Fluid Responsiveness Clinical Trial
Official title:
Diagnostic Value of Passive Leg Raise Induced Changes in Carotid Artery Flow Time to Predict Fluid Responsiveness in Critically Ill Patients
Difficulties in the accurate assessment of intravascular volume in critically ill patients are frequently encountered. In addition to clinical evaluation, bedside echocardiographic measurements of fluid responsiveness can be technically difficult, especially in critically ill mechanically ventilated patients. The carotid artery is an easily accessible structure that is amenable to bedside ultrasonography performed by Intensivists. The investigators hypothesize that measurement of the carotid artery Corrected Flow Time (FTC) in response to a passive leg raise (PLR), which simulates a fluid bolus, can be used to predict fluid responsiveness.
Predicting fluid responsiveness in the Intensive Care Unit (ICU) is a difficult task.
Clearly, early aggressive resuscitation in patients with severe sepsis and septic shock
improves outcomes. Conversely, overzealous fluid administration is associated with increased
mortality in patients with septic shock and acute lung injury. However, recent studies have
challenged conventional wisdom that clinical exam, central venous pressure (CVP), or
pulmonary artery occlusion pressure (PAOP) are able to predict volume status or fluid
responsiveness.
Only approximately 50% of ICU patients have been shown to respond to volume expansion in
studies designed to examine fluid responsiveness.9 Ideally, Intensivists would have access
to a cheap, reliable, continuously operating, non-invasive, and user friendly device so that
fluid could be administered until their patient is no longer fluid responsive. Stroke volume
could be maximized via the Frank-Starling relationship and over resuscitation with its
potential deleterious effects could be avoided. Although measurement of thermodilution
cardiac output by the Pulmonary Artery Catheter (PAC) is considered the "gold standard" by
which new devices are validated, it has a waning role in modern ICUs. Existing technologies
such as Esophageal Doppler, Transpulmonary Indicator Dilution, and
Arterial-Pressure-Waveform-Derived methods, while not as invasive as a PAC, are still
invasive procedures. Echocardiography is an excellent tool, however assessing for fluid
responsiveness requires advanced training beyond a qualitative approach and it can be
difficult to obtain optimal windows in critically ill patients. Thus, current methods for
assessment of fluid responsiveness are suboptimal.
The use of Carotid Doppler to determine volume responsiveness has recently been proposed.
Remarkably, the authors found that an increase in carotid blood flow of 20% predicted fluid
responsiveness with a sensitivity of 94% and specificity of 86%. This appears to be an
attractive option, with the caveats that not all point of care ultrasound machines currently
available have the software capability to calculate carotid artery velocity time integral
(VTI) and this method was validated using Bioreactance, the reliability of which has been
recently questioned. A more simple method of evaluating the carotid artery for fluid
responsiveness, the Carotid Flow Time, was recently discussed on a popular ultrasound
podcast, but has not yet been validated in a clinical study.
The Carotid Artery Corrected Flow Time (FTC) concept is not new. In fact, it has been well
studied as a marker of preload and afterload with Transesophageal Doppler (TED). TED
monitors display a wave form of the velocity versus time similar to the image one might
obtain doing pulsed wave Doppler (PWD) of the carotid artery. With TED, the waveform has a
triangular appearance. The apex of the triangle represents peak velocity, which along with
mean acceleration reflects cardiac contractility. The area under the systolic portion of the
curve is equal to stroke distance, and when multiplied by the cross sectional area of the
descending aorta this value can be used to estimate cardiac output predicated on the
assumption that the descending aorta receives 70% of cardiac output. The investigators are
interested in the base of the triangle representing systolic ejection time. When corrected
for heart rate by dividing by the square root of cardiac cycle time we have the FTC. The FTC
would be expected to increase with enhanced preload or reduction in afterload; conversely it
should decrease with a reduction in preload or increase in afterload. One study performed in
20 neurosurgical patients with TED showed that the FTC was able to predict fluid
responsiveness when used as a static measure with a cutoff of 357 ms prior to loading with 7
ml/kg of hydroxyethyl starch solution. The area under the receiver operating curve (ROC) was
0.944.
The investigators believe that the concept of FTC as a marker of preload can be combined
conveniently with PWD of the carotid artery and a passive leg raising maneuver (PLR) to
estimate fluid responsiveness in critically ill patients. The method is very attractive due
to the ease of access to the carotid artery, reproducibility, low cost, and since the FTC is
a measurement of time (not velocity), the angle of insonation should be inconsequential,
making the exam technically easier to perform compared to carotid artery VTI. This can be
compared to a 10% increase in SVI following a PLR demonstrated by the Flotrac/Vigileo being
considered the "gold standard". While the absolute values of cardiac output obtained with
the Flotrac/Vigileo when compared with the PAC are debatable, the ability of the device to
track changes in cardiac output/stroke volume in response to changes in preload and PLR have
been shown to be accurate.16-19 A meta-analysis published by Cavallaro and colleagues showed
that PLR induced changes in cardiac output were able to predict fluid responsiveness with a
sensitivity and specificity of 89.4% and 91.4% with a pooled area under the ROC value of
0.95 regardless of ventilation mode, underlying cardiac rhythm, and technique of
measurement. Thus, an increase in SVI > 10% with PLR detected by a Flotrac/Vigileo monitor
without the need for a fluid bolus, should be sufficient to determine whether PLR induced
changes in carotid FTC are able to detect fluid responsiveness.
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Intervention Model: Single Group Assignment, Masking: Open Label, Primary Purpose: Diagnostic
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