View clinical trials related to Bacteremia.
Filter by:The purpose of this study is to determine whether the use of a single blood sample of 1cc in an aerobic bottle will provide a better yield and time to positivity than 2 samples of 0.5 cc in 2 (aerobic and anaerobic) bottles for blood cultures in neonates.
The purpose of this study is to determine whether routine sterile gloving can lower contamination rates in blood culture.
Intravenous catheters are placed in nearly every hospitalized patient. These catheters, since they are breaks in skin integrity, are potential sources of infection that occur in the bloodstream. Bloodstream infections can result in higher rates of death and lengths of hospital stay, as well as increase healthcare costs. Blood is drawn or medications delivered through a catheter access device attached to the catheter. In looking at new ways to decrease infections associated with healthcare, the investigators plan to test whether the use of a silver-coated catheter access device (VLINK) compared to the standard, non-coated device (CLEARLINK) can reduce infection rates. These devices are identical in design other than the silver coating of the VLINK, that imparts a brown color to the device. Silver can prevent the growth of bacteria inside the device (biofilm formation) in the laboratory, but this has never been proven in patients. The investigators propose to do a crossover study in two Emory-owned hospitals (Emory University Hospital and Emory University Hospital at Midtown), anticipated to last 10 months. Currently, both types of devices, (standard and silver-coated) are FDA approved for clinical use and are in use at both hospitals. The investigators plan to have each hospital use only one type of catheter access device for a period of time (approximately 5 months), and then switch ("crossover") to other type of device for the rest of the study. All patients admitted to either hospital (excluding newborns and patients with infections attributed to hemodialysis catheters) will be enrolled since both devices meet the standard of care. During the study, the infection prevention department, as a continuing part of their regular duties will measure infection rates. A small subset of catheters that are removed during routine clinical care (none will be taken out solely for the study) will be sent to CDC to determine the amount of bacteria inside catheters and catheter access devices (look for biofilm). Finally, the microbiology lab, again as part of its routine function will determine the rate at which blood cultures are falsely positive. All of these measures will be compared using statistical methods to see if there is a difference between the standard and silver-coated catheter access devices. In undertaking this study, the investigators will be using a type of vascular access device (valve, not positive pressure) already in use in both hospitals and not changing the delivery of care to patients while, in a rigorous, systematic manner, obtaining samples and data for analysis.
The presence of bacteremia and sepsis in percent of critically ill patients and none at all, associated with different expression and faction of Toll-Like-Receptors (TLRs.
Streptococcus pneumoniae (pneumococcus) is a bacterium that causes severe infections in children and adults such as meningitis, pneumonia, and blood stream infection. There are many types of these bacteria defined by the type of sugar coat that they have. These are classified as serotypes. There are common serotypes that cause severe disease and are preventable by vaccination of children. Other less common types are more difficult to prevent. The investigators aim to determine the serotypes that cause invasive pneumococcal disease in Lebanon and to study their sensitivity to different antibiotics. The investigators will collect bacterial isolates from different hospitals in Lebanon isolated from the blood or spinal fluid of patients with invasive pneumococcal disease. This information will help the investigators determine the usefulness of available pneumococcal vaccines in preventing these infections. The data will be distributed to all primary care physicians treating children in Lebanon and will be shared with the Ministry of Health.
The purpose of this study is to compare the safety and effectiveness of the HeRO Vascular Access Device in access challenged (e.g., catheter-dependent) hemodialysis patients. It is hypothesized the bacteremia rate associated with the HeRO device will be lower than a historical literature control of tunneled dialysis catheters.
The purpose of this study is to determine whether the application of 47% citrate lock solution decreases the incidence of infection and thrombosis of central venous catheter in hemodialysis population.
The overall aim is to validate the current use of FDG PET/CT for the diagnosis of infection and inflammation and examine the usefulness of PET/CT applying also other tracers. The results should allow us to confirm our primary hypothesis: "FDG-PET/CT is better than established methods to confirm or exclude the diagnosis of infection/inflammation".
In-vitro identification of S. aureus, methicillin-sensitive S. aureus (MSSA), and methicillin-resistant S. aureus (MRSA) from positive blood cultures by MicroPhage's bacteriophage-based diagnostic platform.
Patients who are preparing to receive chemotherapy are asked to have their teeth cleaned before starting treatment as standard of care. This research study is being done to see if having dental cleaning increases the chances of bacteria from the mouth getting into the blood stream. It is also being done to see if these bacteria can cause blood stream infections in people who have a Central Venous Catheter (CVC),often called a "port" or a "PICC", placed for giving chemotherapy. It is a well-established fact that we introduce bacteria from the mouth into the bloodstream with activities of daily life including chewing, flossing and brushing teeth. This introduction of bacteria into the blood stream may cause bacteria to stick to the central venous catheter and serve as a source of infection when the immune system is weakened by cancer. The purpose of this research study is to see if we can find bacteria from mouth in blood that is drawn through the CVC, during, and after a dental cleaning procedure. This way, we will be able to assess whether or not this is a potential health risk to cancer patients.