19 Clinical Trials for Various Conditions
This study involves evaluating pediatric patients with central lines to determine differences in line complications and quality of life in those with a novel central line securement device (wrap) as compared to those who use a traditional securement device (dressing).
The goal of this study is to determine if early placement of a midline catheter in patients with a central venous catheter (CVC) will decrease the number of days the CVC is in place. Patients who are in the medical intensive care unit (MICU) and have a CVC may be approached to join the study. Those who meet study eligibility and provide written consent will be enrolled. The longer the CVC remains in place,the greater the chance of developing an infection or blood clot. Any IV line that is placed (CVC, midline, peripheral line) comes with the risk of infection or blood clots, although that risk is generally less with the midline and peripheral IV lines than a CVC. The treating team will make the decision when to remove the CVC. The timeline of removal will be compared to previous data collected on patients similar to the ones in this study. During their hospital stay, study patients will be monitored for how well the midline catheter is functioning as well as if they develop a catheter related blood clot or infection.
Appropriate delivery of adequate nutrition and medications in premature infants often requires central venous access in the form of a special IV called a PICC (peripherally inserted central catheter). While a necessary feature of neonatal intensive care, PICCs pose significant risk: among the most serious of these is infection. One common, successful infection control practice used in older children and adults involves the use of a lock, in which a fluid-filled syringe is attached to the end of an IV when it is not in use in order to prevent and/or treat clotting or infection. The solution is left for some period of time and is then either withdrawn from the line or flushed into the patient. The solution could be saline, antibiotics, other antiseptics, or any combination of these. However in the premature infant, use of antibiotics as a locking compound risks leaving behind organisms resistant to treatment; antiseptics can irritate vessels and cause breakage to sensitive premature skin; saline has neither sterilization nor anti-infective properties. By contrast, ethanol neutralizes or kills most bacteria, viruses, and fungi without the risk of resistance, and because it is not externally applied there is no risk to baby skin. Ethanol-based lock protocols have been used safely and effectively in both adult and pediatric populations without adverse effects, but this has not been tested in premature babies because fluids and medication are delivered continuously: placement of a lock traditionally requires an extended pause (hours or days) in fluid and medication administration. To overcome these key limitations, a periodic, brief ethanol lock protocol was designed such that both infant exposure and interruptions to fluid and medication delivery would be minimized. The lock is practical, cheap, easy to place, and takes advantage of an existing daily pause during which IV tubing and fluids hooked up to the PICC are changed. The objective of this study is to test the hypothesis that use of a 70% ethanol lock, every 3rd day, for 15 minutes, will safely and effectively reduce PICC infection in our unit.
Patients on long-term parenteral nutrition (PN) are at high risk for central line-associated bloodstream infections (CLABSI). This study evaluates the efficacy and safety of ethanol lock therapy for CLABSI prophylaxis in adult patients on PN.
Central line-associated bloodstream infections (CLABSIs) are the most common healthcare-associated infection in children and are associated with morbidity and mortality. This study will attempt to identify the source of bloodstream infections (BSIs) in children with CLABSI because we hypothesize that many of the BSIs that are currently classified as CLABSIs are actually laboratory-confirmed bloodstream infections (LCBI) that may be a result of mucosal barrier injury (MBI), also known as MBI-LCBI. In order to study this, we will isolate bacteria from multiple body sites of children that have BSI in order to compare these bacteria to the strain growing in their blood using whole-genome DNA sequencing. We will also evaluate biomarkers of MBI of the respiratory tract and GI tract.
This randomized phase III trial studies chlorhexidine gluconate cleansing to see how well it works compared to control cleansing in preventing central line associated bloodstream infection and acquisition of multi-drug resistant organisms in younger patients with cancer or undergoing donor stem cell transplant. Chlorhexidine gluconate may help reduce bloodstream infections and bacterial infections associated with the central line.
A CVC is a sterile flexible tube that allows a drug to flow from a bottle or bag directly into a patient's bloodstream. CVCs may cause infections when bacteria gets into the catheter and enters the bloodstream. They also have a risk of becoming clogged. When this occurs, the CVC usually needs to be replaced. The goal of this clinical research study is to learn if an antimicrobial catheter lock solution can make it possible for the CVC to stay in place while treating an infection with antibiotics. The safety of the solution will also be tested. Your outcome will be compared to the outcome of patients who had the same type of infection but had their CVC removed. The antimicrobial catheter lock solution is made up of 3 chemicals: Minocycline and ethanol are designed to disinfect the CVC. Disodium ethylenediaminetetraacetate is designed to prevent the CVC from clogging.
