Repositioning techniques for malpositioned neonatal peripherally inserted central catheters

Iatrogenic vascular trauma and complications of vascular access in children

Vascular access is frequently a critical component of the diagnostic and therapeutic procedures required to manage childhood illnesses, including many emergent conditions and critical illnesses. Vascular access in the pediatric population presents unique challenges, and many clinical and technical factors must be considered to avoid complications that can occur with vascular access procedures. This article reviews various aspects of vascular access and associated iatrogenic trauma in children, including risk factors, management of complications, and preventive measures to avoid complications. It is only with a comprehensive understanding of the topic that vascular access in children can be performed safely, effectively, and efficiently.

Repositioning of malpositioned peripherally inserted central catheter lines with the use of intracavitary electrocardiogram: A pediatric case series

INTRODUCTION

Peripherally inserted central catheter tip migration is an infrequent event that occurs in neonatal, pediatric, and adult patients. We discuss a novel technique of utilizing intracavitary electrocardiogram to help confirm proper peripherally inserted central catheter tip repositioning, thereby reducing the need for serial radiographs.

CASE PRESENTATION

A case series of four patients will be discussed. The first three patients had peripherally inserted central catheter tips that were initially appropriately positioned but had later peripherally inserted central catheter tip migration. The use of intracavitary electrocardiogram was able to confirm the appropriate repositioning of the peripherally inserted central catheters without the need for serial radiographs. The fourth patient had several central lines in place, which led to difficulty in identifying the peripherally inserted central catheter tip location. The use of intracavitary electrocardiogram confirmed proper positioning of his peripherally inserted central catheter tip when standard radiographs could not provide clarity.

DISCUSSION

Several techniques have been published on methods to reposition a migrated peripherally inserted central catheter tip back to the superior vena cava/right atrial junction. These repositioning techniques often require fluoroscopic guidance or a confirmatory radiograph to assess the appropriate peripherally inserted central catheter tip location. At times, several radiographs may be required before the tip is successfully repositioned. This novel application of intracavitary electrocardiogram can help to minimize radiographs when peripherally inserted central catheter tip repositioning is required.

Management of dysfunctional catheters and tubes inserted by interventional radiology

Minimally invasive percutaneous interventions are often used for enteral nutrition, biliary and urinary diversion, intra-abdominal fluid collection drainage, and central venous access. In most cases, radiologic and endoscopic placement of catheters and tubes has replaced the comparable surgical alternative. As experience with catheters and tubes grows, it becomes increasingly evident that the interventional radiologist needs to be an expert not only on device placement but also on device management. Tube dysfunction represents the most common complication requiring repeat intervention, which can be distressing for patients and other health care professionals. This manuscript addresses the etiologies and solutions to leaking and obstructed feeding tubes, percutaneous biliary drains, percutaneous catheter nephrostomies, and drainage catheters, including abscess drains. In addition, we will address the obstructed central venous catheter.

Fabrication and characterization of medical grade polyurethane composite catheters for near-infrared imaging

Peripherally inserted central catheters (PICCs) are hollow polymeric tubes that transport nutrients, blood and medications to neonates. To determine proper PICC placement, frequent X-ray imaging of neonates is performed. Because X-rays pose severe health risks to neonates, safer alternatives are needed. We hypothesize that near infrared (NIR) polymer composites can be fabricated into catheters by incorporating a fluorescent dye (IRDye 800CW) and visualized using NIR imaging. To fabricate catheters, polymer and dye are dry mixed and pressed, sectioned, and extruded to produce hollow tubes. We analyzed surface roughness, stiffness, dye retention, NIR contrast intensity, and biocompatibility. The extrusion process did not significantly alter the mechanical properties of the polymer composites. Over a period of 23 days, only 6.35 ± 5.08% dye leached out of catheters. The addition of 0.025 wt% dye resulted in a 14-fold contrast enhancement producing clear PICC images at 1 cm under a tissue equivalent. The addition of IRDye 800CW did not alter the biocompatibility of the polymer and did not increase adhesion of cells to the surface. We successfully demonstrated that catheters can be imaged without the use of harmful radiation and still maintain the same properties as the unaltered medical grade equivalent.

