期刊
ANNALS OF BIOMEDICAL ENGINEERING
卷 33, 期 2, 页码 179-190出版社
SPRINGER
DOI: 10.1007/s10439-005-8976-5
关键词
drug delivery systems; nanoharvesting agents; non-specific interactions; buoyancy; van der Waals; electrostatic double layer
The margination of a particle circulating in the blood stream has been analyzed. The contribution of buoyancy, hemodynamic forces, van der Waals, electrostatic and steric interactions between the circulating particle and the endothelium lining the vasculature has been considered. For practical applications, the contribution of buoyancy, hemodynamic forces and van der Waals interactions should be only taken into account, whilst the effect of electrostatic and steric repulsion becomes important only at very short distances from the endothelium (1 - 10 nm). The margination speed and the time for margination t(s) have been estimated as a function of the density of the particle relative to blood Deltarho, the Hamaker constant A and radius R of the particle. A critical radius R-c exists for which the margination time ts has a maximum, which is influenced by both Deltarho and A: the critical radius decreases as the relative density increases and the Hamaker constant decreases. Therefore, particles used for drug delivery should have a radius smaller than the critical value (in the range of 100 nm) to facilitate margination and interaction with the endothelium. While particles used as nanoharvesting agents in proteomics or genomics analysis should have a radius close to the critical value to minimize margination and increase their circulation time.
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