Frequency and mortality of acute lung injury and acute respiratory distress syndrome after pulmonary resection for bronchogenic carcinoma

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Frequency and mortality of acute lung injury and acute respiratory distress syndrome after pulmonary resection for bronchogenic carcinoma

Enrico Ruffini^a, Andrea Parola^a, Esther Papalia^a, Pier Luigi Filosso^a, Maurizio Mancuso^a, Alberto Oliaro^a, Guglielmo Actis-Dato^b, Giuliano Maggi^a

^a Division of Thoracic Surgery, University of Torino, 3 Via Genova, 10126 Torino, Italy
^b Division of Cardiac Surgery, University of Torino, 3 Via Genova, 10126 Torino, Italy

Received 9 October 2000; received in revised form 9 April 2001; accepted 10 April 2001.

Corresponding author. Tel.: +39-011-6335919; fax: +39-011-6960170
e-mail: enrico.ruffini{at}unito.it

Objective: We reviewed the frequency and mortality of acutelung injury (ALI) and acute respiratory distress syndrome (ARDS)in our population of patients submitted to pulmonary resectionfor primary bronchogenic carcinoma. Methods: From January 1993to December 1999, a total of 1221 patients received pulmonaryresection for primary bronchogenic carcinoma. Of these, 27 metthe criteria of post-operative ALI/ARDS. There were 24 men andthree women with a mean age of 64 years (range 45–79).Pre-operatively, predicted mean of PaO₂, PaCO₂ and %FEV1 were72 mmHg (57–86), 37 mmHg (33–42) and 80% (37–114),respectively. Associated cardiac risk factors were present ineight patients. Three patients (11%) had pre-operative radiotherapy.Surgical–pathologic staging included 14 patients at StageI, 8 patients at Stage II, four patients at Stage IIIa and onepatient at Stage IIIb. Results: ALI/ARDS occurred in 2.2% ofour operated lung cancer patients. ALI was diagnosed in 10 patientsand ARDS in 17 patients. The mean time of presentation followingsurgery was 4 days (range 1–10) and 6 days (1–13)for ALI and ARDS, respectively. According to the type of operation,the frequency was highest following right pneumonectomy (4.5%),followed by sublobar resection (3.2%), left pneumonectomy (3%),bilobectomy (2.4%), and lobectomy (2%). The frequency followingextended operations was 4%. No differences were found betweenthe ALI/ARDS group and the total population of resected lungcancer patients (control group) with respect to sex, mean age,pre-operative blood gases, %FEV1, surgical–pathologicstaging and the use of pre-operative radiotherapy. Four patientswith ALI (40%) and 10 patients with ARDS (59%) died. Mortalitywas highest following right pneumonectomy, extended operationsand sublobar resections. Hospital mortality of the total populationof operated lung cancer patients in the same period was 2.8%(34 patients). ALI/ARDS accounted for 41% of our hospital mortality.Conclusions: (1) ALI/ARDS is a severe complication followingresection for primary bronchogenic carcinoma. (2) We did notdetect any significant difference between the ALI/ARDS groupand the control group regarding age, pre-operative lung function,staging and pre-operative radiotherapy. (3) ALI/ARDS is associatedwith high mortality, the highest mortality rates having beenobserved following right pneumonectomy and extended operation;it currently represents our leading cause of death followingpulmonary resection for lung carcinoma. (4) ALI/ARDS may alsooccur after sublobar resections with an associated high mortalityrate.

Key Words: Lung carcinoma • Acute lung injury • Acute respiratory distress syndrome • Surgical therapy

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