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From insertion to removal: A multicenter survival analysis of an admitted cohort with peripheral intravenous catheters inserted in the emergency department

Published online by Cambridge University Press:  10 September 2018

Peter J. Carr*
Affiliation:
School of Nursing and Midwifery, the Alliance for Vascular Access Teaching and Research (AVATAR) Group, Menzies Health Institute Queensland, Griffith University, Brisbane, Australia Emergency Medicine, School of Medicine, The University of Western Australia, Nedlands, Australia
James C.R. Rippey
Affiliation:
School of Nursing and Midwifery, the Alliance for Vascular Access Teaching and Research (AVATAR) Group, Menzies Health Institute Queensland, Griffith University, Brisbane, Australia Emergency Medicine, School of Medicine, The University of Western Australia, Nedlands, Australia Sir Charles Gairdner Hospital, QEII Medical Center, Nedlands, Perth, WesternAustralia
Marie L. Cooke
Affiliation:
School of Nursing and Midwifery, the Alliance for Vascular Access Teaching and Research (AVATAR) Group, Menzies Health Institute Queensland, Griffith University, Brisbane, Australia
Niall S. Higgins
Affiliation:
School of Nursing and Midwifery, the Alliance for Vascular Access Teaching and Research (AVATAR) Group, Menzies Health Institute Queensland, Griffith University, Brisbane, Australia The Royal Brisbane and Women Hospital, Brisbane, Australia Queensland University of Technology, Brisbane, Australia
Michelle Trevenen
Affiliation:
Centre for Applied Statistics, The University of Western Australia, Nedlands, Australia
Aileen Foale
Affiliation:
Fiona Stanley Hospital, Murdoch, Australia
Claire M. Rickard
Affiliation:
School of Nursing and Midwifery, the Alliance for Vascular Access Teaching and Research (AVATAR) Group, Menzies Health Institute Queensland, Griffith University, Brisbane, Australia The Royal Brisbane and Women Hospital, Brisbane, Australia
*
Author for correspondence: Peter J. Carr, The Alliance for Vascular Access Teaching and Research Group, Menzies Health institute, Griffith University, Gold Coast Campus, Queensland 4222. E-mail: [email protected]

Abstract

Background

Most patients admitted to the hospital via the emergency department (ED) do so with a peripheral intravenous catheter/cannula (PIVC). Many PIVCs develop postinsertion failure (PIF).

Objective

To determine the independent factors predicting PIF after PIVC insertion in the ED.

Methods

We analyzed data from a prospective clinical cohort study of ED-inserted PIVCs admitted to the hospital wards. Independent predictors of PIF were identified using Cox proportional hazards regression modeling.

Results

In 391 patients admitted from 2 EDs, the rate of PIF was 31% (n=118). The types of PIF identified were infiltration, occlusion, pain and/or peripheral intravenous assessment score >2 (ie, the hospital’s assessment of PIVC phlebitis), and dislodgement (ie, accidental securement device failure or purposeful removal). Of the PIVCs that failed, infiltration and occlusion combined were the most common causes of PIF (n=55, 47%). The median PIVC dwell time was 28.5 hours (interquartile range [IQR], 17.4–50.8 hours). The following variables were associated with increased risk of PIF: being an older patient (for a 1-year increase, hazard ratio [HR], 1.02; 95% confidence interval [CI], 1.01–1.03; P=.0001); having an Australian Triage Scale score of 1 or 2 compared to a score of 3, 4, or 5 (HR, 2.04; 95% CI, 1.39–3.01; P=.0003); having an ultrasound-guided PIVC (HR, 6.52; 95% CI, 2.11–20.1; P=.0011); having the PIVC inserted by a medical student (P=.0095); infection prevention breaches at insertion (P=.0326); and PIVC inserted in the ante cubital fossa or the back of hand compared to the upper arm (P=.0337).

Conclusion

PIF remains at an unacceptable level in both traditionally inserted and ultrasound-inserted PIVCs.

Clinical trial registration

Australian and New Zealand Trials Registry (ANZCTRN12615000588594).

Type
Original Article
Copyright
© 2018 by The Society for Healthcare Epidemiology of America. All rights reserved 

