RESUMO
This study investigated the effects of tidal volume (TV) on the diagnostic value of pulse pressure variation (PPV) and the inferior vena cava dispensability index (IVC-DI) for volume responsiveness during mechanical ventilation. In patients undergoing elective surgery with mechanical ventilation, different TVs of 6, 9, and 12 mL/kg were given for two min. The left ventricular outflow tract velocity-time integral (VTI) was measured by transthoracic echocardiography. The IVC-DI was measured at sub-xyphoid transabdominal long axis. The PPV was measured via the radial artery and served as baseline. Index measurements were repeated after fluid challenge. VTI increased by more than 15% after fluid challenge, which was considered as volume responsive. Seventy-nine patients were enrolled, 38 of whom were considered positive volume responsive. Baseline data between the response group and the non-response group were similar. Receiver operating characteristic curve confirmed PPV accuracy in diagnosing an increase in volume responsiveness with increased TV. When TV was 12 mL/kg, the PPV area under the curve (AUC) was 0.93 and the threshold value was 15.5%. IVC-DI had the highest diagnostic accuracy at a TV of 9 mL/kg and an AUC of 0.79, with a threshold value of 15.3%. When TV increased to 12 mL/kg, the IVC-DI value decreased. When the TV was 9 and 12 mL/kg, PPV showed improved performance in diagnosing volume responsiveness than did IVC-DI. PPV diagnostic accuracy in mechanically ventilated patients was higher than IVC-DI. PPV accuracy in predicting volume responsiveness was increased by increasing TV.
Assuntos
Humanos , Masculino , Feminino , Adolescente , Adulto , Pessoa de Meia-Idade , Adulto Jovem , Respiração Artificial , Volume Sistólico/fisiologia , Veia Cava Inferior/fisiologia , Pressão Sanguínea/fisiologia , Volume de Ventilação Pulmonar/fisiologia , Veia Cava Inferior/diagnóstico por imagem , Ecocardiografia , Curva ROCRESUMO
Si bien los principios básicos para el diagnóstico y la monitorización hemodinámica como los pilares terapéuticos del niño con choque séptico se mantienen en el tiempo, es innegable que en las últimas décadas se han incorporado nuevos y trascendentes conceptos, por lo que es importante que el médico tratante de las unidades de cuidados intensivos tenga conocimiento de ellos a cabalidad. La monitorización hemodinámica es una herramienta que no solamente permite detectar el origen de la inestabilidad hemodinámica sino también guiar el tratamiento y evaluar su efectividad. La resucitación con fluidos debe ser el primer paso en la reanimación del paciente hemodinámicamente inestable. Sin embargo, la determinación clínica del volumen intravascular puede ser, en ocasiones, difícil de establecer en el paciente crítico. Las presiones de llenado cardiaco no son capaces de predecir la respuesta a fluidos. Los indicadores dinámicos de respuesta a fluidos evalúan el cambio en el volumen eyectivo durante la ventilación mecánica; de este modo, se valora la curva de Frank-Starling del paciente. Mediante la prueba de fluido es posible evaluar el grado de la reserva de precarga que se puede utilizar para aumentar el volumen eyectivo. En esta revisión se actualiza la información disponible sobre la monitorización hemodinámica básica y funcional.
In recent decades, new and important concepts have emerged for the diagnosis and management of the pediatric patient with septic shock, although the basic principles have remained similar over time. Attending physicians in the pediatric intensive care unit (PICU) must be fully aware of these concepts in order to improve patient care in the critical care unit. Hemodynamic monitoring is a tool that not only allows detection of the source of hemodynamic instability but also guides treatment and assesses its effectiveness. Fluid loading is considered the first step in the resuscitation of hemodynamically unstable patients. Nevertheless, clinical determination of the intravascular volume can be extremely difficult in a critically ill patient. Studies performed have demonstrated that cardiac filling pressures are unable to predict fluid responsiveness. Dynamic tests of volume responsiveness use the change in stroke volume during mechanical ventilation assessing the patients' Frank-Starling curve. Through fluid challenge the clinician can assess whether the patient has a preload reserve that can be used to increase the stroke volume. In this review we updated the available information on basic and functional hemodynamic monitoring.