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Transesophageal echocardiography (TEE)-guided transvenous pacing (TVP) in emergency department
The Ultrasound Journal volume 15, Article number: 35 (2023)
Abstract
Background
Placement of a temporary pacemaker is a vital skill in the emergency setting in patients that present with life-threatening bradycardia. Transvenous pacing is the definitive method of stabilizing the arrhythmia compared to transcutaneous pacing, as it provides more comfort and better control of heart rate, until the insertion of a permanent pacemaker.
Case report
In this case report, we describe the steps using TEE to guide the insertion of transvenous pacer at the emergency department. Traditionally, the process of floating a transvenous pacer wire is performed “blindly” using landmarks and a monitoring ECG finding for capture, or under transthoracic echocardiography (TTE) ultrasound guidance. The blind procedure is associated with higher rate of failure and complications. While guidance using TTE is associated with higher success rates and fewer complications, inadequate imaging of the right side of the heart may limit the utility of this imaging modality. The use of transesophageal echocardiography (TEE) by emergency medicine and critical care physicians has gained traction in recent years due to its clear images and lack of interference with procedures being performed on the chest. In this article, we describe a protocol using TEE to guide the insertion of transvenous pacer through a case illustration.
Introduction
Temporary cardiac pacing is a life-saving procedure for hemodynamically unstable patients with bradycardia in the emergency department (ED) [1]. Indications for emergent cardiac pacing include unstable bradycardias due to degenerative conduction system disease, acute coronary syndrome complicated by bradycardia, among other reasons (Table 1).
Transcutaneous pacing is usually employed initially as a temporizing measure, pending placement of a permanent pacemaker in the setting of symptomatic bradycardia [2]. However, with prolonged transcutaneous pacing, capture needs to be evaluated regularly as pacing thresholds may increase. Pain resulting from transcutaneous pacing is also a common occurrence, requiring generous administration of analgesia and sedation. Periodic skin evaluation with electrode repositioning is also recommended to minimize occurrence of serious skin burns. Hence, when prolonged temporary pacing is anticipated, transvenous pacing should be considered.
Transvenous pacing, is a procedure that involves placing a catheter-based electrode into the right side of the heart through a central venous access [3]. Traditionally, fluoroscopy guidance is routinely used for placement of temporary pacing wires. However, fluoroscopy is costly, not available in the emergency department and exposes the patient to ionizing radiation. Blind, ECG-guided and transthoracic echocardiography-guided methods for transvenous pacing have been described [4]. However, transthoracic echocardiography may not provide adequate imaging of the right side of the heart, especially in the obese and those with pulmonary emphysema, sternotomy scar, and thoracic deformity.
In this case report, we describe the steps using TEE to guide the insertion of transvenous pacer at the emergency department.
Case report
A 61-year-old Malay man with a history of hypertension and ischemic heart disease presented to the emergency department with acute onset right hemiparesis. His vital signs on arrival revealed a blood pressure 134/87, heart rate (HR) of 75 beats per minute, respiratory rate of 20 breaths per minute and oxygen saturation of 100% on room air. His Glasgow Coma Scale was E1V2M5 and his pupils were 2 mm reactive bilaterally. He was intubated for airway protection. Computed tomography (CT) of the brain revealed a left middle meningeal artery infarct.
On second day in the observation bay, the patient developed bradycardia with a HR of 30 beats per min and hypotension that did not respond to atropine. The ECG showed a complete heart block. A repeat CT brain did not reveal any new changes. His full blood count, renal profile, liver profile, serial troponin and capillary blood sugar were within normal limits. Cardiology was consulted and the ED team prepared to pace the patient.
Transvenous pacing was performed at the emergency department via right internal jugular central venous access. The TTE window was poor, thus TEE was performed to assist with real-time guidance of the pacemaker wire into the right ventricle (Table 2 and Figs. 1, 2, 3, 4). Electrical capture was obtained with a HR 80 beats per minute, sensitivity of 2 mV and an output of 5MV. Post procedure, his blood pressure stabilized to 126/71.
Pacing wire (red arrow head) passing through from the superior vena cava into the right atrium. RA -Right Atrium , IVC- Inferior Vena Cava , SVC -Superior Vena Cava
Pacing wire ( red arrow head) passing through from the tricuspid valve into right ventricle. RA -Right Atrium , RV -Right Ventricle , TV -Tricuspid Valve
Pacing wire (red arrow head) within the right ventricle. RA -Right Atrium , RV -Right Ventricle , TR -Tricuspid Regurgitation
Tricuspid regurgitation jet, a sign that the pacing wire (red arrow head) has passed through the tricuspid valve to right ventricle . RA - Right Atrium , LA -Left Atrium , LV -Left Ventricle
The patient was subsequently admitted to the cardiac care unit, a permanent pacemaker was implanted, and he was discharged well after 1 week.
