Royal College of Surgeons in Ireland, Dublin, Ireland.
St James's Hospital, Dublin 8, Ireland.
Hemodial Int. 2022 Oct;26(4):480-495. doi: 10.1111/hdi.13033. Epub 2022 Jun 23.
Chronic fluid overload is associated with morbidity and mortality in hemodialysis patients. Optimizing the diagnosis and treatment of fluid overload remains a priority for the nephrology community. Although current methods of assessing fluid status, such as bioimpedance and lung ultrasound, have prognostic and diagnostic value, no single system or technique can be used to maintain euvolemia. The difficulty in maintaining and assessing fluid status led to a publication by the Kidney Health Initiative in 2019 aimed at fostering innovation in fluid management therapies. This review article focuses on the current limitations in our assessment of extracellular volume, and the novel technology and methods that can create a new paradigm for fluid management. The cardiology community has published research on multiparametric wearable devices that can create individualized predictions for heart failure events. In the future, similar wearable technology may be capable of tracking fluid changes during the interdialytic period and enabling behavioral change. Machine learning methods have shown promise in the prediction of volume-related adverse events. Similar methods can be leveraged to create accurate, automated predictions of dry weight that can potentially be used to guide ultrafiltration targets and interdialytic weight gain goals.
慢性液体超负荷与血液透析患者的发病率和死亡率有关。优化液体超负荷的诊断和治疗仍然是肾脏病学领域的重点。尽管目前评估液体状态的方法,如生物阻抗和肺部超声,具有预后和诊断价值,但没有单一的系统或技术可以用于维持血容量正常。维持和评估液体状态的困难导致 2019 年肾脏病健康倡议发表了一篇文章,旨在促进液体管理疗法的创新。这篇综述文章重点介绍了我们在评估细胞外液方面的当前局限性,以及可以为液体管理创造新范例的新技术和方法。心脏病学领域已经发表了关于多参数可穿戴设备的研究,这些设备可以为心力衰竭事件创建个性化预测。在未来,类似的可穿戴技术可能能够跟踪透析间期的液体变化,并实现行为改变。机器学习方法在预测与容量相关的不良事件方面显示出了前景。类似的方法可以被利用来创建准确的、自动的干体重预测,这可能有助于指导超滤目标和透析间期体重增加目标。