A Survey of Training for Temporary Hemodialysis Catheter Insertion During Nephrology Fellowship in Canada: An Update

What was known before

Temporary hemodialysis catheter (THDC) insertion remains a core competency of nephrology training programs in Canada. In a 2012 survey, many nephrology trainees in Canada reported inadequate training to achieve competence in THDC insertion.

What this adds

Although nephrology trainees are performing fewer THDC insertions than before, they are reporting better training and self-perceived competence than in 2012. Simulation-based training may be a useful tool to help trainees achieve competence with fewer procedures being performed.

Background

Controversy exists as to whether the insertion of temporary hemodialysis catheters (THDCs) should remain a mandatory requirement of nephrology fellowship training in Canada.^1-4 Ensuring adequate training for anyone performing this procedure is an important patient-safety issue, as incorrect technique is likely to increase the risk of complications which can, in some cases, be fatal. ⁵ Nonetheless, a survey conducted by our group in 2012 indicated that many nephrology trainees in Canada reported inadequate training to achieve competence. ⁶ We sought to determine if training practices and self-perceived competence for THDC insertion amongst nephrology trainees in Canada had changed in light of the debate surrounding this issue in recent years.

Objectives

To determine the state of fellowship training for, as well as current practices and self-perceived competence of nephrology trainees in, performing THDC insertion.

Design

We conducted a Web-based survey study composed of 6 sections: demographics, details regarding the number and types of THDCs inserted within the past 6 months of fellowship training, adherence to sterility technique, the use of ultrasound guidance during THDC insertion, training of THDC insertion received before and during nephrology fellowship, and self-perceived adequacy of training and competence in THDC insertion. The survey was similar to one that was conducted by our group in 2012 ⁶ to allow for an assessment of changes in nephrology training and practices across Canada over this period. The complete survey (English version) is reported in Supplementary Item S1. The survey was made available to potential respondents in both English and French.

Setting and Participants

The survey was distributed by e-mail to adult nephrology trainees across Canada in May 2018, either directly or through their respective training programs. The target population was all adult nephrology trainees, including Royal College fellows and clinical nephrology fellows who were pursuing additional training. Pediatric nephrology trainees were excluded from the survey.

Measurements

Descriptive statistics were used to analyze the data obtained from the survey. The continuous variables, including the number of THDCs performed, were summarized using the mean and interquartile ranges (IQRs). The categorical variables were summarized using frequencies and percentages. A chi-squared test was used to evaluate the relationship between those who received simulation-based training and self-perceived confidence in either internal jugular (IJ) or femoral catheter insertion.

Methods

After obtaining approval from the Ottawa Health Sciences Network Research Ethics Board (Protocol 20180331-01H), an e-mail invitation that included a link to our Web-based survey was distributed to all adult nephrology trainees across Canada in May 2018, by contacting the program administrators of each nephrology training program. The survey was distributed toward the end of the academic year (beginning July 1) to ensure that trainees were more likely to have undergone at least 10 months of fellowship training. Follow-up e-mails were also sent to each trainee or training program after 4 to 8 weeks as reminders, to increase the participation of the survey.

Results

Completed surveys were received from 46 of 136 nephrology trainees across Canada (34%). The denominator of 136 trainees was determined using the number of trainees reported in the Canadian Post-M.D. Education Registry 2017 to 2018 Annual Census. ⁷ Responses were obtained from at least 1 trainee from 13 of the 15 Canadian subspecialty training programs that had at least 1 active nephrology trainee. One nephrology training program was noted to have no active nephrology trainees at the time the survey was distributed. Of those who responded, the median (IQR) number of THDCs, including both IJ and femoral catheters, inserted in the past 6 months was 3 (1-6). This included 8 respondents (17%) who indicated that they had not inserted a THDC in the prior 6 months of training. Of the 8 respondents who indicated that they had not inserted a THDC in the past 6 months, it was noted that at least 1 other trainee from their respective programs reported inserting one or more catheters over this time period. Table 1 reports the types of training for THDC insertion that the nephrology fellows reported as having received during their fellowship, their self-perceived competence for performing THDC insertions, and their adherence to the use of ultrasound and infection-control procedures. Supplementary Item S1 contains the complete survey and combined responses from the English and French versions.

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Table 1.

Selected Survey Results.

