2012
DOI: 10.1113/jphysiol.2011.213157
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Chest wall dynamics during voluntary and induced cough in healthy volunteers

Abstract: Non-technical summary Cough is the commonest symptom for which people seek medical advice and has significant impact upon quality of life. Moreover ineffective coughing is associated with significant morbidity and mortality. A better understanding of cough mechanics is important for dealing with the complications of both excessive and impaired cough. This study investigates how the mechanical changes during coughing are influenced by the amount of air inhaled prior to coughing (operating volume), examining che… Show more

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Cited by 103 publications
(116 citation statements)
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“…Concerning the operating volume, 2 levels can be reached, either the functional residual capacity or the total lung capacity. 18 The former is more reproducible because the cough effort starts at the end of normal expiration but may be difficult to perform at the bedside in ICU patients with a possible neurological impairment. The latter is more natural for patients because they usually breathe deeply before cough to ensure a better cough performance, which is a better indicator of patients' ability to prevent excess respiratory secretions after extubation.…”
Section: Step-by-step Building Of a General Model For Extubation Outcmentioning
confidence: 99%
“…Concerning the operating volume, 2 levels can be reached, either the functional residual capacity or the total lung capacity. 18 The former is more reproducible because the cough effort starts at the end of normal expiration but may be difficult to perform at the bedside in ICU patients with a possible neurological impairment. The latter is more natural for patients because they usually breathe deeply before cough to ensure a better cough performance, which is a better indicator of patients' ability to prevent excess respiratory secretions after extubation.…”
Section: Step-by-step Building Of a General Model For Extubation Outcmentioning
confidence: 99%
“…Coughing protects the airways from inhalation of foreign substances in healthy people and is responsible for eliminating the excess mucus in hypersecretory diseases. High flows may be generated by forced contraction of expiratory muscles, which generate high thoracic and abdominal pressure changes 6 . The high intrapulmonary pressure reached from a deep inspiration, glottis closure and contraction of expiratory muscles provides high flows in the cough explosive phase, and that high flow transfers kinetic energy from the air to the secretion or foreign body, removing them from the bronchial wall and transporting them into the pharynx or mouth, where they may be removed 4 .…”
Section: Introductionmentioning
confidence: 99%
“…Upon expiration, the thorax and lungs passively return to the rest position moving the air out of the lungs at the expense of their elastic forces. Upon forced expiration, however, several thoracic and abdominal wall muscle groups should be contracted to decrease the thoracic volume [4][5][6] .…”
Section: Introductionmentioning
confidence: 99%
“…[5][6][7][8] The commonly used parameters to assess this phase are the cough peak flow (CPF) and CPF/PEF ratio. 10 These parameters were found to be normal in most patients with CF and to correlate with patient body mass index (BMI) level. 11 The third phase of cough is continuation of exhalation, where the bronchi and trachea are compressed and narrowed in the intrathoracic space during coughing (or forced expiration).…”
Section: Introductionmentioning
confidence: 99%