OBJECTIVE: Prolonged air leak after pulmonary resection is a common complication and a major limiting factor for early discharge from hospital. Currently there is little consensus on its management. The aim of this study was to develop and evaluate a measuring device which allows a simple digital bed-side quantification of air-leaks compatible to standard thoracic drainage systems. PATIENTS AND METHODS: The measuring device (AIRFIX) is based upon a 'mass airflow' sensor with a specially designed software package that is connected to a thoracic suction drainage system. Its efficacy in detecting pulmonary air-leaks was evaluated in a series of 204 patients; all postoperative measurements were done under standardized conditions; the patients were asked to cough, to take a deep breath, to breathe out against the resistance of a flutter valve, to keep breath and to breathe normally. As standard parameters, the leakage per breath or cough (ml/b) as well as the leakage per minute (ml/min) were displayed and recorded on the computer. RESULTS: Air-leaks within a range of 0.25-45 ml/b and 5-900 ml/min were found. Removal of the chest tubes was done when leakage volume on Heimlich valve was less than 1.0 ml/b or 20 ml/min. After drain removal based upon the data from chest tube airflowmetry none of the patients needed re-drainage due to pneumothorax. CONCLUSION: The AIRFIX device for bed-side quantification of air-leaks has proved to be very simple and helpful in diagnosis and management of air-leaks after lung surgery, permitting drain removal without tentative clamping.
OBJECTIVE: Prolonged air leak after pulmonary resection is a common complication and a major limiting factor for early discharge from hospital. Currently there is little consensus on its management. The aim of this study was to develop and evaluate a measuring device which allows a simple digital bed-side quantification of air-leaks compatible to standard thoracic drainage systems. PATIENTS AND METHODS: The measuring device (AIRFIX) is based upon a 'mass airflow' sensor with a specially designed software package that is connected to a thoracic suction drainage system. Its efficacy in detecting pulmonary air-leaks was evaluated in a series of 204 patients; all postoperative measurements were done under standardized conditions; the patients were asked to cough, to take a deep breath, to breathe out against the resistance of a flutter valve, to keep breath and to breathe normally. As standard parameters, the leakage per breath or cough (ml/b) as well as the leakage per minute (ml/min) were displayed and recorded on the computer. RESULTS: Air-leaks within a range of 0.25-45 ml/b and 5-900 ml/min were found. Removal of the chest tubes was done when leakage volume on Heimlich valve was less than 1.0 ml/b or 20 ml/min. After drain removal based upon the data from chest tube airflowmetry none of the patients needed re-drainage due to pneumothorax. CONCLUSION: The AIRFIX device for bed-side quantification of air-leaks has proved to be very simple and helpful in diagnosis and management of air-leaks after lung surgery, permitting drain removal without tentative clamping.
Authors: Pier Luigi Filosso; Victor Auguste Nigra; Giovanni Lanza; Lorena Costardi; Giulia Bora; Paolo Solidoro; Riccardo Carlo Cristofori; Massimo Molinatti; Paolo Olivo Lausi; Enrico Ruffini; Alberto Oliaro; Francesco Guerrera Journal: J Thorac Dis Date: 2015-10 Impact factor: 2.895
Authors: Aaron R Casha; Luca Bertolaccini; Liberato Camilleri; Alexander Manche; Marilyn Gauci; Gor Melikyan; Ruben Gatt; Krzysztof Dudek; Piergiorgio Solli; Joseph N Grima Journal: J Thorac Dis Date: 2018-06 Impact factor: 2.895
Authors: Song Am Lee; Jun Seok Kim; Hyun Keun Chee; Jae Joon Hwang; Michael Ji; Yo Han Kim; Hyeong Ju Moon; Woo Surng Lee Journal: J Thorac Dis Date: 2021-02 Impact factor: 2.895