Topic		Responses: No. (%)
		Well trained and competent	Some training but not enough to feel competent		Little or no training
Self-perceived level of training and competence for THDC insertion (n = 42)	Internal Jugular	33 (79%)	6 (14%)		3 (7%)
	Femoral	25 (60%)	10 (24%)		7 (17%)
		No training	Lecture-based/didactic teaching	Hands-on/bedside teaching	Simulation-based training
Types of training for THDC insertion received during fellowship (n = 43)		12 (28%)	11 (26%)	21 (51%)	26 (61%)
Types of training for THDC insertion received before fellowship (n = 43)		0 (0%)	21 (51%)	33 (77%)	31 (72%)
		Always	Most of the time	Occasionally	Never
Routine use of ultrasound (n = 41)	Internal jugular (n = 31) a	29 (94%)	1 (3%)	0 (0%)	1 (3%)
	Femoral (n = 30) b	20 (67%)	2 (7%)	5 (17%)	3 (10%)
Basic infection-control adherence c (n = 39)		38 (97.4%)	1 (3%)	0 (0%)	0 (0%)
Use of head-to-toe sterile drape (n = 39)		24 (62%)	9 (23%)	0 (0%)	6 (15%)

Note. THDC = temporary hemodialysis catheter; N/A = not applicable.

a

Excludes 11 (27%) respondents who reported no insertions at that site within last 6 months.

b

Excludes 10 (24%) respondents who reported no insertions at that site within last 6 months.

c

Sterile gloves, gown, and face mask (use of all).

The receipt of simulation-based training during fellowship training was not significantly associated with self-perceived confidence in performing either IJ or femoral THDC insertion (χ² = 1.29, P = 0.26).

Discussion

Training and self-perceived competence for THDC insertion amongst nephrology trainees in Canada appears to be better than it was in 2012. Only 7 of 42 (17%) nephrology fellows reported that they were not competent to perform either femoral or IJ THDC insertions. Although it can be argued that nobody should feel this way for a procedure that is a requirement of training, in our nearly identical 2012 survey, 33% reported feeling the same way. ⁶ It is notable that, at the same time, the median number of THDC insertions reported in the past 6 months was only 3, as compared to 5 in 2012. ⁴ Thus, despite trainees reporting performing the procedure less frequently, they are now reporting being better trained and more likely to feel competent to perform the procedure, particularly at the IJ site. We suggest that this may be the result of a much higher proportion of trainees having received simulation-based training. Sixty percent of respondents reported having received simulation-based training during their nephrology fellowship training. This is in contrast to only 11% of respondents who reported having received simulation-based training in the 2012 survey. ⁶ Although the correlation between simulation training and self-perceived competence was not significant statistically, the overall impact of simulation training is difficult to assess in this small sample and also may be underestimated given that 38 of 42 (90%) respondents indicated that they received some form of simulation-based training either before fellowship or during their fellowship training. Trainees may be developing better central line insertion skills due to their earlier exposure to procedural simulation training. Studies have shown that simulation-based training can significantly improve residents’ skills in THDC insertion, with fewer needle passes required and increased self-confidence. ⁸ More broadly, simulation-based mastery learning (SBML) training programs for central venous catheter insertion have been shown to improve patient outcomes versus traditional training through a significant reduction in central line associated bloodstream infections. ⁹ Simulation-based mastery learning training encompasses basic ultrasound training as well as infection-control measures at the time of THDC insertion. We note that ultrasound use and adherence to infection-control procedures appears to have improved from 2012. ⁶ Although the causes for this are likely multifactorial, the increased use of simulation-based training may have played a role. We note that 7 respondents (17%) reported having received SBML training through a course that has been offered at the Canadian Society of Nephrology Annual Meeting on 3 occasions since 2014. This program was previously reported to provide an avenue to effective training to a mastery level outside of that offered at a program level. ¹⁰ Such programs provide an opportunity for SBML training for trainees from smaller programs that may not have the necessary infrastructure or expertise to provide it.

Limitations

There are a number of limitations to our study. First, trainees who responded to the survey were at different stages of their nephrology training. Although we deliberately sent out our survey toward the end of the resident calendar to target those who would have been in a subspecialty training program for a minimum of 10 months, the individual stages of training amongst respondents differ. In addition, since many trainees indicated that their programs did not require them to keep a log of the number of procedures performed, it is likely that in most cases, respondents’ estimates are prone to recall bias. Given the nature of the survey study, the results of self-reported competence in THDC insertion may also not accurately represent the true level of competence of each individual trainee.

Conclusion

Our survey suggests that nephrology fellows in Canada are performing fewer THDC insertions while reporting higher levels of self-perceived competence and better training. They are also reporting better adherence to the routine use of ultrasound and basic sterility measures than in 2012. At the same time, many more trainees are receiving simulation-based training. More broadly, our results suggest that simulation-based training may be allowing for adequate training for THDC insertion despite relatively few procedures being performed during training.

Supplemental Material