6533b7d6fe1ef96bd1266499

RESEARCH PRODUCT

Red Cell Interactions with the Microcirculation

Christopher J. PucciniG. B. ThurstonMax AnlikerRuedi FreyP. WendlingMony M. FrojmovicI.-e. RichterS. K. VethamanyHerbert H. LipowskyK. U. BennerL. ZadorSabine SchickendantzJack T. SaariJ. M. WhaunC. R. HuangC. R. HuangH. HuttenStennis D. WaxL. P. GustavsonAlfred BollingerAlfred W. L. JayPeter VaupelHarvey N. MayrovitzM. Mason GuestHarry L. GoldsmithBenjamin W. ZweifachShu ChienP. M. GuntonShunichi UsamiTakeshi KarinoR. KubliDonald M. StasiwV. G. VethamanyLawrence C. CernyMark AnlikerAlfred L. CopleyAlfred L. CopleyP. S. LingardL. DintenfassWatts R. WebbP. GaehtgensMary P. WiedemanGeert W. Schmid-schoenbeinR.g. KingR.g. KingFelix MahlerR. PanjwaniM. BessisS. RowlandsTed P. BondVictor A. HansonK. M. Jan

subject

Shear rateMaterials scienceRed CellIncreased hematocritmedicine.diagnostic_testShear stressmedicineMagnificationHematocritRotationBiomedical engineeringMicrocirculation

description

We have measured RBC velocity profiles for mammalian arterioles and venules from high-speed cinematographic motion pictures. Measurements were made at 320× and 400× optical magnification over an averaging time period of 10 ms. In vivo profiles are uniformly nonsymmetrical, the RBCs exhibit rotation, and they frequently deviate sidewise from the overall axial direction of motion. In general, this is more pronounced on the venous side. Since all of the profiles are time variant and the average values are synchronous with the midstream velocity, individual RBC velocities will vary about the average. Profiles become more blunted in vessels with smaller diameters. In vessels below 16 μm diameter, the velocity gradients between adjacent RBCs are quite small; for large vessels, recognizable profiles develop and become fully developed in blood vessels above 30 μm in diameter. This blunting is further affected by the midstream velocity and the local hematocrit; when the velocity is reduced below 1.2 mmls and/or an increased hematocrit is present, the profile becomes more blunted.

yearjournalcountryeditionlanguage
1976-01-01
https://doi.org/10.1007/978-1-4613-4334-9_4