Use of long-term central venous access devices (including tunneled lines and ports) can be associated with development of bloodstream infection caused by build-up of bacteria or fungus on the inside of the device, called central line associated bloodstream infection (CLABSI). This infection generally requires hospital admission and antibiotic therapy. This treatment usually helps eradicate the infection but sometimes it is not possible to clear or it comes back after treatment. Also, once someone has had one line infection the chance of getting another one is higher. This study will test whether treatment and secondary prophylaxis of CLABSI with ethanol lock therapy (ELT) can significantly reduce the risk of treatment failure (comprising failure to clear initial infection, relapse or reinfection) in children and adolescents treated for cancer or hematologic disorders or undergoing hematopoietic stem cell transplantation (HSCT). ELT involves injecting a solution of ethanol and water into the line or port, allowing it to dwell for 2 hours, and then withdrawing the solution.
This study an open label prospective observational cohort study to evaluate the safety and efficacy of sodium citrate 4% locking solution in preventing central line associated blood stream infection in children requiring long term central venous catheters for home parenteral nutrition. Sodium citrate 4% is FDA-approved for dialysis catheters, but has not been formally evaluated for use in tunneled catheters for parenteral nutrition. The rate of central line-associated bloodstream infection (CLABSI) and other potential adverse events will be monitored for 12 months, with the option to remain in the study for a longer period of time.
This study will be a multicenter, cluster randomized, step-wedged design. The unit of randomization will be the inpatient units admitted critically ill patients, with the interventions being carried out over 4 months. The study plans to enroll 14 units at 2 sites. Four sequences will be enrolled into the intervention each month; each sequence will have 3-4 units (see figure 1). Units eligible for the study will have patients that are critically ill admitted and have had at least 1 CLABSI events over the past 12 months (fiscal year). Given the pragmatic nature of the study design, there will be limited additional inclusion and exclusion criteria. Prior to the beginning the study, all nursing staff (RNs and nursing assistants \[NAs\]) will receive a survey link (RedCAP) to understand their perceptions of CHG bathing. After all units have been enrolled (approximately 4 months), nursing staff will be sent a post-survey to see if their perceptions have improved after the program. Further, the Context Assessment Index (used with permission; via RedCAP) will also be used to assess the context (i.e., culture) in which clinicians works and the effect this has on using evidence in practice. This will be provided to infection prevention champions on each unit one time, at the beginning of enrollment. All hospitals in the trial will receive access to site-level quality reports on CLABSI data. The interventions will include a "direct engagement" at the site level; this strategy will build upon current quality improvement interventions developed from the Agency for Healthcare Research \& Quality for optimization of care for critically ill patients at risk for CLABSIs. The multidisciplinary teams will include national key opinion leaders in quality improvement working with local infection prevention specialists and support staff to help healthcare systems and hospitals design or revise quality improvement plans. Units will receive feedback on quality improvement efforts, including audit and feedback reviewing their CHG bathing compliance and CLABSI rates. Duke will serve as the primary statistical center and analysis will be generated by Duke. The only risk in this study is the possibility of breach of confidentiality. The primary objective of this study is to assess the effect of a customized, multifaceted quality improvement \[QI\] program on compliance with daily chlorhexidine gluconate (CHG) bathing per the AHRQ protocol in inpatient units that admit critically ill patients. Further, we will assess the effect of this program on nursing staffs' perception of the importance of CHG bathing. The Context Assessment Index (used with permission) will also be used to assess the context (i.e., culture) in which clinicians works and the effect this has on using evidence in practice. The secondary objective of this study is to examine the effect of the QI program on central line-associated bloodstream infection (CLABSI) rates. Primary outcomes and CLABSI rates will be measured at 12 months to assess sustainability.
The Brigham and Women's Hospital (BWH) Patient Safety Learning Laboratory (PSLL) focuses on developing health information technology (HIT) tools to engage patients, family, and professional care team members in reliable identification, assessment, and reduction of patient safety threats in real-time, before they manifest in actual harm.