Neonatal peripherally inserted central catheter practices and their association with demographics, training, and radiographic monitoring: results from a national survey

The goal of this secondary analysis of results from a national survey of peripherally inserted central catheters (PICCs) practices in neonates was to determine whether demographics and types of training were associated with differing radiographic confirmation practices of these catheters. Correlational analyses were performed on the 2010 national database of neonatal PICC practices. The sample consisted of 187 respondents, representing 25% of the level III neonatal intensive care units (NICUs) of more than 20 beds in the United States. The key factors examined were geographic location, size of NICU, academic affiliation, and type of training related to radiographic confirmation of the catheter tip position, routine monitoring and reconfirmation of the catheter tip position following adjustments, and associated patient positioning practices for consistent evaluation of the catheter tip position. Formal training and annual retraining were statistically significantly associated with consistent patient positioning practices for more accurate monitoring of the catheter tip position and acceptable tip location. Size of NICU and academic affiliation were not associated with differences in practices. Adherence to specific national guidelines and recommendations for care of infants with PICCs is significantly impacted by formal training and annual retraining. This underscores the importance of education and annual retraining in preventing PICC-related complications beyond the crucial prevention of central line-associated bloodstream infections.

Evaluation of neonatal peripherally inserted central catheter tip movement in a consistent upper extremity position

OBJECTIVE

To compare the effect of standardized upper extremity position versus varied upper extremity positions on neonatal peripherally inserted central catheter (PICC) tip placement and movement. Secondary outcomes assessed were compliance with education, implementation, and complication rates.

STUDY DESIGN

Tip movement was analyzed between 136 post-PICC insertion x-ray pairs from 72 infants in the 6 months before and after standardization of upper extremity position. Tip movement was regressed over days between x-ray pairs, respiratory support, absolute weight change, and insertion vein.

RESULTS

There was no difference in PICC tip movement among varied analysis pairs or when standard position pairs were compared with pairs that were in a same nonstandard position. Days between x-rays, respiratory support, absolute weight change, and insertion vein did not predict tip movement. Attendance at education sessions was 100%. Compliance with the new standard was 73%. Complication rates were not significantly different.

CONCLUSION

Standardization of upper extremity position during neonatal PICC confirmation x-rays did not alter PICC tip movement.

Repositioning techniques of malpositioned peripherally inserted central catheters

AIMS AND OBJECTIVES

To describe potential repositioning techniques of malpositioned peripherally inserted central catheters.

BACKGROUND

Various repositioning methods have been applied in clinical practice in managing malpositioned peripherally inserted central catheters, and many of them are proved effective. However, little publication reviewed on those literatures describing repositioning techniques to malpositioned peripherally inserted central catheters.

DESIGN

Systematic review. The repositioning techniques were classified and concretely described according to different locations of malpositioned peripherally inserted central catheter tips.

METHODS

Literature and relevant guidelines were reviewed, focusing on malpositioned locations and incidence, as well as repositioning skills to peripherally inserted central venous catheters. Six databases were searched, including MEDLINE, web of science, CINAHL, Cochrane library, Wanfang database and Chinese National Knowledge Infrastructure. The articles (n = 21) were analysed using inductive content analysis.

RESULTS

The malpositioned locations of postplacement peripherally inserted central catheter tips mainly include right atrium, right ventricular, axillary vein, ipsilateral and contralateral internal jugular vein, subclavian vein, brachiocephalic vein, other small venous branches or catheter looped. Repositioning techniques contained automatic reposition, manual repositioning techniques, re-advancing catheters and catheters' replacement according to different malpositioned patterns.

CONCLUSIONS

The most appropriate repositioning techniques should be adopted on the basis of malpositioned locations, direction and length of the malpositioned tip, patients' integrated conditions and available medical equipments to maintain the catheter tip in the best position.

RELEVANCE TO CLINICAL PRACTICE

The repositioning techniques described in this review can be applied in clinical practice to ensure the infusion therapy through peripherally inserted central catheter more economical and safe.