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外文期刊>The Journal of extra-corporeal technology
>Microbubble generation and transmission of medtronic's affinity hardshell venous reservoir and collapsible venous reservoir bag: an in-vitro comparison.
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Microbubble generation and transmission of medtronic's affinity hardshell venous reservoir and collapsible venous reservoir bag: an in-vitro comparison.
Microemboli are implicated in neurological injury; therefore, the extracorporeal circuit (ECC) should not generate microbubbles or transmit introduced air. The venous reservoir is the first component in the ECC designed to remove introduced air. The purpose of this study was to investigate the relative safety of two kinds of adult venous reservoirs--the closed soft-shell venous reservoir (SSVR [Medtronic CBMVR 1600]) and the open hard-shell venous reservoir (HSVR [Affinity NT CVR])--in terms of microbubble generation and introduced air transmission. A recirculating in-vitro circuit was used to compare the two reservoirs with the SSVR further assessed in a fully closed or partially open state. Microbubbles were counted using a Hatteland CMD-10 Doppler in the outflow of the reservoirs before (microbubble generation) and after infusing 20 mL/min of air into the venous line (microbubble transmission) while altering pump flow rates (3 L/min; 5 L/min) and reservoir prime (200 mL; 700 mL). Negligible bubble generation was noted in the SSVRs at both flow rates and either reservoir volume. However, microbubble generation was significant in the HSVR at the higher flow rate of 5 L/min and lower reservoir volume of 200 mL. When infusing air, a flow of 3 L/min was associated with insignificant to small increases in microbubble transmission for all reservoirs. Conversely, infusing air while flowing at 5 L/min was associated with significantly more microbubble transmission for all reservoirs at both low and high reservoir volumes.The SSVR is as safe as the HSVR in microbubble handling as the generation and transmission of microbubbles by the SSVR is not more than the HSVR over a range of prime volumes and flow rates. As both reservoirs transmitted microbubbles at higher pump flow rates regardless of reservoir volumes, it is important to eliminate venous air entrainment during cardiopulmonary bypass.
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机译:微栓塞与神经系统损伤有关;因此,体外回路(ECC)不应产生微气泡或传输引入的空气。静脉储液器是ECC中旨在去除引入的空气的第一个组件。这项研究的目的是研究两种成人静脉水库的相对安全性:封闭的软壳静脉水库(SSVR [Medtronic CBMVR 1600])和开放式硬壳静脉水库(HSVR [Affinity NT CVR]) )-就产生微气泡和引入空气传输而言。体外循环回路用于比较两个储罐,并进一步评估了SSVR在完全关闭或部分打开状态下的情况。使用Hatteland CMD-10多普勒在储液器流出之前(产生微气泡)和向静脉管线注入20 mL / min的空气(传递微气泡)后对微气泡进行计数,同时更改泵的流量(3 L / min; 5)。 L / min)和储液灌注(200 mL; 700 mL)。在SSVR中,无论是流量还是储油罐体积,气泡生成都可以忽略不计。但是,在高流速(5 L / min)和较低储液体积(200 mL)下,HSVR中微气泡的产生非常明显。当注入空气时,对于所有储层,微气泡传输量的小幅增加与微升无关紧要,而流量为3 L / min。相反,在低和高储量下,以5 L / min的流速注入空气与所有储层的微气泡传输量显着相关.SSVR在处理微气泡方面与HSVR一样安全,就像SSVR生成和传输微气泡一样。在一定的盛水量和流速范围内,不超过HSVR。由于两个储液罐均以较高的泵流量传输微气泡,而与储液罐的体积无关,因此在体外循环过程中消除静脉夹带的空气非常重要。
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