This article is part of the supplement: 30th International Symposium on Intensive Care and Emergency Medicine
Computerized lung sound monitoring to assess effectiveness of physiotherapy and secretion removal: a feasibility study
Critical Care 2010, 14(Suppl 1):P169 doi:10.1186/cc8401
The electronic version of this article is the complete one and can be found online at: http://ccforum.com/content/14/S1/P169
| Published: | 1 March 2010 |
© 2010 BioMed Central Ltd.
Introduction
Intubation and mechanical ventilation impair secretion clearance and can lead to lung collapse, consolidation and ventilator-associated pneumonia [1]. There is, however, no valid diagnosis of secretion retention in the intubated and ventilated patient. Vibration response imaging (VRI) is a commercially developed acoustic lung imaging system that displays breath sound distribution [2]. VRI should be able to identify relationships between specific breath sound distributions and secretion retention. This preliminary study investigated the changes in VRI measurements before and after chest physiotherapy in adult intubated and mechanically ventilated patients.
Methods
Intubated and ventilated adult patients who were receiving chest physiotherapy were investigated. Lung sound amplitude at peak inspiration was measured immediately before and after chest physiotherapy using two arrays of sensors attached to the patient's back in a supine position. Chest physiotherapy included combinations of closed airway suctioning, saline lavage, postural drainage, manual techniques and/or lung hyperinflation, dependent upon clinical indications. Means are compared with the Wilcoxon matched-pairs signed-ranks test.
Results
A total of 16 patients were included in the study (12 males, four females, age 65 ± 14). Patients were predominantly ventilated with continuous positive airway pressure and pressure support. Following physiotherapy, total lung sound amplitude at peak inspiration decreased twofold from 37 ± 58.106 to 18 ± 23.106 arbitrary units (AU), with significant reduction in the left lung (P = 0.03). Furthermore, the difference in sound amplitude between right and left lungs significantly decreased post-treatment compared with pretreatment (P = 0.03).
Conclusions
Computerized lung sound monitoring may be useful to assess secretion retention and the effectiveness of secretion removal in mechanically ventilated patients. Further investigation is, however, necessary in order to distinguish between secretion-related effects and changes due to other factors such as airflow rate and pattern.
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