The purpose of this study is to see if applying parafilm as an external barrier on the central line in children having a bone marrow transplant helps to prevent central line associated bloodstream infection(s) and also to assess the ease of use of parafilm.
One group of hospitals participated in a collaborative approach for healthcare quality improvement while another group was provided only a tool kit. The investigators' objective was to determine if the Collaborative would perform better at preventing central line-associated bloodstream infections (CLABSI) and ventilator-associated pneumonias (VAP). Hospitals were randomized to the Tool Kit or Collaborative conditions. The investigators' study evaluated the effects on care processes and outcomes of a multi-institutional quality improvement initiative focused on preventing hospital associate infections. The investigators' hypothesis was that the strategies for implementing safe critical care practice will differ in level of achievement whereby the Collaborative group will perform better than the Tool Kit group. The outcome measure comprised clinical event rates and an index of safe practices that represent a bundling of key process measures related to evidence-based practices for preventing catheter-related blood-stream infections and ventilator-associated pneumonia in the intensive care unit.
In this research study we want to learn more about a study drug, tetrasodium sodium EDTA (Kitelock™) for maintaining the patency (blood flow) through a central venous catheter. Catheter occlusions such as blood clots have been shown to increase the risk of central line-associated bloodstream infection (CLABSI). This treatment consists of instilling a daily a dose of a solution , similar to heparin or saline lock flushes, into the catheter when it is not in use. The aim is to prevent CLABSI without increasing complications such as catheter breakage.
Umbilical catheters are necessary for many infants admitted to the Newborn Intensive Care Unit (NICU)and utilized when indicated for up to 7 to 14 days. Bacterial colonization can occur at the umbilical stump and potentially lead to serious bloodstream infections (BSIs). This study is a prospective, randomized controlled feasibility trial to evaluate three types of hygiene products on umbilical line stumps, on the effect of line colonization and subsequent infections. Infants admitted to the NICU with an umbilical line(s) will be randomized into one of four study groups, three products against standard of care (no product). The three products that will be evaluated are currently being used in different capacities for skin care in the University of Virginia (UVA) NICU. The study hypothesizes that twice daily topical application of 1 or more antiseptic to the top of the umbilical stump will decrease colonization of the umbilical stump while umbilical lines are in place.
Insertion and maintenance of central venous catheter (CVC) lines are common hospital procedures in patients, including those being treated for cancer. CVCs allow clinicians an access point for infusion of fluids, blood sampling, and measurements, decreasing the need for repeated needle sticks to the patient. However, bloodstream infections associated with CVCs (CLABSIs) are a serious complication, leading to significantly longer hospital stays, morbidity, and mortality. Keeping catheter ports disinfected reduces the risk of bloodstream infection; however, consistent and adequate maintenance and disinfection of the line can be difficult. The purpose of this study is to demonstrate that passive disinfecting caps can provide a patient safety practice that is easy for clinicians to follow, as well as providing easily auditable compliance, which may lead to lower CLABSI rates. The compliance rate for needleless connector disinfection will be evaluated after implementation of the passive disinfecting cap, and compared to the pre-intervention rate. The CLABSI rates before and after cap implementation will also be compared.
This study evaluates the use of 2% CHG washcloths in an outpatient setting for adults after hematopoietic stem cell transplant in prevention of central line associated blood stream infections. Half of the participants will use 2% CHG washcloths and other half will use placebo washcloths.
Vascular access via central venous lines (CVL) is essential to the care of many patients in the intensive care setting. While the value of these lines for the management of critically ill patients is generally accepted, the potential for line-associated blood stream infection is a known complication of the use of this intervention. Ethanol is an effective antimicrobial agent with activity against a broad spectrum of human pathogens. The purpose of this study is to evaluate the effectiveness of daily treatment of the catheter lumen with ethanol to prevent central line associated blood stream infections (CLABSI). The hypothesis is that this treatment will reduce the incidence of CLABSI compared to maintenance of the lines with normal saline alone.
This is a Phase 3, randomized, double-blind, controlled, adaptive, 2-arm, multicenter study to demonstrate the efficacy and safety of DefenCath in adult participants receiving home Total Parenteral Nutrition (TPN) via Central Venous Catheter (CVC) compared with heparin.