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Intravenous Maintenance with a Saline Lock Intermittent Infusion Device in the Prehospital Environment

Published online by Cambridge University Press:  28 June 2012

Bryan Carducci  and
Kurt Stein
Bryan Carducci*
Affiliation:
Department of Emergency Services, Suburban General Hospital, Pittsburgh, Pa.
Kurt Stein
Affiliation:
Department of Emergency Services, Suburban General Hospital, Pittsburgh, Pa.
*
Department of Emergency, Services, Suburban General Hospital, S. Jackson Street, Pittsburgh, PA 15202, USA
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Abstract

Introduction:

A study was done with EMS personnel to determine the ease of use and accetance of a saline lock (SL), intermittent infusion device in place of traditional intravenous tubing and fluid bags for prehospital intravenous (IV) maintenance.

Study Hypotheses:

Saline lock, intermittent infusion device use in specific clinical scenaios is easier, less expensive, and as effective traditional TV tubing and fluid bags. The emergency medical technician-paramedic (EMT-P) would accept the implementation of saline locks in the emergency medical servics (EMS) system.

Methods:

This was a prospective, non-blinded study with the EMS providers under the medical command of a suburban community hospital's emergency department. Patients were included if prophylactic IV access or medication administration was required by clinical protocols. Excluded from the study were those patients requiring IV access for fluid infusion, constant drug infusion, cardiac arrests, or transport to another hospital's emergency department (ED). Intravenous access was achieved with the usual catheter over needle cannulation techniques. The device (Interlin Injection Site SL) was attached to the hub of the IV cannula and flushed with 2 cc of 0.9% saline from prefilled carpujects.

Results:

There were completed questionnaires for 79 successful SL initiated in 98 attempts of IV access on 80 patients over a four-month period. When compared to traditional IV fluid bags, SL were judged by the paramedics to be less time-consuming to initiate and maintain (55 of 79 or 70%), easier to use (51 of 79 or 65 %) and facilitated patient transportation (73 of 79 or 92%). Medications were administered according to protocol or command dirtion in the prehospital setting through 20 (25%) SL. Intravenous access was maintained by 52 of 79 SL (65 %), and seven (9%) SL were converted to fluid infusions in the prehospital setting after contact with the medical command physician. In the ED, two (3%) SL were judged by nurses to be nonpatent and 17 (22 %) were converted to maintenance fluid infusions. Systemwide use of SL was favored by 73 of 79 (92.4%) EMS providers. Each device and 2 ml 0.9% saline flush carpuject cost [U.S.]$1.62 versus the cost of IV tubing and a 250 cc bag of lactated Ringer's at $2.11, resulting in a cost savings of 23.2%.

Conclusion:

The saline lock, intermittent infusion device is an effective method of maintaining prehospital IV access. When compared to traditional IV fluid bags, EMT-Ps judged the device to be easier and less time-consuming to initiate, and facilitated patient transportation. A cost savings was realized when SL usage was compared to traditional IV fluid bag infusion. Systemwide implementation of the saline lock was desired.

Keywords

costeffectivenessemergency departmentemergency medical servicesintravenous accessintravenous infusionintermittent infusion devicemedical controlmedication administrationprehospitalparamedicsaline lock
Type
Brief Report
Information
Prehospital and Disaster Medicine , Volume 9 , Issue 1 , March 1994 , pp. 67 - 70
Copyright
Copyright © World Association for Disaster and Emergency Medicine 1994

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References

1. Epperson, EL: Efficacy of 0.9% sodium chloride injection with and without heparin for maintaining indwelling intermittent infusion sites. Clinical Pharmacy 1984;3:629–629.Google Scholar
2. Hamilton, RA, Plis, JM, Clay, C et al. : Heparin sodium versus 0.9% sodium chloride injection for maintaining patency of indwelling intermittent infusion devices. Clinical Pharmacy 1988:7:439443.Google ScholarPubMed
3. Lombardi, TP, Gundersen, B, Zammett, LO et al. : Efficacy of 0.9% sodium chloride with or without heparin sodium for maintaining patency of intravenous catheters in children. Clinical Pharmacy 1988;7:3236.Google ScholarPubMed
4. Ashton, J, Gibso, V, Summers, S: Effects of heparin versus saline solution on intermittent infusion device irrigation. Heart and Lung 1990;19:608612.Google ScholarPubMed
5. Donham, JA, Demming, V: Heparin vs saline in maintaining patency of intermittent infusion devices: A pilot study. Kansas Nurse. 1987;11:67.Google Scholar
6. Harrigan, CA: Intermittent IV therapy without heparin: A study. NITA 1985;8:519520.Google ScholarPubMed
7. Goode, CJ, Titler, M et al. : A meta-analysis of effects of heparin flush and saline flush: Quality and cost implications. Nursing Research 1991;6:324330.Google Scholar
8. Shoaf, J, Oliver, S: Efficacy of normal saline injection with and without heparin for maintaining intermittent intravenous sites. Applied Nurs Res 1992;19–12.CrossRefGoogle Scholar
9. Laster, J, Cikrit, D, Walker, N et al. : The heparin-induced thrombocytopenia syndrome: An update. Surgery 1987:102:763768.Google ScholarPubMed
10. Ferguson, RI, Rosett, W, Hodges, GR et al. : Complications with heparin-lock needles: A prospective evaluation. Ann Intern Med 1976:85:583.CrossRefGoogle ScholarPubMed
11. Schwarzman, P, Rottman, SJ: Prehospital use of heparin locks: a cost-effective method for intravenous access. Am J Emerg Med 1987;5:475477.CrossRefGoogle ScholarPubMed
12. Gold, CR, Morales, JE: Heparin lock use. Am J Emerg Med 1991;19:9596.CrossRefGoogle Scholar
13. Hochreiterr, MC, Barton, LL: Epidemiology of needlestick injury in emergency medical service personnel. Am J Emerg Med 1988;6:912.CrossRefGoogle Scholar
14. Tanberg, D, Stewart, KK, Doeezema, D: Under-reporting of contaminated needle stick injuries in emergency health care workers. Ann Emerg Med 1991;1:6670.CrossRefGoogle Scholar