Early nCPAP with helmet improves oxygenation in selected immunosuppressed patients with hypoxemic acute respiratory failure. Tolerance of helmet nCPAP seems better than that of nCPAP delivered by mask.
Central venous access devices are often needed in neonates admitted to Neonatal Intensive Care Unit. The location of the tip of the central catheter is usually assessed by post-procedural X-ray. However, this strategy is inaccurate and time consuming. Recent guidelines strongly recommend intra-procedural methods of tip location, to increase the cost-effectiveness of the maneuver and to shorten the time between device placement and utilization. In this regard, real-time ultrasound represents the most promising tool for tip navigation and location in neonates. The aim of this paper is (a) to review all the evidence available about ultrasound-based tip navigation and tip location of central catheters in the neonatal population (b) to propose a novel protocol for tip navigation and location (Neo-ECHOTIP) based on such evidence.
Introduction: Transthoracic echocardiography with bubble test is an accurate, reproducible, and safe technique to verify the location of the tip of the central venous catheter. The aim of this study is to confirm the effectiveness of this method for tip location in patients with atrial arrhythmia. Methods: Transthoracic echocardiography with bubble test was adopted as a method of tip location in patients with atrial arrhythmia requiring central venous catheter. If bubbles were evident in the right atrium in less than 2 s after simple saline injection, tip placement was assumed as correct. In cases of uncertain visualization of the bubble effect, the test was repeated injecting a saline–air mixture. Tip location was also assessed by post-procedural chest X-ray. Results: In 42 patients with no evident P-wave at the electrocardiography, we placed 34 centrally inserted central catheters and 8 peripherally inserted central catheters. Transthoracic echocardiography with bubble test detected two centrally inserted central catheter malpositions. In four patients with peripherally inserted central catheter, transthoracic echocardiography with bubble test was positive only when repeated with the saline–air mixture. When the transthoracic echocardiography was positive, the mean (±standard deviation) time for onset of the bubble effect was 0.89 ± 0.33 s in patients with centrally inserted central catheter and 1.1 ± 0.20 s in those with peripherally inserted central catheter; such time difference was not statistically significant (p > 0.05). Conclusion: Tip location of central venous catheter by transthoracic echocardiography with bubble test is feasible, safe, and accurate in patients with atrial arrhythmia. This method can also be applied in peripherally inserted central catheters; however, further studies may be needed to confirm its use in this type of catheters.
Background: Subcutaneously anchored securement devices (or subcutaneous engineered securement devices) have been introduced recently into the clinical practice, but the number of published studies is still scarce. The Italian Group of Long-Term Central Venous Access Devices (GAVeCeLT)—in collaboration with WoCoVA (World Congress on Vascular Access)—has developed a Consensus about the effectiveness, safety, and cost-effectiveness of such devices. Methods: After the definition of a panel of experts, a systematic collection and review of the literature on subcutaneously anchored securement devices was performed. The panel has been divided in two working groups, one focusing on adult patients and the other on children and neonates. Results: Although the quality of evidence is generally poor, since it is based mainly on non-controlled prospective studies, the panel has concluded that subcutaneously anchored securement devices are overall effective in reducing the risk of dislodgment and they appear to be safe in all categories of patients, being associated only with rare and negligible local adverse effects; cost-effectiveness is demonstrated—or highly likely—in specific populations of patients with long-term venous access and/or at high risk of dislodgment. Conclusion: Subcutaneously anchored securement is a very promising strategy for avoiding dislodgment. Further studies are warranted, in particular for the purpose of defining (a) the best management of the anchoring device so to avoid local problems, (b) the patient populations in which it may be considered highly cost-effective and even mandatory, (c) the possible benefit in terms of reduction of other catheter-related complications such as venous thrombosis and/or infection, and—last but not least—(d) their impact on the workload and stress level of nurses taking care of the devices.
Central venous access devices are routinely used in pediatric care for administration of fluids and medications and for drawing blood samples. The adoption of ultrasound guided venipuncture, the availability of bedside ultrasound devices and the use of intraprocedural methods for tip location have been shown to reduce procedure-related complications, as documented by the recommendations of most recent guidelines. In pediatric patients, bedside ultrasound is a promising tool not only for optimizing the choice of the vein and guiding the venipuncture, but also for ensuring an accurate and intraprocedural method of tip navigation and tip location. The aim of this paper is to review all the evidence about the accuracy of ultrasound methods for tip navigation and tip location in pediatric patients, and to suggest a structured protocol for clinical practice.
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