Bt. Chen et Db. Yeates, Differentiation of ion-associated and osmotically driven water transport in canine airways, AM J R CRIT, 162(5), 2000, pp. 1715-1722
We hypothesized that water transport associated with fluxes of Na+ and Cl-
across airway epithelium coexists and is distinct from osmotically driven w
ater transport. To investigate this, we anesthetized and mechanically venti
lated dogs (n = 8) with warm humid air. The trachea of each dog was sequent
ially challenged with 250-mOsm and 950-mOsm mannitol aerosols given 30 min
apart. Respiratory tract fluid output (RTFO) was collected at the posterior
commissure at 6-min intervals. The percentages of mannitol in the RTFO wer
e determined with fluorescent tracers and were subtracted from the RTFO to
give airway secretory output (ASO). Unbound [Na+] and [Cl-] in the RTFO wer
e measured. Following the 250-mOsm mannitol challenge, the ASO as well as i
ts Na+ and Cl- contents increased. Following the 950-mOsm challenge, there
was a further increase in ASO without any further increases in Na+ and Cl-
contents. Increased mucociliary transport accounted for only part of the in
crease in ASO. These data are consistent with the hypothesis that net water
transport into the airway lumen is the vectorial sum of the water fluxes a
ssociated with actively driven intracellular Na+ and Cl- transport and the
water flux due to osmosis.