View clinical trials related to Catheter Complications.
Filter by:Peripheral intravenous catheters are necessary for in-hospital medical treatment. Malfunction due to occlusion or dislodgement is common, and increases the burden on health care. The aim of this study is to determine if the use of a new medical device has an impact on mechanical complications rate when peripheral intravenous (IV) catheter is used. The study will also investigate the safety, opinions of healthcare personnel and health economic effects of this new device,
Insertion of intravenous or intra-arterial catheter is one of the most common procedures in anesthesiology and intensive care medicine. After successful insertion, proper catheter fixation is required to maintain the catheter correct position with the aim to preserve catheter patency, prevent excessive movements of catheter or even iatrogenic catheter extraction/dislocation. Beside the historically preferred surgical fixation to the skin of the patient (invasive method, repeated percutaneous punction), atraumatic fixation by special dressing is currently available in clinical practice. In pediatric patients, due to limited cooperation, higher risk of dislocation exists.
Peripheral intravenous catheters (PIVCs) can be used frequently in pediatric hematology oncology patients. There are different types of PIVCs as open and closed. There are studies on adults using the closed IV catheter system, which is a type of PICK. However, no study was found in the literature in which the closed IV catheter system was used in the pediatric population.
The goal of this clinical trial is to compare a chlorhexidine impregnated dressing for peripheral intravenous catheters (PIVCs) to the standard dressing currently used in general medical and surgical inpatient wards. The main questions it aims to answer are: - Study Feasibility - Occurrence of infectious complications related to the PIVC Participants will be randomly allocated to receive either of the below dressings to cover and secure their PIVC: - The standard dressing used at their hospital, or - The intervention dressing which has Chlorhexidine gluconate (CHG) on it Researchers will compare standard and CHG dressings to see if the presence of CHG improves the occurrence of infectious complications related to the PIVC.
Epicutaneo-caval catheters (ECCs) are widely used in neonatal intensive care units (NICUs). They are small catheters inserted via superficial veins of the limbs or scalp using direct vein visualization The pathogenic microorganisms colonized inside catheters can easily form a bacterial biofilm and eventually spread with blood flow which causes bloodstream infection. Many authors have studied the antibiotic-lock therapy (ALT) in which a high-dose antibiotic solution is dripped and maintained in the catheter cavity for a certain period and can dissolve the biofilm formed on the wall to reduce the colonization of the bacteria and kill the embedded bacteria.The aim of the study is to evaluate the patency of the Epicutaneo-caval catheter after its closure for 1 hour.
The goal of this observational study is to learn about the effect on midline catheter outcomes when infusing irritant medications through midline catheter. The main questions it aims to answer are:Identify the current situation of infusing irritant medications through midline catheter;Explore the effect on midline catheter outcomes when infusing irritant medications through midline catheter;Identify specific medications that affect catheter outcomes.
The general purpose of this study is to assess the preliminary effectiveness and cost-effectiveness of the T-Control® catheter versus the Foley type catheter in patients with Acute Urine Retention.
The primary objective of this study is to evaluate the safety and technical feasibility of the Piccolo Medical SmartPICC System, indicated for guidance and positioning of commercially available central venous catheters, for PICC placement in adults.
Particulate contamination due to infusion therapy (administration of parenteral nutrition and medications) carries a potential health risk for infants in neonatal intensive care units (NICU). In-line filtration is increasingly used in critically-ill infants but its benefits, by preventing micro-particle infusion in neonates, remain to be demonstrated. In-line filters in the intravenous administration sets prevent the infusion of particles, which may reduce infectious complications.
The study aimed to assess the effect of position change and back massage versus early ambulation on post transfemoral coronary angiography complications.