Mechanical Ventilation Clinical Trial
Official title:
Variability Analysis as a Predictor of Liberation From Mechanical Ventilation in Patients Admitted to the Respiratory Special Care Unit (ReSCU)
The purpose of this study is to evaluate if the variability of biological signals, such as heart rate and temperature, can predict weaning from mechanical ventilation in patients with failure to wean.
Failure to wean is one of the most feared complications of mechanical ventilation. Prolonged
mechanical ventilation occurs in 5-20% of all patients requiring MV in an intensive care
unit. The published experience in the Cleveland Clinic in-hospital-weaning unit (ReSCU,
Respiratory Special Care Unit) on long-term mechanical ventilation (>14 days) is that on
average, 60% of the patients achieve complete ventilator independence.
The identification of factors that predict liberation from mechanical ventilation should
improve outcomes and allocation of resources. Several attempts have been done to develop
models to identify patients who will wean from prolonged MV; most rely on multiple
measurements and their predictive ability is uncertain. Given the complexity of medical
problems and the heterogeneity of the patients with prolonged MV, it is not unexpected that
in order to achieve a good prediction, multiple variables are needed to encompass the whole
population and relevant factors associated with the failure to wean.
Heart rate variability (HRV) is obtained from the measurement of the interval between
successive heart beats; its analysis has been used extensively in cardiovascular disease.
HRV is interpreted as a manifestation of the neurohumoral and autonomic system influence
over the heart. Some researchers think that HRV relates to overall variability and is a
manifestation of health in a complex biological system. Interpretation apart, multiple
studies have demonstrated that the loss of variability reflects a poor prognosis overall.
This phenomenon is seen not only in the heart, but also in breathing patterns, blood
pressure, leukocyte count, electroencephalogram, gait, and recently in temperature.
Limitations in interpretation and difficulty in acquisition (ventilator influence,
respiratory rate influence, arrhythmias, medication) make HRV less practical in the
mechanically ventilated population.
Surface temperature is not usually measured in clinical practice; it reflects skin
thermoregulatory properties (where the autonomic system has a fundamental role). Recently, a
novel marker to describe biological variability in body temperature has been studied. The
temperature curve complexity (TCC) was used to predict mortality in critically ill patients.
Its performance was comparable to that of scores like APACHE and SOFA, this has been
described with HRV, hence suggesting a relation between TCC and HRV. Although no prior study
has related TCC or HRV alone or to prolonged mechanical ventilation outcomes, there is
reason to suspect that variability is decreased in ventilator-dependent patients.
In summary, the analysis of HRV and TCC has provided prognostic information in critically
ill patients. A relation between HRV and TCC is expected but has not been described. Given
the multiple influences of MV on HRV, TCC may be a better indicator of of variability in
patients on MV. Our primary hypothesis is that the analysis of HRV and TCC will predict
failure to wean from prolonged MV. Our secondary aims are: to identify the relationship
between HRV and TCC, to describe the TCC in patients with prolonged MV, and to describe the
changes in HRV and TCC in patients with successful and failed weaning.
This is an observational study in which measurements of HRV and TCC will be done in patients
admitted to the ReSCU and compared to the ability to wean from mechanical ventilation.
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Observational Model: Case-Only, Time Perspective: Cross-Sectional
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