Appropriate length and position of the central venous catheter insertion via right internal jugular vein in children

Transesophageal echocardiography-guided implantation of totally implantable venous access devices via the internal jugular vein: retrospective analysis of 297 cases in pediatric patients

BACKGROUND

Accurately positioning totally implantable venous access device (TIVAD) catheters and reducing complications in pediatric patients are important and challenging. A number of studies have shown methods for locating the tip of the TIVAD catheter. We assessed the success and complications of TIVAD implantation guided by transesophageal echocardiography (TEE) via the internal jugular vein (IJV) for 294 patients in this retrospective study.

METHODS

From May 2019 to March 2021, 297 cases of TIVADs in our hospital were analyzed in this observational, non-randomized, single-center study. The position of the catheter tip under TEE and chest radiography and rates of periprocedural, early, and late complications were evaluated.

RESULTS

The implantation was successful in 242 (82.3%) cases which was in a proper position, and the results were consistent with those of postoperative chest radiography. A total of 72 complications were recorded. Of these, 1 case had a perioperative complication, 66 had early complications, and 5 had late complications after port implantation. The most common complications were local infection and catheter malposition, namely 10 (13.9%) cases of incision infection and 58 (80.6%) cases of catheter malposition. In total, 6 (8.3%) cases of port explantation were required.

CONCLUSION

Confirmation of proper TIVAD catheter positioning by TEE through an internal jugular approach in children was accurate and safe.

Trimmed central venous catheters in pediatric cardiac surgery: Does height or weight correlate with the amount trimmed?

BACKGROUND

Due to excess catheter length, pediatric patients undergoing cardiac surgery frequently have the tip of the central venous catheter trimmed while on bypass to obtain optimal catheter positioning.

AIMS

We sought to determine if there is a correlation between the patient's height or weight and the length of catheter removed. Our secondary aim compared the instances of central line-associated bloodstream infections and venous thromboembolisms between the trimmed and untrimmed catheters.

METHODS

This retrospective study included patients having undergone cardiac surgery over a 3-year period who had an 8 cm central venous catheter placed in the right internal jugular vein. Hospital lists of central line-associated bloodstream infections and venous thromboembolisms that occurred were cross referenced with our study patients.

RESULTS

There were 147 cases where the 8 cm central venous catheter was trimmed, which represents 35% of the cases. Of the catheters that were cut, on average 2.17 cm was removed. There is negligible correlation between the length of catheter removed and patient height (r = -.19, p = .021). There is negligible correlation between the length of catheter removed and patient weight (r = -.17, p = .039). There were no instances of central line-associated bloodstream infections or venous thromboembolisms attributed to the trimmed catheters. Of the 273 untrimmed catheters, there were no instances of an infection and one instance of a venous thromboembolism.

CONCLUSION

Right internal jugular 8 cm central venous catheters are trimmed during pediatric cardiac surgery, and there is minimal correlation between the length removed and the patient height or weight. Due to the difficulty in estimating the proper length of a central venous catheter in smaller pediatric patients, placing an 8 cm long catheter in these patients and then trimming the distal tip while on bypass may be the most accurate way to properly position a catheter.

Pediatric central venous catheterization: The Role of the Aortic Valve in Defining the Superior Vena Cava-Right Atrium Junction

The aortic valve (AV) has been used as a surrogate marker for the superior vena cava-right atrium (SVC-RA) junction during the placement of central venous catheters. There is a paucity of evidence to determine whether this is a consistent finding in children. Eighty-seven computed tomography scans of the thorax acquired at local children's hospitals from April 2010 to September 2011 were retrospectively collected. The distance between the SVC-RA junction and the AV was measured by dual consensus. The cranio-caudal level of the junction and the AV were referenced to the costal cartilages (CCs) and anterior intercostal spaces (ICSs). The results confirmed that the SVC-RA junction has a variable relationship to the AV. The junction was on average 3.1 mm superior to the AV. This distance increased with age. In the <1-year-old age group, the junction was on average 1.3 mm superior to the AV (range: -6 to 11 mm). In the 1-2 years old age group: 3.5 mm (range: -8 to 15 mm). In the 3-6 years old: 3.8 mm (range: -9 to 13 mm). In the >7 years old age group: 4 mm (range: -11 to 16 mm). The surface anatomy of the SVC-RA junction was variable, ranging from the second ICS to sixth CC. The SVC-RA junction has a predictable relationship to the AV, and this can be used as an adjunct marker for accurate placement of central venous catheters except in the smallest neonates. Clin. Anat. 32:778-782, 2019. © 2019 Wiley Periodicals, Inc.

Determination of the optimal depth of a left internal jugular venous catheter in infants: A prospective observational study

BACKGROUND

Few reports exist regarding the optimal depth of a left-sided central venous catheter in pediatric patients. We aimed to provide a guideline for the optimal depth of central venous catheters at the left internal jugular vein in infants, using anatomical landmarks, age, height, and weight.

