The Wallace H. Coulter School of Biomedical Engineering, Georgia Institute of Technology and Emory University, Atlanta, Georgia, USA.
ASAIO J. 2013 May-Jun;59(3):294-301. doi: 10.1097/MAT.0b013e31828ea5e2.
Acute kidney injury is common in critically ill children, and renal replacement therapies provide a life-saving therapy to a subset of these children. However, there is no Food and Drug Administration-approved device to provide pediatric continuous renal replacement therapy (CRRT). Consequently, clinicians adapt approved adult CRRT devices for use in children because of lack of safer alternatives. Complications occur using adult CRRT devices in children because of inaccurate fluid balance (FB) between the volumes of ultrafiltrate (UF) removed and replacement fluid (RF) delivered. We demonstrate the design and validation of a pediatric fluid management system for obtaining accurate instantaneous and cumulative FB. Fluid transport was achieved via multiple novel pulsatile diaphragm pumps. The conservation of volume principle leveraging the physical property of fluid incompressibility along with mechanical coupling via a crankshaft was used for FB. Accuracy testing was conducted in vitro for 8 hour long continuous operation of the coupled UF and RF pumps. The mean cumulative FB error was <1% across filtration flows from 300 to 3000 ml/hour. This approach of FB control in a pediatric-specific CRRT device would represent a significant accuracy improvement over currently used clinical implementations.
急性肾损伤在危重症儿童中很常见,肾脏替代治疗为其中一部分儿童提供了救命治疗。然而,目前还没有获得美国食品和药物管理局批准的设备可以用于儿科连续性肾脏替代治疗(CRRT)。因此,由于缺乏更安全的替代方法,临床医生会将已批准的成人 CRRT 设备用于儿童。由于超滤(UF)去除量和置换液(RF)输送量之间的不准确的液体平衡(FB),在儿童中使用成人 CRRT 设备会出现并发症。我们展示了一种用于获得准确的即时和累积 FB 的儿科液体管理系统的设计和验证。通过多个新型脉动隔膜泵来实现液体输送。利用液体不可压缩的物理特性以及通过曲轴进行的机械耦合来实现体积守恒原理,用于 FB。在体外对耦合的 UF 和 RF 泵进行了长达 8 小时的连续运行的准确性测试。在从 300 到 3000 毫升/小时的过滤流速下,平均累积 FB 误差<1%。这种在儿科特定的 CRRT 设备中进行 FB 控制的方法将代表目前临床应用的重大准确性改进。