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References

1. Alexandrou, E, Ray-Barruel, G, Carr, PJ, et al. Use of short peripheral intravenous catheters: characteristics, management, and outcomes worldwide. J Hosp Med 2018;13(5). https://doi.org/10.12788/jhm.3039.Google Scholar
2. Carr, PJ, Glynn, RW, Dineen, B, Kropmans, TJ. A pilot intravenous cannulation team: an Irish perspective. Br J Nurs. 2010;19 Suppl 3:S19S27.Google Scholar
3. Helm, RE, Klausner, JD, Klemperer, JD, Flint, LM, Huang, E. Accepted but unacceptable: peripheral IV catheter failure. J Infus Nurs 2015;38:189203.Google Scholar
4. Wallis, MC, McGrail, M, Webster, J, et al. Risk factors for peripheral intravenous catheter failure: a multivariate analysis of data from a randomized controlled trial. Infect Control Hosp Epidemiol 2014;35:6368.Google Scholar
5. Marsh, N, Webster, J, Larsen, E, Cooke, M, Mihala, G, Rickard, CM. Observational study of peripheral intravenous catheter outcomes in adult hospitalized patients: a multivariable analysis of peripheral intravenous catheter failure. J Hosp Med 2018;13:8389.Google Scholar
6. Rickard, CM, Webster, J, Wallis, MC, et al. Routine versus clinically indicated replacement of peripheral intravenous catheters: a randomised controlled equivalence trial. Lancet 2012;380:10661074.Google Scholar
7. Bugden, S, Shean, K, Scott, M, et al. Skin glue reduces the failure rate of emergency department-inserted peripheral intravenous catheters: a randomized controlled trial. Ann Emerg Med 2016;68:196201.Google Scholar
8. Chopra, V, Flanders, SA, Saint, S, et al. The Michigan Appropriateness Guide for Intravenous Catheters (MAGIC): results from a multispecialty panel using the RAND/UCLA appropriateness method. Ann Intern Med 2015;163 Suppl 6:S1.Google Scholar
9. Carr, PJ, Rippey, J, Moore, T, et al. Reasons for removal of emergency department-inserted peripheral intravenous cannulae in admitted patients: a retrospective medical chart audit in Australia. Infect Control Hosp Epidemiol 2016;37:874876.Google Scholar
10. Carr, PJ, Rippey, JCR, Cooke, ML, et al. Development of a clinical prediction rule to improve peripheral intravenous cannulae first attempt success in the emergency department and reduce post insertion failure rates: the Vascular Access Decisions in the Emergency Room (VADER) study protocol. BMJ Open 2016;6(2):e009196.Google Scholar
11. Elm, E von, Altman, DG, Egger, M, et al. Guidelines for reporting observational studies strengthening the reporting of observational studies in epidemiology (STROBE) statement: guidelines for reporting observational studies. Br Med J 2007;335:1922.Google Scholar
12. Polit, DF, Beck, CT. The content validity index: Are you sure you know what’s being reported? Critique and recommendations. Res Nurs Health 2006;29:489497.Google Scholar
13. McHugh, ML. Interrater reliability: the kappa statistic. Biochem Med 2012;22:276282.Google Scholar
14. Marsh, N, Mihala, G, Ray-Barruel, G, Webster, J, Wallis, MC, Rickard, CM. Inter-rater agreement on PIVC-associated phlebitis signs, symptoms and scales. J Eval Clin Pract 2015;21:893899.Google Scholar
15. Fitzpatrick, TB. The validity and practicality of sun-reactive skin types I through VI. Arch Dermatol 1988;124:869.Google Scholar
16. de la Torre-Montero, J-C, Montealegre-Sanz, M, Faraldo-Cabana, A, et al. Venous International Assessment, VIA scale, validated classification procedure for the peripheral venous system. J Vasc Access 2013;15:4550.Google Scholar
17. Considine, J, LeVasseur, SA, Villanueva, E. The Australasian Triage Scale: examining emergency department nurses’ performance using computer and paper scenarios. Ann Emerg Med 2004;44:516523.Google Scholar
18. Beaumont, K, Wyland, M, Lee, D. A multi-disciplinary approach to ANTT implementation: what you can achieve in 6 months. Infect Dis Heal 2016;21:6771.Google Scholar
19. R Core T. R: A language and environment for statistical computing. R Foundation for Statistical Computing. 2017.Google Scholar
20. Carr, P, Higgins, N, Cooke, M, Rippey, J, Rickard, C. Tools, clinical prediction rules, and algorithms for the insertion of peripheral intravenous catheters in adult hospitalized patients: a systematic scoping review of literature. J Hosp Med 2017;12:851858.Google Scholar
21. Carr, PJ, Rippey, JCR, Budgeon, CA, Cooke, ML, Higgins, N, Rickard, CM. Insertion of peripheral intravenous cannulae in the emergency department: factors associated with first-time insertion success. J Vasc Access 2016;17:182190.Google Scholar
22. Piper, R, Carr, PJ, Kelsey, LJ, Bulmer, AC, Keogh, S, Doyle, BJ. The mechanistic causes of peripheral intravenous catheter failure based on a parametric computational study. Sci Rep 2018;8:3441.Google Scholar
23. Fields, MJ, Dean, AJ, Todman, RW, et al. The effect of vessel depth, diameter, and location on ultrasound-guided peripheral intravenous catheter longevity. Am J Emerg Med 2012;30:11341140.Google Scholar
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