., SmofKabiven®, Kabiven®, others) compared to Hospital Compounded Bags (HCBs) in patients requiring parenteral nutrition in Spanish hospitals.
Septic shock carries high mortality, which may be exacerbated by inappropriate initial therapy. Inappropriate therapy may result from unanticipated antimicrobial resistance. Conversely, positive blood cultures may result from contamination, leading to unnecessary therapy and procedures and possibly prolonged hospitalization. Clinicians may also resort to broad spectrum antimicrobials and be hesitant to de-escalate while awaiting susceptibility results. The investigators hypothesize that rapid identification of pathogens and antimicrobial resistance will ameliorate the above problems and improve time to optimal therapy, avoid unnecessary therapy and ultimately improve patient outcomes. While there are a number of in-vitro and uncontrolled clinical studies, there is a paucity of well-designed clinical trials objectively examining the real-world clinical and health-economic impact of such technology. To date only one randomised trial has been performed in the US (ClinicalTrials.gov NCT01898208), at a setting with low endemic rates of antimicrobial resistance. This is a companion study to NCT01898208. The investigators aim to study the clinical impact and cost-effectiveness of a strategy for rapid pathogen and resistance detection in a setting with a moderate to high levels of antimicrobial resistance.
Polymyxin B is already being used extensively in the USA and other parts of the world; its use is likely to rapidly increase due to the greater burden of infections caused by MDR Gram-negative bacteria and the growing awareness of the limitations inherent in the clinical pharmacology of CMS/colistin. Cross resistance exists between the two polymyxins and thus both must be dosed optimally; but the recently generated scientifically-based dosage regimens for CMS/colistin cannot be extrapolated to polymyxin B. It is essential that an adequately powered study is conducted to define the clinical PK/PD/TD relationships of polymyxin B and identify, using next-generation proteomics, biomarkers for early detection of kidney injury. This will allow the development of scientifically-based dosage regimens for various categories of patients and an adaptive feedback control clinical tool for optimized dosing of polymyxin B in future individual patients.
Approximately 444 subjects who are greater than or equal to 18 to 95 years of age, are non-pregnant, and are in the inpatient setting of one of the study sites will be evaluated to treatment efficacy. Analysis will include subjects with bloodstream infection (BSI) or pneumonia due to at least one of the following gram-negative bacilli organisms: Acinetobacter baumannii, Klebsiella spp, Escherichia coli, Enterobacter spp. and/or Pseudomonas aeruginosa that demonstrates in vitro non-susceptibility defined as extensively drug-resistant Gram-negative bacilli (XDR-GNB) which includes XDR-AB, XDR-PA and CRE. If a subject has both BSI and pneumonia at the time of study enrollment, they will be included as a subject with pneumonia. Objectives: Primary: •Determine whether the treatment regimen of Colistimethate sodium (colistin) combined with a carbapenem (imipenem or meropenem) is associated with a decreased risk for mortality compared to colistin alone for subjects with bloodstream infection (BSI) and/or pneumonia due to XDR-GNB. Secondary: •Determine what treatment regimen (colistin monotherapy or colistin combined with a carbapenem (imipenem or meropenem) is more likely to reduce the emergence of colistin resistance among XDR-GNB isolates during therapy.
Almost all (99%) of the neonatal deaths occur in lower and middle income countries. Most of these deaths are attributable to prematurity and infection. With the increasing rate of premature births in some settings, the mortality rate of over 50% among preterm babies in some of the developing countries require inexpensive hospital-based strategies to prevent fatal infections in newborns of these countries. As most of the deaths in preterm neonates are attributable to their vulnerability of infection, a potential low cost intervention like topical emollient therapy can be effectively directed to reduce infection related mortality and morbidity in the developing countries. Topical emollient therapy reduces the rate of infection by enhancing the skin barrier function, thus reducing trans-epidermal water loss consequently conserving heat and energy to promote growth. The broad goal of the study is to improve the survival rate of hospitalized preterm neonates in the developing countries by decreasing the incidence of infection using low-cost interventions. HYPOTHESIS: It is hypothesized that topical emollient therapy with coconut oil twice a day till 28th day of life in hospitalized preterm neonates reduces the incidence proportion of hospital acquired infection by 40% 15 as compared to routine skin care. For the secondary objective it is hypothesized that the weight gain in the neonates receiving prophylactic application of emollient, which is coconut oil twice a day till 28th day of life, is at least 2g/kg/day18 more as compared to the weight gain in the routine skin care group.