Division of Nephrology, Department of Internal Medicine, Medical University of Graz, Graz, Austria.
Clinical Institute of Medical and Chemical Laboratory Diagnostics, Medical University of Graz, Graz, Austria.
Nephrol Dial Transplant. 2023 Feb 28;38(3):757-763. doi: 10.1093/ndt/gfac195.
Hyperkalemia is a common complication in cardiorenal patients treated with agents interfering with renal potassium (K+) excretion. It frequently leads to discontinuation of potentially life-saving medication, which has increased the importance of K+ monitoring. Non-invasive means to detect hyperkalemia are currently unavailable, but would be of potential use for therapy guidance. The aim of the present study was to assess the analytical performance of genetically encoded potassium-ion indicators (GEPIIs) in measuring salivary [K+] ([K+]Saliva) and to determine whether changes of [K+]Saliva depict those of [K+]Plasma.
We conducted this proof-of-concept study: saliva samples from 20 healthy volunteers as well as plasma and saliva from 29 patients on hemodialysis (HD) before and after three consecutive HD treatments were collected. We compared [K+]Saliva as assessed by the gold standard ion-selective electrode (ISE) with GEPII measurements.
The Bland-Altmann analysis showed a strong agreement (bias 0.71; 95% limits of agreement from -2.79 to 4.40) between GEPII and ISE. Before treatment, patients on HD showed significantly higher [K+]Saliva compared with healthy controls [median 37.7 (30.85; 48.46) vs 23.8 (21.63; 25.23) mmol/L; P < .05]. [K+]Plasma in HD patients decreased significantly after dialysis. This was paralleled by a significant decrease in [K+]Saliva, and both parameters increased until the subsequent HD session. Despite similar kinetics, we found weak or no correlation between [K+]Plasma and [K+]Saliva.
GEPIIs have shown an excellent performance in determining [K+]Saliva. [K+]Plasma and [K+]Saliva exhibited similar kinetics. To determine whether saliva could be a suitable sample type to monitor [K+]Plasma, further testing in future studies are required.
在接受影响肾脏钾(K+)排泄的药物治疗的心脏肾脏患者中,高钾血症是一种常见的并发症。它经常导致潜在救命药物的停药,这增加了 K+监测的重要性。目前尚无非侵入性手段来检测高钾血症,但可能对治疗指导有用。本研究的目的是评估基因编码钾离子指示剂(GEPII)在测量唾液[K+]([K+]Saliva)中的分析性能,并确定唾液[K+]([K+]Saliva)的变化是否描绘了血浆[K+]([K+]Plasma)的变化。
我们进行了这项概念验证研究:收集了 20 名健康志愿者的唾液样本,以及 29 名血液透析(HD)患者的血液和唾液样本,这些患者在连续三次 HD 治疗前后分别采集。我们将通过金标准离子选择性电极(ISE)评估的[K+]Saliva与 GEPII 测量值进行比较。
Bland-Altman 分析显示 GEPII 和 ISE 之间具有很强的一致性(偏差 0.71;95%置信区间从-2.79 到 4.40)。在治疗前,HD 患者的[K+]Saliva明显高于健康对照组[中位数 37.7(30.85;48.46)vs 23.8(21.63;25.23)mmol/L;P <.05]。HD 患者的[K+]Plasma 在透析后显著下降。这与[K+]Saliva的显著下降平行,并且这两个参数在随后的 HD 治疗期间增加。尽管动力学相似,但我们发现[K+]Plasma 和 [K+]Saliva 之间相关性较弱或没有相关性。
GEPII 在确定[K+]Saliva 方面表现出优异的性能。[K+]Plasma 和 [K+]Saliva 表现出相似的动力学。要确定唾液是否可以作为监测[K+]Plasma 的合适样本类型,需要在未来的研究中进行进一步测试。
