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The Expanding Role of Ultrasound Vascular Access Procedures in Prehospital Emergency Medical Services

Published online by Cambridge University Press:  11 April 2022

Guglielmo Imbriaco*
Affiliation:
Centrale Operativa 118 Emilia Est (Prehospital Emergency Medical Dispatch Centre), Helicopter Emergency Medical Service, Maggiore Hospital Carlo Alberto Pizzardi, Bologna, Italy Adjunct Professor, Critical Care Nursing, Bachelor in Nursing, Department of Medical and Surgical Sciences, School of Medicine and Surgery, University of Bologna, Bologna, Italy
*
Correspondence: Guglielmo Imbrìaco, MSN, RN, CEN Centrale Operativa 118 Emilia Est (Emergency Medical Dispatch Centre) Helicopter Emergency Medical Service Maggiore Hospital Carlo Alberto Pizzardi Largo Nigrisoli 2, 40133Bologna, Italy E-mail: guglielmo.imbriaco.work@gmail.com
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Abstract

Type
Letter to the Editor
Copyright
© The Author(s), 2022. Published by Cambridge University Press on behalf of the World Association for Disaster and Emergency Medicine

Dear Editor,

In recent years, the use of ultrasound (US) guidance for vascular access procedures in the critical care setting has increased significantly, with proven benefits for both patients and clinicians, and it’s now considered the standard of care practice. Reference Guy, Bryson, Wheeler, McLean and Kanji1 The undeniable clinical role of point-of-care US and the availability of compact, multi-probe portable US machines (dedicated to extended focused assessment with sonography for trauma/E-FAST or cardiac assessment) has led the way for further application to guide vascular accesses procedures by prehospital Emergency Medical Services (EMS). Reference Amaral, Ralston and Becker2 Despite the concerns that US for vascular accesses could be seen as a time-consuming procedure, Reference Kitch, Beck, Cone, Brice and Delbridge3 it is beneficial to highlight its important clinical advantages, most notably the increased success rates, including patients with clinical signs of shock.

The range of life-saving techniques presently available to EMS providers can strongly benefit from the addition of US guidance, either with central or peripheral venous or arterial cannulation. Ultrasound provides a safe and reliable tool for intravascular device insertion in a large “grey area” of patients, ranging from a simple blind-inserted peripheral access to a rapid intraosseous needle. With the rise in patients with difficult intravenous access, the use of US has been a game changer. Reference van Loon, van Hooff and de Boer4

Radial artery access is gathering an increased attention in the EMS field. Reference Standifird, Wassermann and Lauria5 The on-going COVID-19 pandemic brought out the opportunity for arterial punctures in the prehospital context, necessary for blood gas sampling and subsequent analysis through point-of-care testing systems, improving the quality of treatment provided to critical patients. Reference Zwisler, Zincuk, Bering, Zincuk, Nybo and Mikkelsen6 Arterial catheters offer additional value to provide effective continuous monitoring of unstable patients during ground or air transports from rural or remote areas as well as inter-hospital transports.

A further application during medical emergencies is represented by femoral artery catheterization with sheath introducers; these intravascular devices and the use of US for a successful insertion are closely connected. A small-bore arterial sheath introducer (4Fr) can be inserted in the prehospital environment in hemorrhagic hypotensive patients, permitting effective pressure monitoring and timely evaluation to the clinical responses with fluid resuscitation or inotropic therapies. Once in the emergency department, the small-bore sheath introducer allows quick access for blood specimen collection and arterial blood gas analysis, and may be exchanged to a larger introducer through a guidewire, which may be used in hospital for invasive procedures (eg, splenic artery embolization in blunt trauma) or other endovascular procedures.

Large bore sheath introducers (7-8Fr) are required for the femoral artery insertion of Resuscitative Endovascular Balloon Occlusion of the Aorta (REBOA) catheters; REBOA was introduced as a hemorrhage control technique in severe trauma and consists of an intra-aortic temporary balloon occlusion aimed at reducing bleeding. Reference Castellini, Gianola and Biffi7 The increased blood flow resulting from the REBOA has expanded its original indications for non-traumatic cardiac arrest, obtaining better cerebral and coronary perfusion during cardiopulmonary resuscitation maneuvers. Reference Mazzoli, Chiarini and Coniglio8

The current application of US-guided vascular procedures by EMS providers may benefit the prehospital treatment of critically ill patients. In consideration of the over-mentioned techniques and devices, US vascular access competencies should be included in the core curriculum of EMS providers. Dedicated training paths in the clinical context and in simulation scenarios (Figure 1) should be developed to achieve optimal team performance, reducing insertion times, and improving patient outcomes.

Figure 1. (a) High-Fidelity Simulation Training of REBOA Insertion by a Helicopter Emergency Medical Crew; (b) US Needle Puncture; (c) Guidewire Insertion; and (d) 7Fr Sheath Introducer Positioned in the Right Femoral Artery.

Abbreviations: REBOA, Resuscitative Endovascular Balloon Occlusion of the Aorta; US, ultrasound.

Conflicts of interest/funding

The author has no conflicts or financial interests related to this publication to disclose. No grants, funding (public or private), or financial support were received for this work.

Acknowledgements

The author would like to thank Aimone Giugni, MD, and Alessandro Monesi, RN, CCRN, for granting the pictures of the simulation training of REBOA insertion by a helicopter Emergency Medical service crew, and CRIBO Academy (Bologna, Italy) for the use of the high-fidelity simulation center.

References

Guy, A, Bryson, A, Wheeler, S, McLean, N, Kanji, HD. A blended prehospital ultrasound curriculum for critical care paramedics. Air Med J. 2019;38(6):426430.CrossRefGoogle ScholarPubMed
Amaral, CB, Ralston, DC, Becker, TK. Prehospital point-of-care ultrasound: a transformative technology. SAGE Open Med. 2020;8:205031212093270.CrossRefGoogle ScholarPubMed
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Castellini, G, Gianola, S, Biffi, A, et al. Resuscitative endovascular balloon occlusion of the aorta (REBOA) in patients with major trauma and uncontrolled hemorrhagic shock: a systematic review with meta-analysis. World J Emerg Surg. 2021;16(1):112.CrossRefGoogle ScholarPubMed
Mazzoli, CA, Chiarini, V, Coniglio, C, et al. Resuscitative Endovascular Balloon Occlusion of the Aorta (REBOA) in non-traumatic cardiac arrest: a narrative review of known and potential physiological effects. J Clin Med. 2022;11(3):742.CrossRefGoogle ScholarPubMed
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Figure 1. (a) High-Fidelity Simulation Training of REBOA Insertion by a Helicopter Emergency Medical Crew; (b) US Needle Puncture; (c) Guidewire Insertion; and (d) 7Fr Sheath Introducer Positioned in the Right Femoral Artery.Abbreviations: REBOA, Resuscitative Endovascular Balloon Occlusion of the Aorta; US, ultrasound.