Department of Intensive Care Medicine, Onze Lieve Vrouwe Gasthuis, 1091 AC Amsterdam, The Netherlands.
Crit Care. 2009;13(6):R193. doi: 10.1186/cc8191. Epub 2009 Dec 3.
Renal insufficiency increases the half-life of low molecular weight heparins (LMWHs). Whether continuous venovenous hemofiltration (CVVH) removes LMWHs is unsettled. We studied hemostasis during nadroparin anticoagulation for CVVH, and explored the implication of the endogenous thrombin potential (ETP).
This cross-over study, performed in a 20-bed teaching hospital ICU, randomized non-surgical patients with acute kidney injury requiring nadroparin for CVVH to compare hemostasis between two doses of CVVH: filtrate flow was initiated at 4 L/h and converted to 2 L/h after 60 min in group 1, and vice versa in group 2. Patients received nadroparin 2850 IU i.v., followed by 380 IU/h continuously in the extracorporeal circuit. After baseline sampling, ultrafiltrate, arterial (art) and postfilter (PF) blood was taken for hemostatic markers after 1 h, and 15 min, 6 h, 12 h and 24 h after converting filtrate flow. We compared randomized groups, and 'early circuit clotting' to 'normal circuit life' groups.
Fourteen patients were randomized, seven to each group. Despite randomization, group 1 had higher SOFA scores (median 14 (IQR 11-15) versus 9 (IQR 5-9), p = 0.004). Anti-Xa art activity peaked upon nadroparin bolus and declined thereafter (p = 0.05). Anti-Xa PF did not change in time. Anti-Xa activity was not detected in ultrafiltrate. Medians of all anti-Xa samples were lower in group 1 (anti-Xa art 0.19 (0.12-0.37) vs. 0.31 (0.23-0.52), p = 0.02; anti-Xa PF 0.34 (0.25-0.44) vs. 0.51 (0.41-0.76), p = 0.005). After a steep decline, arterial ETPAUC tended to increase (p = 0.06), opposite to anti-Xa, while postfilter ETPAUC increased (p = 0.001). Median circuit life was 24.5 h (IQR 12-37 h). Patients with 'short circuit life' had longer baseline prothrombin time (PTT), activated thromboplastin time (aPTT), lower ETP, higher thrombin-antithrombin complexes (TAT) and higher SOFA scores; during CVVH, anti-Xa, and platelets were lower; PTT, aPTT, TAT and D-dimers were longer/higher and ETP was slower and depressed.
We found no accumulation and no removal of LMWH activity during CVVH. However, we found that early circuit clotting was associated with more severe organ failure, prior systemic thrombin generation with consumptive coagulopathy, heparin resistance and elevated extracorporeal thrombin generation. ETP integrates these complex effects on the capacity to form thrombin.
Clinicaltrials.gov ID NCT00965328.
肾功能不全会延长低分子肝素(LMWHs)的半衰期。连续性静脉-静脉血液滤过(CVVH)是否能清除 LMWHs 尚未确定。我们研究了纳屈肝素抗凝期间 CVVH 的止血情况,并探讨了内源性凝血酶潜能(ETP)的意义。
本交叉研究在一家 20 张床位的教学医院 ICU 进行,将需要纳屈肝素进行 CVVH 的非手术急性肾损伤患者随机分为两组,比较两种 CVVH 剂量之间的止血情况:组 1 的滤出液流速在 60 分钟时从 4 L/h 转换为 2 L/h,组 2 则相反。患者接受纳屈肝素 2850 IU 静脉注射,随后在体外循环中持续输注 380 IU/h。基线采样后,在转换滤出液流速后 1 小时、15 分钟、6 小时、12 小时和 24 小时时,分别从超滤液、动脉(art)和滤过器后(PF)血样中采集止血标志物。我们比较了随机分组、“早期回路凝血”与“正常回路寿命”组。
共有 14 名患者被随机分为两组,每组 7 名。尽管进行了随机分组,组 1 的 SOFA 评分更高(中位数 14(IQR 11-15)vs. 9(IQR 5-9),p=0.004)。纳屈肝素推注后抗 Xa art 活性达到峰值,随后下降(p=0.05)。抗 Xa PF 随时间无变化。超滤液中未检测到抗 Xa 活性。组 1 的所有抗 Xa 样本中位数均较低(抗 Xa art 0.19(0.12-0.37)vs. 0.31(0.23-0.52),p=0.02;抗 Xa PF 0.34(0.25-0.44)vs. 0.51(0.41-0.76),p=0.005)。动脉 ETP AUC 在急剧下降后趋于增加(p=0.06),与抗 Xa 相反,而滤过器后 ETP AUC 增加(p=0.001)。中位回路寿命为 24.5 小时(IQR 12-37 小时)。“回路寿命短”的患者基线凝血酶原时间(PTT)、活化部分凝血活酶时间(aPTT)较长,内源性凝血酶潜能(ETP)较低,凝血酶-抗凝血酶复合物(TAT)和 SOFA 评分较高;在 CVVH 期间,抗 Xa 和血小板较低;PTT、aPTT、TAT 和 D-二聚体较长/较高,ETP 较慢且受抑制。
我们发现,在 CVVH 期间没有 LMWH 活性的积累或清除。然而,我们发现早期回路凝血与更严重的器官衰竭、全身凝血酶生成、消耗性凝血障碍、肝素耐药和体外血栓生成增加有关。ETP 综合了这些对形成凝血酶能力的复杂影响。
Clinicaltrials.gov ID NCT00965328。
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