The journal of vascular access
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Case Reports
An unusual complication after placement of an inferior vena cava filter via right internal jugular vein access.
Totally implantable venous access devices are used extensively worldwide in cancer patients for administration of venotoxic agents, blood sampling, and nutrition. Their tip is usually positioned at the junction of superior vena cava and right atrium. Inferior vena cava filters are usually used for deep venous thrombosis in cases where anticoagulation is contraindicated; they can be inserted either via internal jugular or femoral access depending on patient conditions and preference. ⋯ Iatrogenic fracture of totally implantable venous access device is a potential complication of accessing the internal jugular vein for other procedures such as insertion of inferior vena cava filter.
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Multicenter Study
Decreasing dialysis catheter rates by creating a multidisciplinary dialysis access program.
Centers for Medicare and Medicaid Services have determined that chronic dialysis units should have <12% of their patients utilizing central venous catheters for hemodialysis treatments. On the Eastern Shore of Maryland, the central venous catheter rates in the dialysis units averaged >45%. A multidisciplinary program was established with goals of decreasing catheter rates in order to decrease central line-associated bloodstream infections, decrease mortality associated with central line-associated bloodstream infection, decrease hospital days, and provide savings to the healthcare system. ⋯ We conclude that a formalized access program decreases catheter rates, central line-associated bloodstream infection, and the resultant hospitalizations, mortality, and costs. Areas with high hemodialysis catheter rates should develop access programs to better serve their patient population.
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For arrhythmia treatment or sudden cardiac death prevention in hemodialysis patients, there is a frequent need for placement of a cardiac implantable electronic device (pacemaker, implantable cardioverter defibrillator, or cardiac resynchronization device). Leads from a cardiac implantable electronic device can cause central vein stenosis and carry the risk of tricuspid regurgitation or contribute to infective endocarditis. ⋯ Whenever feasible, one should avoid transvenous leads and choose alternative options such as subcutaneous implantable cardioverter defibrillator, epicardial leads, and leadless pacemaker. Based on recent reports on the leadless pacemaker/implantable cardioverter defibrillator effectiveness, in patients with rapid progression of chronic kidney disease (high risk of renal failure) or glomerular filtration rate <20 mL/min/1.73 m2, this option should be considered by the implanting cardiologist for future access protection.
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Peripherally inserted central catheters are venous devices intended for short to medium periods of intravenous treatment. Positioning of the catheter tip at the cavoatrial junction is necessary for optimum performance of a peripherally inserted central catheter. In this study, safety, effectiveness and cost-effectiveness of electrocardiographic-guided peripherally inserted central catheter positioning in a Dutch teaching hospital were evaluated. ⋯ Implementation of electrocardiographic-guided tip positioning for peripherally inserted central catheter was safe and effective in this study and led to an improved high value and cost-conscious care.
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Comparative Study Observational Study
The intracavitary electrocardiography method for positioning the tip of epicutaneous cava catheter in neonates: Pilot study.
The neonatologists of Sant'Anna and San Sebastiano Hospital of Caserta have carried out a pilot study investigating the safety, feasibility, and accuracy of intracavitary electrocardiography for neonatal epicutaneous cava catheter tip positioning. ⋯ We conclude that the intracavitary electrocardiography method is safe and accurate in neonates as demonstrated in pediatric and adult patients. The applicability of the method is 97% and its feasibility is 79%. The overall accuracy is 76% but it rises to 97% if "peak" P wave is detected.