Echocardiography for intensivists


Overview

Since its early use in intensive care unit (ICU) settings by pioneers, echocardiography has been increasingly performed in critically ill patients because it provides unparalleled information on central hemodynamics. Initially, real-time morphologic and hemodynamic information, ease of use, portability, and safety constituted definite advantages of echocardiography over more invasive techniques, such as right heart catheterization. Subsequently, ultrasound systems have become smaller, higher quality, and less expensive. This facilitated the diffusion of echocardiography in the ICU environment.

Rapidly, the use of echocardiography by intensivists appeared to be distinct from that of the cardiology community because of specific indications and requirements. Critical care echocardiography (CCE) refers to an examination performed and interpreted by an intensivist to establish diagnoses and guide therapeutic management of patients with cardiopulmonary compromise. The required training of intensivists to reach competence in CCE has been diversely implemented among countries, in Europe and worldwide. Scientific societies of critical care medicine have recently published international recommendations on the competence and the training required to perform CCE (see Chapter 61 ).

This chapter illustrates the current clinical use of echocardiography in the ICU settings and provides insights into future modalities of ultrasound-based clinical assessment of unstable patients with cardiopulmonary compromise.

Critical care echocardiography

Specific requirements of critical care echocardiography

Hemodynamic assessment of ventilated patients with circulatory or respiratory failure is the main indication for performing CCE. , , As opposed to conventional, state-of-the-art echocardiography performed in the cardiology laboratory, CCE has distinct requirements ( Table 27-1 ). CCE must be available around-the-clock at the time of the clinical deterioration. Transesophageal echocardiography (TEE) is frequently required when the imaging quality of transthoracic echocardiography (TTE) is inadequate. Heart-lung interactions should be taken into account in the interpretation of CCE studies because critically ill patients are commonly mechanically ventilated. CCE may be focused on the hemodynamic assessment by using a qualitative rather than a quantitative approach. CCE may be repeated to assess the efficacy and tolerance of induced therapeutic changes as a monitoring tool, or if the patient’s condition changes over time. Additional indications of echocardiography in the ICU settings are closely related to the specific recruitment of institutions ( Box 27-1 ) and require extensive training to reach competence.

TABLE 27-1
Distinct Requirements of Critical Care and Conventional Echocardiography
Critical Care Echocardiography Conventional Echocardiography
Main indications: cardiopulmonary compromise Main indications: cardiopathies
Performed at the bedside by the ICU physician Performed in the cardiology laboratory by the sonographer
Online interpretation by the ICU physician Off-line interpretation by the cardiologist
Interpretation in light of the critical care medicine background of the physician Interpretation in light of the cardiology background of the physician
Guides diagnostic workup and invasive procedures Expertise allows identification and interpretation of complex findings
Around-the-clock availability Daytime schedule
Ventilated patients (heart-lung interactions) Spontaneously breathing (out)patients
TEE frequently required and easy to perform TTE is most commonly performed
Frequently goal-oriented examination State-of-the-art exhaustive examination
Qualitative or quantitative evaluation using simple yet robust parameters Quantitative assessment using all existing imaging tools
Immediate diagnostic/therapeutic impact Delayed diagnostic/therapeutic impact
Monitoring tool/short-term follow-up Diagnostic tool/long-term follow-up
ICU, Intensive care unit; TEE, transesophageal echocardiography; TTE, transthoracic echocardiography.

BOX 27-1
Modified from : Echocardiography in the critically ill: an overview. In De Backer D, Cholley B, Slama M, editors: Hemodynamic monitoring using echocardiography in the critically ill, Berlin, 2011, Springer, pp 1-9.
COMMON INDICATIONS FOR PERFORMING ECHOCARDIOGRAPHY IN INTENSIVE CARE UNIT PATIENTS

Circulatory failure (hypotension, shock)

  • Septic shock (first hours)

  • Complicated acute myocardial infarction (extended infarction or mechanical complication)

  • Acute aortic syndrome (suspected involvement of ascending aorta)

  • Massive pulmonary embolism (acute cor pulmonale, in-transit or entrapped embolus)

  • Cardiac tamponade (pericardial or extrapericardial burden)

