Hemodynamics Clinical Trial
Official title:
Impact of Non-invasive Positive Pressure Ventilation on Cardiac Function and Echocardiographic Parameters
Cardiologists and intensive care specialists are confronted daily with mechanically ventilated patients exhibiting cardiac failure. It is of paramount importance to understand the effect of mechanical ventilation on cardiac function and to interpret echocardiographic findings correctly in order to provide the patient with the best possible treatment to support cardiac and circulatory function. Currently physicians interpret echocardiographic findings based on studies that were performed in spontaneously breathing patients. With this study, the investigators intend to contribute to the understanding of cardiac physiology in patients needing ventilatory support, especially they aim to provide the physiological basis for the interpretation of echocardiographic findings in order to improve medical support (e.g. fluid resuscitation, vasoactive drugs, ventilation strategy) of ventilated patients with impaired cardiovascular function.
Background
Mechanical ventilation (MV) is commonly used in intensive care units (ICU) to improve gas
exchange and to reduce breathing effort. The need for MV is the single most prominent reason
for admission to an intensive care unit, either for acute cardiac or respiratory failure,
postoperative ventilation or other reasons. Its usefulness is not limited to critically ill
patients but has also gained recognition in treating sleep-related breathing disorders. Soon
after the introduction of MV to clinical practice its adverse hemodynamic effects were noted
and have been studied ever since. It is now well accepted that MV, by applying external
positive pressure in order to achieve tidal breathing, affects lung volume and intrathoracic
pressure which in turn influence cardiac loading and function.
Echocardiography is increasingly used in intensive care to evaluate hemodynamics and
especially Doppler assessments of mitral inflow and annular tissue velocity to describe left
ventricular (LV) diastolic function. There is a growing body of evidence stating that
diastolic dysfunction is a key factor for weaning failure from MV, a clinical issue affecting
up to one third of patients. Worsened diastolic LV filling under MV may decisively lower
cardiac performance and cause hemodynamic instability especially in case of pre-existing
diastolic dysfunction in patients with arterial hypertension, a disease with a high
prevalence of 30-45% in the general population. So far, despite the extensive use of
echocardiography in ventilated patients, the causative pathophysiological mechanisms
underlying ventilation-induced changes of echocardiographic parameters used to determine
diastolic LV function have never been thoroughly evaluated. Assessing diastolic function
during MV is complex since Doppler derived surrogate parameters all depend on cardiac loading
conditions and loading itself is inevitably coupled to MV. The question therefore arises
whether echocardiography allows for detection of deteriorating LV diastolic function in terms
of impaired intrinsic ventricular relaxation or LV stiffness or whether it primarily mirrors
MV-induced loading alterations. It is important to differentiate if echocardiographic signs
of diastolic dysfunction in the patient under MV are caused by changes in loading or a LV
filling restraint since in case of hemodynamic instability the two scenarios would ask for
different therapeutic measures. In case of a loading problem, pre- and afterload can be
targeted using drugs or fluid resuscitation. If a MV-induced filling restraint is the
predominant problem one may consider special ventilatory modes or even deep sedation and the
use of muscle relaxants to minimize Pit.
The basic concepts of heart-lung interactions under positive pressure ventilation make it
conceivable that extrinsic pressure applied to the thorax and therefore, as explained later
in more detail, to the heart may mimic diastolic dysfunction even in a totally healthy heart
if assessed by echocardiography. Echocardiographic parameters to assess diastolic function
have been evaluated against the gold standard - invasive LV pressure and volume measurements
- in spontaneously breathing patients. Such an evaluation is lacking for the patient with
ventilatory support and therefore the value of echocardiography for assessment of diastolic
function under MV needs further clarification. The investigators intend to comparatively
study cardiac and particularly left ventricular diastolic function in ventilated patients
using both invasive and ultrasound methods.
Objective
The presented study will elucidate the influence of positive pressure ventilation on cardiac
function in humans. Furthermore, the investigators aim to describe the changes of
echocardiographic parameters under different levels of positive pressure ventilation and link
these changes to the underlying pathophysiological alterations in hemodynamics induced by
positive pressure ventilation.
Methods
Prospective single-centre study at the University Hospital Berne. 30 patients scheduled for
an elective coronary angiogram will be included. During spontaneous breathing and two
different levels of non-invasive PPV transthoracic echocardiography is performed while
recording LV-pressure-volume loops using an impedance catheter. Simultaneously the pulmonary
artery occlusion pressure, the right atrial pressure and the intrathoracic pressure are
recorded using a pulmonary artery catheter and an oesophageal balloon respectively.
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