View clinical trials related to Vascular Access Complication.
Filter by:This study is a retrospective, single center data collection to assess bleeding and vascular complications associated with TAVI when a SoloPath® Balloon Expandable TransFemoral Introducer is used for vascular access.
This study will look at the performance capabilities of software for VeinViewer.
Central venous catheterization is commonly applied in patients undergoing cardiac surgery. The subclavian vein has lower risk of infection and provides more patients comfort. However central venous catheterization may results in complications such as pneumothorax, hemothorax or arterial puncture. It has been suggested that ultrasound (US) guidance could improve the success rate, reduce the number of needle passes and decrease complications. Two different real-time 2-dimensional US techniques can be employed in the insertion of central venous catheters. The first technique involves real-time US-guided cannulation of subclavian vein using a long axis/in-plane approach. The second one involves real-time US-guided using a short axis/out-off-plane approach. However to date no studies have compared their efficacy and safety. The purpose of this study was to compare the US-guided long-axis versus short-axis approach for the SCV catheterization in adult critical care patients.
Transradial approach (TRA) reduces vascular complications and access related-bleeding compared to transfemoral approach (TFA). However, this technique has been related to higher radiation exposure during coronary angiography and percutaneous coronary intervention. Previous studies have shown that TRA demands a long learning curve, and procedure success rate increases with operator's experience. Our hypothesis is that the higher radiation exposure during TRA is not a technique issue, but due to operator's expertise. The aim of this study is to evaluate whether experienced operators with either TRA or TFA can perform diagnostic coronary angiography with similar radiation exposure.
Intravenous electrocardiographic guidance (IVECG) is a safe, reliable and accurate technique to correctly position the catheter tip. The investigators sought to evaluate the superiority of the P-maximal (P-max) wave compared to the P-submaximal (P-submax) wave in obtaining a more correct, safer and longer lasting device placement, with a lower incidence of complications and secondary misplacement.
Increased use of radial access for cardiac catheterization is being advocated because studies have showed lower arterial access related complication rates and higher patient satisfaction as compared to femoral access. However, little is known on patients with prior coronary artery bypass graft (CABG). The RADIAL CABG Trial is a randomized-controlled trial proposed to test the hypothesis that bypass graft angiography and intervention via radial access provides lower vascular complication rates, similar contrast and equipment utilization and higher patient satisfaction when compared with transfemoral approach.