Verification of a thrombus induction method at the target point inside the blood pump using a fibrinogen coating for a thrombus detection study
Although the magnetically levitated centrifugal blood pump (mag‐lev pump) is considered superior to other pumps in antithrombogenicity, thrombotic complications are still reported. Research into thrombus detection inside a mag‐lev pump is very important for solving this problem. Our research group h...
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Veröffentlicht in: | Artificial organs 2020-09, Vol.44 (9), p.968-975 |
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Sprache: | eng |
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Zusammenfassung: | Although the magnetically levitated centrifugal blood pump (mag‐lev pump) is considered superior to other pumps in antithrombogenicity, thrombotic complications are still reported. Research into thrombus detection inside a mag‐lev pump is very important for solving this problem. Our research group has already proposed a method to detect a thrombus inside a mag‐lev pump in real time without an additional sensor, which is named the impeller vibration method. To efficiently advance our research with reproducibility, a preconditioning method to induce thrombus inside the pump was thought to be necessary. Therefore, this study aimed to develop a preconditioning method that induces thrombus formation. To verify this method, in vitro experiments for thrombus detection were performed. A mag‐lev pump developed at Tokyo Institute of Technology was used. A fibrinogen solution was coated on the inner surfaces of the bottom housing to induce thrombus formation at the target point inside the pump. The thrombus is detected by utilizing the phenomenon that the phase difference between the impeller displacement and input current to the magnetic bearing increases when a thrombus is formed inside a pump. Five hundred mL of porcine blood anticoagulated with heparin sodium was circulated in the mock circuit, and protamine sulfate was administered. Flow rate (1 L/min), impeller vibrational frequency (70 Hz), and vibrational amplitude (30 µm) were set to constant. The experiment was terminated when the phase difference increased by over 2° from the minimum value. The experiments were performed in fibrinogen‐coated (group F, n = 5) and non‐coated pumps (group N, n = 5). In group F, thrombus formation was observed at the fibrinogen‐coated point of the housing. In contrast, a relatively small thrombus was observed in varying locations such as the housing or the impeller in group N. Thrombus formation time (the time from when the phase difference takes the minimum value to when the experiment is terminated) was different between the two groups. The mean time was significantly shorter in group F (44 ± 29 minutes) than in group N (143 ± 38 minutes; p = 0.0019). Therefore, a preconditioning method that induced thrombus formation at the target point inside a blood pump was successfully developed. |
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ISSN: | 0160-564X 1525-1594 |
DOI: | 10.1111/aor.13743 |