Leblanc M, Charbonneau R, Lalumière G, Cartier P, Déziel C
Hôpital du Sacré-Coeur de Montréal, Université de Montréal, Québec, Canada.
Am J Kidney Dis. 1996 Feb;27(2):253-61. doi: 10.1016/s0272-6386(96)90549-1.
We measured postdialysis urea rebound (PDUR) 30 minutes after dialysis in 92 chronic hemodialysis patients. The impact of PDUR on the estimation of dialysis delivery assessed by urea reduction ratio and Kt/V was evaluated. Total recirculation, access plus cardiopulmonary, was measured at the end of dialysis with the two-needle low blood flow method. The mean age of the 92 patients (49 men and 43 women) was 59.6 +/- 1.4 years. Thirty-eight patients had been receiving erythropoietin therapy for more than 3 months. Fifteen patients had central venovenous access and 77 had peripheral arteriovenous access. Sixty-five patients were dialyzed using hemophan membranes and 27 were dialyzed using polyacrylonitrile membranes. The mean blood flow rate was 240 +/- 28 mL/min and the mean length of the hemodialysis sessions was 3.6 +/- 0.1 hours. Kt/V was calculated with Daugirdas' second-generation formula. The mean PDUR was 16.6% +/- 0.8% (range, 2% to 44%) (n = 92), and significantly decreased the mean urea reduction ratio from 61.7% +/- 0.8% to 55.5% +/- 0.9%, the mean Kt/V from 1.14 +/- 0.03 to 0.97 +/- 0.02, and the mean protein catabolic rate from 1.06 +/- 0.04 to 0.98 +/- 0.02 (P = 0.0001). The effective Kt/V at 30 minutes postdialysis was well predicted by using a recently proposed equation: eKt/V30 = Kt/Vsp - (0.6 x Kt/Vsp/t) + 0.03, with a mean value corresponding also to 0.97 +/- 0.02. However, this estimation was less predictive in patients with very high PDUR. Moreover, PDUR showed only a weak negative correlation with dialysis session length (r = -0.28) and predialysis patient weight (r = -0.29), and showed no correlation with predialysis serum urea level or with blood flow rate. However, dialysis efficiency, as assessed by K/V, presented a correlation of 0.54 with both PDUR and the difference in Kt/V when using urea immediately postdialysis and at 30 minutes. The mean total recirculation was 7.4% +/- 0.6% (n = 86). Postdialysis urea rebound, calculated between 30 or 120 seconds and 30 minutes after dialysis to deduce the influence of recirculations, was reduced but remained important with a mean of 11.8% +/- 0.7%. Thus, total recirculation contributed to nearly 30% of PDUR. The 24 patients with PDUR > or = 20% were compared with the 68 patients with PDUR lower than 20%: women and patients with higher K/V and higher total recirculation presented greater PDUR. Because of relatively few predictive factors for PDUR, its potential considerable impact on dialysis delivery estimation, and the influence of recirculations on the total PDUR amount, total recirculation and PDUR should be determined on an individual basis in chronic hemodialysis patients. The equation proposed to estimate effective Kt/V at 30 minutes is accurate in most patients with PDUR lower than 30% and is a simple alternative.
我们对92例慢性血液透析患者在透析后30分钟测量了透析后尿素反弹(PDUR)。评估了PDUR对通过尿素清除率和Kt/V评估的透析剂量估算的影响。在透析结束时采用双针低血流量法测量总再循环,即通路加心肺再循环。92例患者(49例男性和43例女性)的平均年龄为59.6±1.4岁。38例患者接受促红细胞生成素治疗超过3个月。15例患者有中心静脉-静脉通路,77例患者有外周动静脉通路。65例患者使用血仿膜进行透析,27例患者使用聚丙烯腈膜进行透析。平均血流量为240±28 mL/分钟,血液透析疗程的平均时长为3.6±0.1小时。Kt/V采用Daugirdas第二代公式计算。平均PDUR为16.6%±0.8%(范围为2%至44%)(n = 92),显著降低了平均尿素清除率,从61.7%±0.8%降至55.5%±0.9%,平均Kt/V从1.14±0.03降至0.97±0.02,平均蛋白分解代谢率从1.06±0.04降至0.98±0.02(P = 0.0001)。使用最近提出的方程可以很好地预测透析后30分钟时的有效Kt/V:eKt/V30 = Kt/Vsp - (0.6×Kt/Vsp/t) + 0.03,其平均值也为0.97±0.02。然而,在PDUR非常高的患者中,这种估算的预测性较差。此外,PDUR与透析疗程时长(r = -0.28)和透析前患者体重(r = -0.29)仅呈弱负相关,与透析前血清尿素水平或血流量无相关性。然而,以K/V评估的透析效率与PDUR以及透析后即刻和30分钟时使用尿素的Kt/V差值均呈0.54的相关性。平均总再循环为7.4%±0.6%(n = 86)。为推断再循环的影响,计算了透析后30秒或120秒至30分钟之间的透析后尿素反弹,其有所降低但仍很显著,平均值为11.8%±0.7%。因此,总再循环对PDUR的贡献接近30%。将24例PDUR≥20%的患者与68例PDUR低于20%的患者进行比较:女性以及K/V和总再循环较高的患者PDUR更高。由于PDUR的预测因素相对较少,其对透析剂量估算可能产生的相当大影响,以及再循环对总PDUR量的影响,在慢性血液透析患者中应个体测定总再循环和PDUR。所提出的用于估算30分钟时有效Kt/V的方程在大多数PDUR低于30%的患者中是准确的,并且是一种简单的替代方法。
