Department of Intensive Care, Austin Hospital, Melbourne, Victoria, Australia.
Blood Purif. 2024;53(7):533-540. doi: 10.1159/000537928. Epub 2024 Feb 20.
Historically IV and enteral fluids given during acute kidney injury (AKI) were restricted before the introduction of continuous renal replacement therapies (CRRTs) when more liberal fluids improved nutrition for the critically ill. However, fluid accumulation can occur when higher volumes each day are not considered in the fluid balance prescribing and the NET ultrafiltration (NUF) volume target.
The delivered hours of CRRT each day are vital for achievement of fluid balance and time off therapy makes the task more challenging. Clinicians inexperienced with CRRT make this aspect of AKI management a focus of rounding with senior oversight, clear communication, and "precision" a clinical target. Sepsis-associated AKI can be a complex patient where resuscitation and admission days are with a positive fluid load and replacement mind set. Subsequent days in ICU requires fluid regulation, removal, with a comprehensive multilayered assessment before prescribing the daily fluid balance target and the required hourly NET plasma water removal rate (NUF rate). Future machines may include advanced software, new alarms - display metrics, messages and association with machine learning and "AKI models" for setting, monitoring, and guaranteeing fluid removal. This could also link to current hardware such as on-line blood volume assessment with continuous haematocrit measurement.
Fluid balance in the acutely ill is a challenge where forecasting and prediction are necessary. NUF rate and volume each hour should be tracked and adjusted to achieve the daily target. This requires human and machine connections.
在连续性肾脏替代治疗(CRRT)问世之前,急性肾损伤(AKI)期间的静脉和肠内液体受到限制,因为在更自由的液体治疗下,危重患者的营养状况得到改善。然而,当在液体平衡处方中不考虑每天更高的容量,并且 NET 超滤(NUF)体积目标没有被考虑时,可能会发生液体蓄积。
每天提供的 CRRT 小时数对于实现液体平衡至关重要,而停机时间会使任务更具挑战性。经验不足的 CRRT 临床医生将 AKI 管理的这一方面作为高级监督、明确沟通和“精确”临床目标的重点进行查房。脓毒症相关 AKI 患者可能是一个复杂的患者,其复苏和住院天数存在正液负荷和补充的思维模式。在 ICU 后续的日子里,需要进行液体调节、去除,在开具每日液体平衡目标和所需的每小时 NET 血浆水去除率(NUF 率)之前,需要进行全面的多层评估。未来的机器可能包括先进的软件、新的报警-显示指标、消息以及与机器学习和“AKI 模型”的关联,以设置、监测和保证液体去除。这也可以与当前的硬件相连接,例如在线血容量评估与连续血细胞比容测量。
急性疾病患者的液体平衡是一个挑战,需要进行预测。应跟踪和调整每小时的 NUF 率和体积,以达到每日目标。这需要人机连接。
