PT  - JOURNAL ARTICLE
AU  - Mesfin Asfaw Taye
TI  - The sedimentation of thrombocyte and erythrocyte during a routine laboratory examination
AID  - 10.1101/2023.01.21.525013
DP  - 2023 Jan 01
TA  - bioRxiv
PG  - 2023.01.21.525013
4099  - http://biorxiv.org/content/early/2023/01/21/2023.01.21.525013.short
4100  - http://biorxiv.org/content/early/2023/01/21/2023.01.21.525013.full
AB  - Centrifugation is a commonly performed laboratory procedure that helps to separate blood cells such as RBCs, WBCs, and platelets from plasma or serum. Although centrifugation is a routine procedure in most medical laboratories, the factors that affect the efficacy of the centrifugation process have never been studied analytically. In this paper, we examine the effect of the centrifugation time on the efficacy of the centrifugation process by studying the dynamics of the blood cells via the well-known Langevin equation or equivalently, by solving the Fokker-Plank equation. Our result depicts that the speed of the centrifuge is one of the determinant factors concerning the efficacy of the centrifugation process. As the angular speed increases, the centrifugal force steps up and as result, the particles are forced to separate from the plasma or serum. The room temperature also considerably affects the dynamics of analyse during centrifugation. Most importantly, the generation of heat during centrifugation steps up the temperature within a centrifuge and as a result, not only the stability of the sample but also mobility of analyse is affected. We show that as the centrifuge temperature steps up, the velocity of the cells as well as the displacement of the cell in the fluid decreases. We then study the dynamics of the whole blood during capillary action where in this case the blood flows upward in a narrow space without the assistance of external forces. Previous investigations show that the height that the fluid rises increases as the surface tension steps up. The viscosity of the fluid also affects the capillary action but to date, the dependence of the height on viscosity has never been explored due to the lack of a mathematical correlation between the viscosity of blood and surface tension [1]. In this work, we first examine the correlation between surface tension and viscous friction via data fitting. Our result exhibits that the viscosity of the blood increases linearly as the surface tension increases. The mathematical relation between the height and viscous friction is derived. It is shown that the height of the blood that rises in capillary increases as the viscous friction steps up. As the temperature of the room steps up, the height also decreases. The dependence of erythrocytes sedimentation rate on surface tension is also studied. The results obtained in this work show that the ESR increases as surface tension steps downPACS numbers Valid PACS appear hereCompeting Interest StatementThe authors have declared no competing interest.