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Gravity outweighs the contribution of structure to passive ventilation-perfusion matching in the supine adult human lung
- Source :
- Journal of applied physiology (Bethesda, Md. : 1985). 124(1)
- Publication Year :
- 2017
-
Abstract
- Gravity and matched airway/vascular tree geometries are both hypothesized to be key contributors to ventilation-perfusion (V̇/Q̇) matching in the lung, but their relative contributions are challenging to quantify experimentally. We used a structure-based model to conduct an analysis of the relative contributions of tissue deformation (the “Slinky” effect), other gravitational mechanisms (weight of blood and gravitational gradient in tissue elastic recoil), and matched airway and arterial tree geometry to V̇/Q̇ matching and therefore to total lung oxygen exchange. Our results showed that the heterogeneity in V̇ and Q̇ were lowest and the correlation between V̇ and Q̇ was highest when the only mechanism for V̇/Q̇ matching was either tissue deformation or matched geometry. Heterogeneity in V̇ and Q̇ was highest and their correlation was poorest when all mechanisms were active (that is, at baseline). Eliminating the contribution of matched geometry did not change the correlation between V̇ and Q̇ at baseline. Despite the much larger heterogeneities in V̇ and Q̇ at baseline, the contribution of in-common (to V̇ and Q̇) gravitational mechanisms provided sufficient compensatory V̇/Q̇ matching to minimize the impact on oxygen transfer. In summary, this model predicts that during supine normal breathing under gravitational loading, passive V̇/Q̇ matching is predominantly determined by shared gravitationally induced tissue deformation, compliance distribution, and the effect of the hydrostatic pressure gradient on vessel and capillary size and blood pressures. Contribution from the matching airway and arterial tree geometries in this model is minor under normal gravity in the supine adult human lung. NEW & NOTEWORTHY We use a computational model to systematically analyze contributors to ventilation-perfusion matching in the lung. The model predicts that the multiple effects of gravity are the predominant mechanism in providing passive ventilation-perfusion matching in the supine adult human lung under normal gravitational loads, while geometric matching of airway and arterial trees plays a minor role.
- Subjects :
- Male
medicine.medical_specialty
Matching (statistics)
Gravity (chemistry)
Supine position
Physiology
030204 cardiovascular system & hematology
Models, Biological
Human lung
03 medical and health sciences
Young Adult
0302 clinical medicine
Physiology (medical)
Internal medicine
medicine
Supine Position
Humans
Lung
business.industry
Pulmonary Gas Exchange
Surgery
medicine.anatomical_structure
030228 respiratory system
Passive ventilation
Cardiology
business
Perfusion
Gravitation
Research Article
Subjects
Details
- ISSN :
- 15221601
- Volume :
- 124
- Issue :
- 1
- Database :
- OpenAIRE
- Journal :
- Journal of applied physiology (Bethesda, Md. : 1985)
- Accession number :
- edsair.doi.dedup.....c3c1464ab0e5c77ec7e27db440045cd1