  • Complicated course after cardiac surgery (complication related to the procedure or not)

  • Cardiac arrest (during or after successful resuscitation)

Acute respiratory failure

  • Cardiogenic pulmonary edema (elevated left ventricular filling pressures and cause)

  • Acute respiratory distress syndrome (exclusion of cardiogenic pulmonary edema, assessment of right ventricular size and function according to ventilator settings)

  • Weaning failure from the ventilator (patient with or without known cardiopathy)

  • Decompensated chronic respiratory failure (patient with or without known right heart failure)

  • Unexplained hypoxemia (spontaneously breathing or ventilated patient)

  • Severe blunt chest trauma (suspected cardiovascular injury)

  • Suspected endocarditis (diagnosis, complications)

  • Suspected cardiovascular source of systemic embolism

  • Assessment of circulatory assistance devices: intraaortic balloon counterpulsation, extracorporeal life support/extracorporeal membrane oxygenation (guide insertion, assess related complications)

  • Cardiac evaluation in brain-dead patients

Transthoracic versus transesophageal echocardiography

TTE is the first-line approach because of its versatility, tolerance, and availability. , It typically allows an optimal Doppler beam alignment with intracardiac flows and a broader field of examination of relatively superficial anatomic structures ( Table 27-2 ).

TABLE 27-2
Respective Advantages of Transthoracic and Transesophageal Echocardiography in the ICU Settings
Favors Transthoracic Echocardiography Favors Transesophageal Echocardiography
Versatility, strictly noninvasive, availability, no contraindication (even in spontaneously breathing patients)
Assessment of superficial anatomic structures (apical thrombus, pericardial space, inferior vena cava)
Optimal alignment of Doppler beam with transvalvular blood flows (mitral, aortic, and tricuspid valves), and abnormal jets (valvulopathy, left ventricular outflow tract obstruction)
Evaluation of pulmonary artery pressure (tricuspid and pulmonary regurgitant jets)
Consistent high imaging quality, reproducibility, and stability of imaging planes (especially in ventilated patients)
Assessment of deep anatomic structures (great vessels, base of heart, mediastinum, prosthetic valves, atria, and appendages)
Precise identification of the mechanism of certain native or prosthetic valve dysfunctions (eccentric mitral regurgitation, prosthetic valve dysfunction)
Identification of intracardiac shunts
Identification of great vessel diseases (proximal pulmonary embolism, spontaneous or traumatic acute aortic conditions)
ICU, Intensive care unit.

TEE is usually used as an adjunct or subsequent test to TTE when surface examination is nondiagnostic. This may be related to poor imaging quality or to the inaccessibility of deep anatomic structures. Because of reduced interference with image acquisition, TEE has a greater diagnostic capability than TTE in ventilated ICU patients. TEE is first performed when examination of deep anatomic structures is required, especially after cardiac surgery. , Finally, TEE provides more reproducible imaging planes than TTE when a hemodynamic monitoring is needed in unstable patients (see Table 27-2 ). Nevertheless, TEE is cumbersome to perform repeatedly and is contraindicated in the presence of any risk of esophageal injury (see Chapter 30 ). In ventilated ICU patients, TEE is safe, and unsuccessful probe insertion is rare when using laryngoscopic guidance under adequate sedation. In spontaneously breathing patients, the major risk of TEE is related to the development of acute respiratory failure precipitated by the esophageal intubation. Accordingly, TEE should be discouraged in unstable patients who are not on ventilatory support, especially when a tamponade or a massive pulmonary embolism is suspected.

Impact of critical care echocardiography on patient management

CCE has a direct impact on management in a large proportion of ICU patients. , Although TEE has been shown to prompt reoperation without further workup in patients with complicated open-heart surgery and has a greater therapeutic impact than TTE, surface echocardiography is also diagnostic in patients with shock. CCE frequently corrects initial diagnoses derived from invasive hemodynamic monitoring. When performed at the time of the acute insult, CCE best depicts the origin of the cardiopulmonary compromise before the effects of therapy, which may rapidly alter the hemodynamic profile. The anticipated therapeutic impact of CCE is maximal in the most unstable ICU patients at the time of examination.

Clinical use of critical care echocardiography

Circulatory failure

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