Mechanical Ventilation Complication Clinical Trial
Official title:
Heartrate Variability During Conventional and Variable Pressure Support Mechanical Ventilation: a Cross-over Study
Rationale Studies show that about a third of all postoperative complications are due to
cardiovascular reasons. Furthermore it was shown that more than 50% of postoperative deaths
are associated with severe cardiovascular incidents. After surgical interventions seriously
ill patients are transferred to intensive care units and mechanically ventilated. However
there is not much evidence about the impact of mechanical ventilation on the cardiovascular
system and cardiovascular complications. Artificial mechanical ventilation greatly differs
from physiological breathing. In contrast to physiological negative pressure ventilation of
th lung, mechanical positive pressure ventilation can cause ventilator induced lung injuries.
Furthermore a significant deterioration of lung-heart-interaction during mechanical
ventilation is known.
Relevance Mechanical ventilation leads to a decreased heartrate-variability, which has to be
understood as increased stress on the cardiovascular system. Recently, a new ventilation mode
called "variable pressure support ventilation" (VPSV) also known as "noisy pressure support
ventilation". This new ventilation mode is similar to the ventilator mode
"spontaneous-continuous positive airway pressure/pressure support" (SPN-CPAP), which is often
used in a intensive care unit routine. Though VPSV differs through varying applicated
pressure support and therefore tidal volumes. Therefore the new ventilation mode rather
imitates physiological situation, since tidal volumes vary in physiological breathing, which
has positive impact on heart-lung-interaction.
Spontaneous-continuous positive airway pressure support (SPN-CPAP/PS) is the routine
ventilator mode used in critically ill patients submitted to an intensive care unit (ICU). It
guarantees a positive end expiratory pressure, which prevents atelectasis and minimizes
weaning time, by supporting the patient's respiratory drive.
A few years ago, this very established ventilation technique was modified by simply altering
the rhythm and volume of gas application: instead of administering same tidal volumes in
equal time intervals a variation of applied volume as well as altering frequency in
ventilation is introduced. This ventilation method is termed noisy pressure support
ventilation (noisy PSV) or variable pressure support ventilation (variable PSV). The
variation of pressure support will be within a range around a mean support-pressure (Psupp)
and won't exceed a maximum pressure (Pmax), which are both adjusted before starting noisy
PSV.
Any variation of breathing is physiological and may occur during speaking, moving and many
other factors. As novel concept, the investigator proposes that such variation of ventilation
rhythm and volume may have an important impact on heart rate variability (HRV), which is
known as to be an indicator of a healthy heart. Since it has been observed that HRV is an
important predictor of mortality in coronary care units, investigation of HRV became more
important. Recently it was found that low HRV is associated with an increasing mortality and
proposed low HRV to be a marker for critical illness.
The analysis and further investigation of HRV has therefore become an important issue in
modern medicine. Mechanical ventilation plays a pivotal role in ICUs and should be further
improved. Mechanical ventilation per se is stressful for the cardiovascular system.
Cardiovascular homeostasis is of major importance and the investigator hypothesises that
noisy PSV will decrease the stress applied to the human heart measured via heart rate
variability.
In this interventional clinical study, the investigator will apply, in a randomized fashion,
conventional PSV and variable PSV each for a duration of one hour. During ventilation the
investigator will record all data of the patients monitor, including the electrocardiogram
(ECG), which is routinely monitored in patients, and respiratory data, to determine HRV
parameters retrospectively. All other ventilatory, hemodynamic and pharmacological treatment
will be part of the clinical routine. As two modes of ventilation will be compared, this
study is an interventional clinical trial.
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