Distribution of Pulmonary Capillary Red Blood Cell Transit Times

Overview

Journal J Appl Physiol (1985)

Publisher American Physiological Society

Date 1995 Aug 1

PMID 7592192

Citations 10

Authors

R G Presson Jr

J A Graham

C C Hanger

P S Godbey

S A Gebb

R A Sidner

R W Glenny

W W WAGNER Jr

Affiliations

Soon will be listed here.

Abstract

In theory, red blood cells can pass through the pulmonary capillaries too rapidly to be completely saturated with oxygen during exercise. This idea has not been directly tested because the transit times of the fastest red blood cells are unknown. We report the first measurements of the entire transit time distribution for red blood cells crossing single subpleural capillary networks of canine lung using in vivo fluorescence videomicroscopy and compare those times with the distribution of plasma transit times in the same capillary networks. On average, plasma took 1.4 times longer than red blood cells to pass through the capillary bed. Decreased transit times with increased cardiac output were mitigated by both capillary recruitment and a narrowing of the transit time distribution. This design feature of the pulmonary capillary bed kept the shortest times from falling below the theoretical minimum time for complete oxygenation.

Citing Articles

Lung endothelium, tau, and amyloids in health and disease.

Balczon R, Lin M, Voth S, Nelson A, Schupp J, Wagener B Physiol Rev. 2023; 104(2):533-587.

PMID: 37561137 PMC: 11281824. DOI: 10.1152/physrev.00006.2023.

Modeling of Red Blood Cells in Capillary Flow Using Fluid-Structure Interaction and Gas Diffusion.

An L, Ji F, Yin Y, Liu Y, Zhou C Cells. 2022; 11(24).

PMID: 36552751 PMC: 9776841. DOI: 10.3390/cells11243987.

Mechanical adaptation of monocytes in model lung capillary networks.

Dupire J, Puech P, Helfer E, Viallat A Proc Natl Acad Sci U S A. 2020; 117(26):14798-14804.

PMID: 32554496 PMC: 7334492. DOI: 10.1073/pnas.1919984117.

Oxygen tension-mediated erythrocyte membrane interactions regulate cerebral capillary hyperemia.

Zhou S, Giannetto M, DeCourcey J, Kang H, Kang N, Li Y Sci Adv. 2019; 5(5):eaaw4466.

PMID: 31149638 PMC: 6541463. DOI: 10.1126/sciadv.aaw4466.

Acoustic droplet vaporization-mediated dissolved oxygen scavenging in blood-mimicking fluids, plasma, and blood.

Mercado-Shekhar K, Su H, Kalaikadal D, Lorenz J, Manglik R, Holland C Ultrason Sonochem. 2019; 56:114-124.

PMID: 31101245 PMC: 6659737. DOI: 10.1016/j.ultsonch.2019.03.029.