par Verbanck, Sylvia;Paiva, Manuel 
;Schuermans, Daniel;Malfroot, Anne;Vincken, Walter;Vanderhelst, Eef
Référence Respiratory physiology & neurobiology, 188, 2, page (124-132)
Publication Publié, 2013-08
;Schuermans, Daniel;Malfroot, Anne;Vincken, Walter;Vanderhelst, EefRéférence Respiratory physiology & neurobiology, 188, 2, page (124-132)
Publication Publié, 2013-08
Article révisé par les pairs
| Résumé : | Severe convective ventilation heterogeneity occurring in CF lung disease requires a modified method to determine acinar and conductive components of ventilation heterogeneity from normalized phase III slope (Sn) curves. Modified Sacin* and Scond* (as opposed to standard Sacin and Scond) are proposed and interpreted on the basis of 2 conceptual mechanisms: (a) flow asynchrony between two convection-dependent units with a different specific ventilation, but with an identical acinus inside each unit (generating an identical diffusion-convection-dependent portion of Sn); (b) different specific ventilation (without any flow asynchrony) between two convection-dependent units with the worst ventilated unit containing an abnormal acinus generating the greatest diffusion-convection-dependent portion of Sn. In CF patients with an abnormal lung clearance index (LCI), Scond* (but not Scond) and Sacin* were significant contributors to LCI (β(Scond*). = 0.70; β(Sacin*). = 0.49; P<. 0.001 for both). Mechanism (a) can entirely account for experimental Scond* values, while mechanism (b) implies that experimental Sacin* values are likely dominated by peripheral ventilation heterogeneity in the best ventilated portions of the lung. © 2013 Elsevier B.V. |
