Centennial Medical Center, Nashville, Tennessee.
Pediatr Blood Cancer. 2014 Jun;61(6):1063-7. doi: 10.1002/pbc.24899. Epub 2013 Dec 20.
Thromboembolic events are occurring at increasing rates in neonates and infants. At Children's Mercy Hospitals and Clinics, antithrombin III (AT3) concentrates are often used in combination with enoxaparin to supplement physiologically low AT3 levels. Theoretically, AT3 enhances the anticoagulant activity of enoxaparin and results in decreased time to therapeutic anti-Xa levels. No data exist on use of AT3 for this indication.
This retrospective study compared time to therapeutic anti-Xa levels in patients <1 year of age receiving enoxaparin with AT3 (Group 1) and without AT3 (Group 2) for treatment of thrombosis. Primary objective was to compare time to therapeutic anti-Xa levels (0.5-1 U/ml) between groups. Secondary objectives included comparison of the initial and therapeutic dose of enoxaparin, enoxaparin dose changes, AT3 supplementation, and level monitoring. Bleeding events and cost were also evaluated. Statistical tests included Schuirmann's two one-sided tests for equivalence and general linear models/logistic regression for independent effects of age, critical illness, and timing of AT3.
Mean time to therapeutic anti-Xa levels were not equivalent between Groups 1 and 2 (80.7 vs. 65.2 hours; P = 0.28). Initial enoxaparin dose and number of dose changes were equivalent. Group 1 required higher doses of enoxaparin to achieve therapeutic anti-Xa levels. Age, critical illness, and timing of AT3 had no effect on time to therapeutic anti-Xa levels. Bleeding events were not equivalent between Groups 1 and 2 (14.3% vs. 3.9%; P = 0.55).
Supplementation with AT3 did not decrease time to therapeutic anti-Xa levels, added significant cost, and was associated with increased bleeding events.
血栓栓塞事件在新生儿和婴儿中的发生率不断上升。在儿童慈善医院和诊所,常将抗凝血酶 III(AT3)浓缩物与依诺肝素联合使用,以补充生理上较低的 AT3 水平。理论上,AT3 增强了依诺肝素的抗凝活性,从而缩短了达到治疗性抗-Xa 水平的时间。目前尚无关于该适应证使用 AT3 的数据。
本回顾性研究比较了接受依诺肝素治疗的 <1 岁血栓患者中使用 AT3(第 1 组)和未使用 AT3(第 2 组)的患者达到治疗性抗-Xa 水平(0.5-1 U/ml)的时间。主要目的是比较两组间达到治疗性抗-Xa 水平的时间。次要目标包括比较依诺肝素的初始剂量和治疗剂量、依诺肝素剂量调整、AT3 补充和水平监测。还评估了出血事件和成本。统计检验包括舒尔曼的两种单侧等效性检验和年龄、危重病和 AT3 时间的独立影响的一般线性模型/逻辑回归。
第 1 组和第 2 组达到治疗性抗-Xa 水平的平均时间无差异(80.7 小时对 65.2 小时;P = 0.28)。初始依诺肝素剂量和剂量调整次数相当。第 1 组需要更高剂量的依诺肝素才能达到治疗性抗-Xa 水平。年龄、危重病和 AT3 时间对达到治疗性抗-Xa 水平的时间没有影响。第 1 组和第 2 组的出血事件无差异(14.3%对 3.9%;P = 0.55)。
AT3 补充并未缩短达到治疗性抗-Xa 水平的时间,增加了显著的成本,且与出血事件增加相关。
