Fluid replacement is considered the cornerstone of hemodynamic management in critically ill patients especially in patients with septic shock. However, only about 50% of critically ill hemodynamically unstable patients are responsive to fluids. Consequently, the resuscitation of critically ill patients requires an accurate assessment of the patients' intravascular volume status and their volume responsiveness. In this study, we will compare the efficacy of carotid artery flow to echo left ventricular end diastolic volume as a predictive value for fluid resuscitation in septic shock patients.
Fluid replacement is considered the cornerstone of hemodynamic management in critically ill patients especially in patients with septic shock. However, only about 50% of critically ill hemodynamically unstable patients are responsive to fluids. Consequently, the resuscitation of critically ill patients requires an accurate assessment of the patients' intravascular volume status and their volume responsiveness. In this study, we will compare the efficacy of carotid artery flow to echo left ventricular end diastolic volume as a predictive value for fluid resuscitation in septic shock patients.The Doppler study of carotid artery circulation (Velocity Time Integral, Peak Velocity) is simple and overpasses this common limitation among intensive care patients. Moreover, it showed to be an easy-learning tool The Velocity Time Integral (VTI) is a measurement of blood flow during systole that is passing through the left ventricular outflow tract (LVOT). The normal range for a VTI is 18-22 cm, values below this are suggestive of depressed cardiac output, an increase in the VTI is indicative of an increase in cardiac output. If a significant change in VTI 15% or more VTI0is observed after a fluid challenge, this would indicate that the patient is preload (fluid) responsive.
Study Type
OBSERVATIONAL
Enrollment
40
, Carotid Doppler (T0) will be performed within 1-2 Hours of ICU Admission to measure the following parameters: "Peak systolic velocity" and Velocity Time Integral over the common carotid artery. Using the linear probe (VF12-4) of ultrasound machine (ACUSON NX3, Siemens Medical solution USA, Inc.) * According to surviving sepsis campaign guidelines 2021, patients diagnosed with septic shock should be given 30ml/kg IV crystalloid fluid within the first 3 hours, the fluid will be given in the form of 500 ml boluses, each bolus should be given in 15 minutes. * FC "fluid challenge" will be performed by rapid volume infusion over (30minutes) of 1000mL Ringer acetate solution. * Carotid artery Duplex parameters will be repeated. Relative changes in "Peak Systolic Velocity, Velocity Time integral" will be expressed in
* Echocardiography (T0) will be performed within 1-2 Hours of ICU Admission to measure LVEDA if less than 10 cm2 then the patient will be considered hypovolemic. * According to surviving sepsis campaign guidelines 2021, patients diagnosed with septic shock should be given 30ml/kg IV crystalloid fluid within the first 3 hours, the fluid will be given in the form of 500 ml boluses, each bolus should be given in 15 minutes. * FC "fluid challenge" will be performed by rapid volume infusion over (30minutes) of 1000mL Ringer acetate solution. * After five minutes from FC "fluid challenge" (T1), echocardiography will be repeated to re-measure LVEDA. Pt will be defined as a responder if LVEDA b
Faculty of medicine, Ain Shams University
Cairo, Egypt
RECRUITINGAccuracy of echo and ultrasound indices
Diagnostic accuracy (sensitivity, specificity) of LVEDA and carotid artery flow parameters (PEAK Systolic Velocity, Velocity time integral (VTI), in predicting fluid responsiveness defined as an increase in stroke volume after a standardized fluid challenge.
Time frame: 1 Day
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