Peruzzi W T, Parker M A, Lichtenthal P R, Cochran-Zull C, Toth B, Blake M
Department of Anesthesia, Northwestern University Medical School, Chicago, IL.
Crit Care Med. 1993 Apr;21(4):501-6. doi: 10.1097/00003246-199304000-00007.
This study was designed to a) document the efficacy of a device intended to conserve blood in critically ill patients; b) determine the effect of this blood conservation on hemoglobin concentration and the need for blood transfusions; c) determine if the blood conservation device resulted in interference with arterial pressure waveforms; d) determine if use of the blood conservation device resulted in a difference in the number of accidental needle punctures suffered by healthcare workers.
Prospective, randomized, controlled trial. A clinical trial using prospective, random allocation of consecutive eligible patients.
The medical intensive care unit (ICU) of a university hospital located in a large metropolitan area.
A total of 100 patients who were admitted to the medical ICU, required arterial line monitoring for clinical purposes, and were managed by the ICU medical service. Exclusion criteria included active bleeding or chronic renal failure at the time of ICU admission.
Patients in the experimental group had a blood conservation device incorporated into the arterial pressure monitoring system, while patients in the control group received a conventional arterial pressure monitoring system.
Data gathered included: age; gender; ICU discharge status; the duration of ICU stay; time in the study; volume of all blood drawn, discarded, or lost due to leakage; hemoglobin concentrations; blood transfusions; and accidental needle injuries. Arterial pressure waveforms were recorded and inspected for dampening or other deformation. Mean hemoglobin concentrations were compared on ICU admission and at 12-hr intervals. Demographic and clinical characteristics of the two groups were not significantly different. The volume of blood drawn and discarded from arterial catheters was significantly lower in the blood conservation group (blood conservation device: 5.7 +/- 7.5 mL; control: 96.4 +/- 88.5 mL; p < .0001), as was the total volume of blood discarded (blood conservation device: 19.4 +/- 47.4 mL; control: 103.5 +/- 99.9 mL; p < .0001). Mean hemoglobin concentration on admission was similar in the two groups (blood conservation device group: 11.8 +/- 2.5 g/dL; control group: 12.6 +/- 2.3 g/dL). In both groups, the mean hemoglobin concentration declined most rapidly in the first 24 hrs of ICU care and, thereafter, declined more slowly. Although the mean hemoglobin concentration was higher in the blood conservation group after 6 days, statistical significance was not reached until 9.5 days of ICU care. The mean change in hemoglobin concentration (overall: 1.2 +/- 2.2 g/dL) during the study represents a statistically significant (p < .0001) decrease of 9.7%. Hemoglobin concentration during the study decreased by 1.4 +/- 2.2 g/dL in the control group and 1.0 +/- 2.3 g/dL in the blood conservation group (p = nonsignificant). Univariate and multiple regression analysis demonstrated discarded blood volume to be a significant and independent predictor of the decline in hemoglobin concentration. Transfusion requirements were similar in both groups. The blood conservation system did not alter or interfere with pressure waveforms. There were no accidental needle injuries noted.
The conservation of blood in critically ill patients must be a high-priority concern of all healthcare workers. Our data indicate that the blood conservation system eliminates a significant factor in the decline in hemoglobin concentration. With devices as described here, there is no reason to continue the practice of wasting the blood of critically ill patients in order to prevent preanalytic error.
本研究旨在:a)记录一种旨在为重症患者保存血液的设备的功效;b)确定这种血液保存对血红蛋白浓度和输血需求的影响;c)确定血液保存设备是否会干扰动脉压波形;d)确定使用血液保存设备是否会导致医护人员意外针刺伤数量的差异。
前瞻性、随机、对照试验。一项使用前瞻性、随机分配连续合格患者的临床试验。
位于一个大都市地区的大学医院的医学重症监护病房(ICU)。
共有100名入住医学ICU、因临床目的需要进行动脉置管监测且由ICU医疗服务团队管理的患者。排除标准包括ICU入院时的活动性出血或慢性肾衰竭。
实验组患者在动脉压监测系统中加入了血液保存设备,而对照组患者接受传统的动脉压监测系统。
收集的数据包括:年龄;性别;ICU出院状态;ICU住院时间;研究时间;因渗漏而抽取、丢弃或损失的所有血液量;血红蛋白浓度;输血情况;以及意外针刺伤。记录并检查动脉压波形是否有衰减或其他变形。比较ICU入院时和每隔12小时的平均血红蛋白浓度。两组的人口统计学和临床特征无显著差异。血液保存组从动脉导管抽取和丢弃的血液量显著低于对照组(血液保存设备组:5.7±7.5毫升;对照组:96.4±88.5毫升;p<.0001),丢弃的血液总量也是如此(血液保存设备组:19.4±47.4毫升;对照组:103.5±99.9毫升;p<.0001)。两组入院时的平均血红蛋白浓度相似(血液保存设备组:11.8±2.5克/分升;对照组:12.6±2.3克/分升)。在两组中,ICU护理的前24小时内平均血红蛋白浓度下降最快,此后下降较慢。虽然血液保存组在6天后的平均血红蛋白浓度较高,但直到ICU护理9.5天时才达到统计学显著性。研究期间血红蛋白浓度的平均变化(总体:1.2±2.2克/分升)代表统计学上显著(p<.0001)下降了9.7%。研究期间对照组血红蛋白浓度下降了1.4±2.2克/分升,血液保存组下降了1.0±2.3克/分升(p=无显著性)。单因素和多因素回归分析表明,丢弃的血液量是血红蛋白浓度下降的一个显著且独立的预测因素。两组的输血需求相似。血液保存系统未改变或干扰压力波形。未观察到意外针刺伤。
为重症患者保存血液必须是所有医护人员高度优先关注的问题。我们的数据表明,血液保存系统消除了血红蛋白浓度下降的一个重要因素。使用此处所述的设备,没有理由继续为防止分析前误差而浪费重症患者的血液。