METHODS

A two-stage study was conducted. In the first observational study, infants aged ≤1 year and scheduled for elective surgery requiring a central venous catheter were enrolled. The tip of the central venous catheter was confirmed using transthoracic echocardiography. Linear regression modeling was performed to determine the association between the insertion depth of the central venous catheter and the I-A-B distance (I, the insertion point; A, the sternal head of the left clavicle; B, the midpoint of the perpendicular line drawn between the sternal head of the right clavicle and an imaginary line between the nipples), based on age, height, and weight. In the second study, the results of the first study were validated in another group of consecutive infants.

RESULTS

In the first study, the data of 67 patients were analyzed. The infant's height and I-A-B distance were highly correlated with the level of the central venous catheter tip (R² =0.763 and 0.772, respectively; all P < .01), using the regression equations 0.11 ×  height (cm) + 0.19 and 1.02 ×  I-A-B (cm) + 1.55, respectively. In the second study, height was also highly correlated with the insertion depth of the central venous catheter in another 42 infants (r = .938, P = <.001). In a Bland-Altman's analysis, the mean bias and precision of the actual insertion depth and predicted depth using height were 0.09 and 0.15 cm, respectively. The limits of agreement were -0.19 and 0.38 cm, respectively.

CONCLUSION

In infants, the optimal depth of a central venous catheter at the left internal jugular vein can be determined with a simple formula using height.

[Avoidance of complications when dealing with central venous catheters in the treatment of children]

Central venous catheters (CVCs) are an important tool in the treatment of children. The insertion of a catheter may result in different complications depending of the type of catheter, the technique used for the insertion and the location. There are various techniques to reduce the risk of complications. In order to reduce the rate of complications of CVCs it is indispensable to perform a risk-benefit analysis for the individual patient before every insertion. The type of catheter used (for example tunneled catheters versus not-tunneled catheters) influences the rate of catheter-associated infections and the comfort of the patient significantly. The choice of the location is influenced by the expected indwelling time, the weight of the patient and the purpose of the CVC. Insertion via the vena jugularis interna is often chosen because of the reduced rate of complications during insertion. When the planned indwelling time of the catheter is longer or the child is fairly small the vena subclavia appears to be more appropriate. It is of utmost importance that the patient is positioned properly before insertion. Whenever possible the insertion should be performed with the help of ultrasound. The positioning of the catheter should be verified radiographically, possibly sonographically or with an ECG in order to avoid misplacement with potentially severe sequelae. The locally established hygienic guidelines should be strictly adhered to and everyone handling CVCs (doctors, nurses and patients) should have regular training.

A comparative study of two techniques (electrocardiogram- and landmark-guided) for correct depth of the central venous catheter placement in paediatric patients undergoing elective cardiovascular surgery

Background and Aims:

The complications of central venous catheterisation can be minimized by ensuring catheter tip placement just above the superior vena cava-right atrium junction. We aimed to compare two methods, using an electrocardiogram (ECG) or landmark as guides, for assessing correct depth of central venous catheter (CVC) placement.

Methods:

In a prospective randomised study of sixty patients of <12 years of age, thirty patients each were allotted randomly to two groups (ECG and landmark). After induction, central venous catheterisation was performed by either of the two techniques and position of CVC tip was compared in post-operative chest X-ray with respect to carina. Unpaired t-test was used for quantitative data and Chi-square test was used for qualitative data.

Results:

In ECG group, positions of CVC tip were above carina in 12, at carina in 9 and below carina in 9 patients. In landmark group, the positions of CVC tips were above carina in 10, at carina in 4 and below carina in 16 patients. Mean distance of CVC tip in ECG group was 0.34 ± 0.23 cm and 0.66 ± 0.35 cm in landmark group (P = 0.0001). Complications occurred in one patient in ECG group and in nine patients in landmark group (P = 0.0056).

Conclusion:

Overall, landmark-guided technique was comparable with ECG technique. ECG-guided technique was more precise for CVC tip placement closer to carina. The incidence of complications was more in the landmark group.

Defining Central venous Line Position in Children: Tips for the Tip

Purpose

The purpose of this study is to analyse literature related to the position of centrally inserted central venous catheters and to review topics related to assessment of tip position of those catheters in children. Applications of specific techniques to PICCs (Periferally Inserted Central Catheters) and umbilical venous catheter will also be reviewed.

Methods

Analysis of 68 original manuscripts, 42 specifically related to the paediatric population, 26 related to the adult population. The papers analysed were published between 1949 and 2014; all articles were in English except one in Italian and one in German.

Results

From the analysed literature, most of the guidelines recommend tip positioning at a level between the superior vena cava and the right atrium. Several methods have been described to evaluate tip position in the paediatric population, but none of those is considered completely reliable. The standard methods used to identify catheter tip position are radiography and fluoroscopy, but no specific landmark can be recommended in the paediatric population. The ultrasonographic approach has been investigated mainly for PICCs positioning in the neonatal population. The electrocardiographic method has been evaluated in the general paediatric population.

Conclusions

No specific recommendation can be given due to the low level of evidence. Ultrasound and ECG (electrocardiogram) techniques are a potential alternative to chest X-ray and further studies should be implemented to establish them. A wider application of these techniques may reduce neonatal and paediatric exposure to radiations and additionally reduce costs.