4.0 Article

Ultrasonic testing of the biomechanical properties of donation blood

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Publisher

IOP Publishing Ltd
DOI: 10.1088/2057-1976/acc33b

Keywords

ultrasound; blood bags; biomechanical properties; blood bank

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In this study, sequential measurements of ultrasonic parameters were used to investigate the gradual deteriorations in the biomechanical properties of red blood cells during the preservation period. The findings suggest that ultrasound techniques can be applied as a quick and non-invasive method to check the validity of sealed blood bags. The technique can be used during and beyond the regular preservation period, helping to determine whether to further preserve or withdraw each bag.
Background. Donated blood is routinely preserved for about six weeks. After that, a considerable amount of unused blood is discarded for safety. We carried out sequential measurements of the ultrasonic parameters (Velocity of propagation of ultrasound, its attenuation, and relative nonlinearity coefficient B/A) for red blood cells (RBCs) bags in their physiological preserving conditions in the blood bank, in a given experimental setup, to investigate the gradual deteriorations in the biomechanical properties of RBCs. Materials and Methods. We discuss our primary findings, which indicate the applicability of ultrasound techniques as a quantitative quick, non-invasive routine check for the validity of sealed blood bags. The technique can be applied during and beyond the regular preservation period, thus enabling deciding for each bag to either further preserve or withdraw. Results and Discussion. Considerable increases in the velocity of propagation (Delta V = 966 m s(-1)) and ultrasound attenuation (Delta alpha = 0.81 dB C(-1)m(-1)) were detected to take place during the preservation time. Likewise, the relative nonlinearity coefficient showed a generally rising trend during the preservation period (Delta(B/A) = 0.0129). At the same time, a distinctive feature characteristic of a specific blood group type is realized in all cases. Due to the complex stress-strain relations and their reflection on the hydrodynamics and flow rate of non-Newtonian fluids, the increased viscosity of long-preserved blood may justify the known post-transfusion flow complications.

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