Discussion
Temporary transvenous pacemaker placement (TVP) is an emergency procedure that is within the scope of practice of a trained emergency medicine physician [4,5,6,7] for patients with unstable bradyarrhythmias. Due to the increasing use and benefits of the transesophageal probe, the intensivist and emergency department physician must be trained to handle this probe smoothly. In this article, we describe the process of performing TVP placement under TEE guidance using a systematic protocolized approach.
There is growing evidence demonstrating the feasibility, safety and clinical value of TEE performed by emergency physicians in the acute care setting [8, 9]. Focused TEE in the ED had been described in the management of cardiac arrest [10, 11] undifferentiated shock [12] and trauma [13, 14]. In contrast to the comprehensive TEE protocol with 28 views performed by the cardiologists, focused TEE is limited to few important views that are essential for resuscitation, namely: mid-esophageal (ME) 4 chamber view, ME 2 chamber view, ME long-axis (LAX) view, ME bicaval view, ME RV inflow–outflow view, deep transgastric (TG) mid papillary short-axis view, deep transgastric (DTG) 5 chamber view, and 4 aortic views.
For TEE-guided transvenous pacing, we recommend using the ME bicaval view, ME RV inflow–outflow view, and ME 4-chamber views. In situations where we are unable to provide more detailed information about the right heart chambers and pacemaker wire placement, we suggest using additional alternative views, such as the ME level (with omniplane of 45°) at short-axis view of the aortic valve, deep transgastric view at peak AVF, and deep transgastric view at the level of the papillary muscle.
In our department, this procedure is performed in intubated and mechanically ventilated patient by emergency physicians with training in critical care and emergency ultrasound who are skilled in performing central venous access under transthoracic ultrasound guidance and focused TEE. The emergency physicians involved need to undergo focused TEE simulation training on a manikin before performing the procedure on patients under supervision [15]. There are a few contraindications to transesophageal echocardiography, namely, esophageal injury or stricture, and lack of definitive airway. Limitations of TEE also include inability to pass the TEE into the esophagus, and presence of excessive air in the esophagus which may obscure the view obtained via TEE [16].
The technique of using TTE guidance for TVP placement is well described in the literature [17]. Lerner et al. first described TVP placement under TEE guidance in the emergency department in 2019 noting significant advantages including improved visualization of right-sided cardiac structures and lack of interference from pacer pads [18]. In addition to guidance in placement, ultrasound may be useful in the assessment of loss of capture and if the patient’s condition deteriorates. In this publication, we expand on existing knowledge by providing a clear and concise 10-step protocol that describes the use of TEE for TVP placement. As the adoption of TEE for procedures and clinical decision-making increases in emergency medicine practice, this protocol may serve as an invaluable reference (Table 2).
Complications associated with TVP used to be common, affecting 1 in 6 patients [19]. However, the incidence of complications associated with this procedure have decreased with the addition of imaging such as fluoroscopy and ultrasound. In an analysis of more than 360,000 patients at the United States, it was found that TVP was a relatively safe procedure with 0.6% risk of pericardial tamponade, 0.9% risk of pneumothorax and 2.4% risk of non-pericardial bleeding [20]. Despite the theoretical benefit of TEE-guided TVP, larger scale studies are needed to determine the feasibility, safety, and efficacy of this procedure in critically ill patients in the emergency department.
Conclusion
Transesophageal echocardiography-guided transvenous pacer wire placement is an alternative to transthoracic echocardiography and fluoroscopy guidance during the resuscitation of a critically ill patient. As the adoption of TEE for procedures and clinical decision-making increases in emergency medicine practice, a 10-step protocol describing the procedure may serve as an invaluable reference.
Availability of data and materials
The material available from the corresponding author on reasonable request.
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Acknowledgements
We would like to thank Ipoh Emergency Critical Care Society (IECCS) for their assistance and Director of Health Malaysia for his permission to publish this manuscript.
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Authors received no funding for this case report from any institution/individual.
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AO, CPF, MKHT, AR, NP and AR was involved in the initial conception and drafting of the manuscript. All authors contributed to the image interpretation, writing and revision of the manuscript.
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I declare that this manuscript which depicts the suggested protocol using TEE in transvenous pacing placement. Contributions from respective authors have been explicitly mentioned in the respective segment. This work has not been submitted to any other publication for publishing.
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Supplementary Information
Additional file 1. Video S1 -Pacing wire passing through from the superior vena cava into the right atrium.
Additional file 2. Video S2-Pacing wire passing through from the tricuspid valve into right ventricle
Additional file 3. Video S3 -Pacing wire within the right ventricle.
Additional file 4. Video S4 -ME level (with omniplane of 45-degree) at short-axis view of the aortic valve.
Additional file 5. Video S5 - Deep transgastric view at the level of peak aortic valve, with slight clockwise rotation (transgastric longitudinal section).
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Adi, O., Fong, C.P., Tze, M.K.H. et al. Transesophageal echocardiography (TEE)-guided transvenous pacing (TVP) in emergency department. Ultrasound J 15, 35 (2023). https://doi.org/10.1186/s13089-023-00332-7
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DOI: https://doi.org/10.1186/s13089-023-00332-7