Major lung resection is associated with high post-operative morbidity and mortality and significant long-term decreased functional capacity, especially due to cardiorespiratory complications. RV (Right Ventricle) ejection, pulmonary artery pressure and tone are tightly coupled. The RV is exquisitely sensitive to changes in afterload. When pulmonary vascular reserve is compromised RV ejection may be also compromised, increasing right atrial pressure and limiting maximal cardiac output. Acute increase in RV outflow resistance, as may occur with acute pulmonary embolism will cause acute RV dilatation and, by ventricular interdependence, markedly decreased LV (Left Ventricle) compliance, rapidly spiraling to acute cardiogenic shock and death. Most of the studies on RV function after lung resection are small and have found different results, and sometimes conflicting findings. As far as the investigators know, there are no data on the incidence of the RV dysfunction after major lung resection (pneumonectomy/bilobectomy) and it's not clear if there is some direct association between the RV dysfunction and post-operative complications. If so, early detection of RV dysfunction after major lung resection could provide the opportunity for interventional therapy with consequent possible improvement of these patients' prognosis.
The aim of this study is to identify the incidence of early RV systolic dysfunction (defined as Tricuspid Annular Plane Systolic Excursion (TAPSE) \< 17 cm, S' (TDI) \< 10 cm/s) and estimate the RV-PA (Right Ventricle-Pulmonary Artery) coupling as indicated by Guazzi et all. (TAPSE/PAPs ratio, where PAPs is the Systolic Pulmonary Artery Pressure) after major lung resection (bilobectomy and pneumonectomy) using echocardiography, and to assess if these modifications (RV dysfunction and RV-PA coupling) may be associated with post-operative cardiopulmonary complications occurring during the hospitalization period. Investigators also intend to evaluate if these changes are associated with impaired functional capacity at 3 months after surgery.
Study Type
OBSERVATIONAL
Enrollment
50
Before and after right pneumonectomy or bi-lobectomy patients will receive echocardiography
Prevalence of right ventricle disfunction
Incidence of early RV systolic dysfunction (defined as TAPSE \< 17 mm, S' (TDI) \< 10 cm/s) and estimate the RV-PA coupling as indicated by Guazzi et al. (TAPSE/PAPs ratio mm/mmHg) after major lung resection (bilobectomy and pneumonectomy) using echocardiography.
Time frame: Immediately after the awakening from general anesthesia (Day 0)
Post-operative outcome
Pulmonary failure may be associated with post-operative pulmonary embolism
Time frame: Within 3rd post-operative day
Right ventricle failure
RV dysfunction and RV-PA uncoupling may be associated with post-operative pulmonary hypertension occurring during the hospitalization period.
Time frame: Within 3rd post-operative day
Post-operative quality of life
DASI questionnaire
Time frame: 3 months, post-operatively
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