Trials / Completed

CompletedNCT01019993

Non-dependent Lung High Frequency Positive Pressure Ventilation (HFPPV) and Right Ventricular Function

Prospective Study of the Effects of Non-dependent Lung High Frequency Positive Pressure Ventilation on the Right Ventricular Function for Thoracotomy

Summary

The investigators hypothesized that the application of volume-controlled HFPPV to the non-dependent lung during one-lung ventilation (OLV) for thoracotomy in patients with good pulmonary functions and mild-to-moderate pulmonary dysfunction may provide preservation of the right ventricular (RV) function, adequate oxygenation and optimum surgical conditions. The investigators evaluated the effects of IL-HFPPV on RV ejection fraction (REF), RV end-diastolic volume (RVEDVI), RV stroke work (RVSWI), pulmonary vascular resistance (PVRI), and stroke volume (SVI) indices, oxygen delivery (DO2) and uptake (VO2), shunt fraction (Qs: Qt), and surgical field conditions during OLV for thoracotomy in patients with good and mild-to-moderate impaired pulmonary functions.

Detailed description

One-lung ventilation (OLV) provides an adequate operative field, but is opposed by the induced hypoxic pulmonary vasoconstriction (HPV) in the non-ventilated lung. It may preserve overall oxygen delivery, however with deleterious increase in shunt fraction and pulmonary vascular resistance.1-2Right ventricular (RV) overload resulting from these increases in its afterload influences postoperative morbidity and mortality. Intrinsic positive end-expiratory pressure (PEEPi) occurs frequently during OLV for thoracic surgery in the dependent lung of patients with pulmonary hyperinflation as opposed to patients with normal pulmonary function.3 The different approaches for the correction of hypoxemia during OLV may require some degree of recruitment of the non-dependent lung (IL), with different maneuvers such as the application of continuous positive pressure ventilation (CPAP) or high frequency jet ventilation (HFJV) to the non-dependent lung. These recruitment strategies, although they may improve arterial saturation, may concurrently decrease cardiac output, therefore having contradictory effects on overall oxygen delivery.4-6 Gas trapping may occur with increased ventilatory frequency during HFJV. This may impair RVEF through the increases in RV afterload.7 Therefore, the use of high frequency positive pressure ventilation (HFPPV) using tidal volumes just greater than the dead space increases arterial oxygen tension (PaO2) and the carbon dioxide excretion (VCO2) linearly with increasing peak airway pressure.8 We hypothesized that the application of volume-controlled HFPPV to the non-dependent lung during OLV for thoracotomy in patients with good pulmonary functions and mild-to-moderate pulmonary dysfunction may provide preservation of the RV function, adequate oxygenation and optimum surgical conditions. We evaluated the effects of IL-HFPPV on RV ejection fraction (REF), RV end-diastolic volume (RVEDVI), RV stroke work (RVSWI), pulmonary vascular resistance (PVRI), and stroke volume (SVI) indices, oxygen delivery (DO2) and uptake (VO2), shunt fraction (Qs: Qt), and surgical field conditions during OLV for thoracotomy in patients with good and mild-to-moderate impaired pulmonary functions.

Conditions

• Lung Diseases
• Esophageal Diseases

Interventions

Timeline

Start date

2004-02-01

Primary completion

2006-12-01

Completion

2007-02-01

First posted

2009-11-25

Last updated

2010-05-28

Locations

1 site across 1 country: Egypt

Source: ClinicalTrials.gov record NCT01019993. Inclusion in this directory is not an endorsement.