一种常规评估平衡 Kt/Vβ2-M 的简单方法。
A simple approach for assessing equilibrated Kt/V beta 2-M on a routine basis.
机构信息
Nephrology, Ospedale Madonna delle Grazie, Matera, Italy.
出版信息
Nephrol Dial Transplant. 2010 Sep;25(9):3038-44. doi: 10.1093/ndt/gfq173. Epub 2010 Mar 31.
BACKGROUND
Large observational studies have shown a reduction in morbidity and mortality in patients on high-flux haemodialysis (HD) or convective techniques, compared with low-flux HD. An index to evaluate treatment efficiency in middle molecule (MM) removal would be recommended. Since beta-2-microglobulin (beta2-M) is a recognized MM marker, we evaluated an easy approach for Kt/V(beta2-M) assessment on a routine basis, avoiding other complex methods.
METHODS
An equation that estimates single-pool (sp) Kt/V(beta2-M) was derived from Leypoldt's formula, which calculates beta2-M dialyser clearance (K(beta2-M)) from the post/pre-dialysis beta2-M concentration (C(t)/C(0)) ratio and the weight loss/end-dialysis weight (Delta W/W) ratio. Our equation, spKt/V(beta2-M) = 6.12 Delta W/W [1 - ln(C(t)/C(0))/ln(1 + 6.12 Delta W/W)], was derived by assuming urea distribution volume (V(u)) as 49% of W and beta2-M volume (V(beta2-M)) as V(u)/3, in agreement with the average patient values in the HEMO Study. The spKt/V(beta2-M) values calculated with our equation (F) in 129 patients on 407 sessions of different high-flux treatments were compared with those calculated with the method applied in the HEMO Study (HM). Equilibrated beta2-M concentration (C(eq)) of the same sessions was also estimated with the equation for C(eq) by Tattersall, and equilibrated Kt/V (eKt/V(beta2-M)) was calculated by introducing Tattersall's equation into our simplified spKt/V(beta2-M) formula.
RESULTS
Mean results of our spKt/V(beta2-M) equation (F) were very close to those of the HM method (1.48 +/- 0.38 vs 1.47 +/- 0.37). The difference was less than +/-0.1 in 95% of cases. A mean end-session beta2-M rebound of 44 +/- 14% was predicted, which caused a mean reduction in actual Kt/V(beta2-M) of ~27% (eKt/V(beta2-M) = 1.08 +/- 0.26).
CONCLUSIONS
The method proposed to estimate spKt/V(beta2-M) and eKt/V(beta2-M) could become a simple tool to monitor the efficiency of high-flux HD and convective techniques and to evaluate the adequacy of treatments in terms of MM removal. Moreover, it might help to better understand the effects of different dialysis schedules. Validation on a larger dialysis population is required.
背景
与低通量血液透析(HD)相比,大型观察性研究表明高通量 HD 或对流技术可降低患者的发病率和死亡率。建议使用一种评估中分子(MM)清除效率的指数。由于β-2-微球蛋白(β2-M)是公认的 MM 标志物,因此我们评估了一种基于常规的简单方法来评估单室(sp)β2-M 的 Kt/V,避免了其他复杂的方法。
方法
从 Leypoldt 公式推导出一种估计单池(sp)β2-M 的 Kt/V(β2-M)的方程,该公式通过测定β2-M 透析器清除率(K(β2-M))来计算β2-M 透析器清除率(K(β2-M))从透析前后β2-M 浓度(C(t)/C(0))比和体重减轻/终末透析体重(ΔW/W)比。我们的方程,spKt/V(β2-M)= 6.12ΔW/W [1-ln(C(t)/C(0))/ln(1 + 6.12ΔW/W)],通过假设尿素分布容积(V(u))为 49%的 W 和β2-M 容积(V(β2-M))为 V(u)/3,与 HEMO 研究中的平均患者值一致。在 129 名患者的 407 次不同高通量治疗中,使用我们的方程(F)计算的 spKt/V(β2-M)值与在 HEMO 研究中应用的方法(HM)计算的 spKt/V(β2-M)值进行了比较。同时,也用 Tattersall 的方程估计了同一透析期间的平衡β2-M 浓度(C(eq)),并通过引入 Tattersall 的方程到我们简化的 spKt/V(β2-M)公式中,计算了平衡的 Kt/V(β2-M)(eKt/V(β2-M))。
结果
我们的 spKt/V(β2-M)方程(F)的平均结果非常接近 HM 方法(1.48 ± 0.38 vs 1.47 ± 0.37)。在 95%的情况下,差异小于±0.1。预测平均终末透析时β2-M 反弹率为 44 ± 14%,这导致实际 Kt/V(β2-M)的平均降低约 27%(eKt/V(β2-M)= 1.08 ± 0.26)。
结论
提出的估计 spKt/V(β2-M)和 eKt/V(β2-M)的方法可以成为监测高通量 HD 和对流技术效率以及评估 MM 清除治疗效果的简单工具。此外,它可能有助于更好地理解不同透析方案的影响。需要在更大的透析人群中进行验证。
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