Gratz Irwin, Deal Edward, Spitz Francis, Baruch Martin, Allen I Elaine, Seaman Julia E, Pukenas Erin, Jean Smith
Department of Anesthesiology, Cooper Medical School at Rowan University Cooper University Hospital, Camden, New Jersey, USA.
Empirical Technologies Corporation, Charlottesville, Virginia, USA.
BMC Anesthesiol. 2017 Mar 21;17(1):48. doi: 10.1186/s12871-017-0337-z.
Despite increased interest in non-invasive arterial pressure monitoring, the majority of commercially available technologies have failed to satisfy the limits established for the validation of automatic arterial pressure monitoring by the Association for the Advancement of Medical Instrumentation (AAMI). According to the ANSI/AAMI/ISO 81060-2:2013 standards, the group-average accuracy and precision are defined as acceptable if bias is not greater than 5 mmHg and standard deviation is not greater than 8 mmHg. In this study, these standards are used to evaluate the CareTaker® (CT) device, a device measuring continuous non-invasive blood pressure via a pulse contour algorithm called Pulse Decomposition Analysis.
A convenience sample of 24 patients scheduled for major abdominal surgery were consented to participate in this IRB approved pilot study. Each patient was monitored with a radial arterial catheter and CT using a finger cuff applied to the contralateral thumb. Hemodynamic variables were measured and analyzed from both devices for the first thirty minutes of the surgical procedure including the induction of anesthesia. The mean arterial pressure (MAP), systolic and diastolic blood pressures continuously collected from the arterial catheter and CT were compared. Pearson correlation coefficients were calculated between arterial catheter and CT blood pressure measurements, a Bland-Altman analysis, and polar and 4Q plots were created.
The correlation of systolic, diastolic, and mean arterial pressures were 0.92, 0.86, 0.91, respectively (p < 0.0001 for all the comparisons). The Bland-Altman comparison yielded a bias (as measured by overall mean difference) of -0.57, -2.52, 1.01 mmHg for systolic, diastolic, and mean arterial pressures, respectively with a standard deviation of 7.34, 6.47, 5.33 mmHg for systolic, diastolic, and mean arterial pressures, respectively (p < 0.001 for all comparisons). The polar plot indicates little bias between the two methods (90%/95% CI at 31.5°/52°, respectively, overall bias = 1.5°) with only a small percentage of points outside these lines. The 4Q plot indicates good concordance and no bias between the methods.
In this study, blood pressure measured using the non-invasive CT device was shown to correlate well with the arterial catheter measurements. Larger studies are needed to confirm these results in more varied settings. Most patients exhibited very good agreement between methods. Results were well within the limits established for the validation of automatic arterial pressure monitoring by the AAMI.
尽管对无创动脉压监测的兴趣有所增加,但大多数市售技术未能满足美国医学仪器促进协会(AAMI)为自动动脉压监测验证所设定的限制。根据ANSI/AAMI/ISO 81060-2:2013标准,如果偏差不大于5 mmHg且标准差不大于8 mmHg,则组平均准确性和精密度被定义为可接受。在本研究中,这些标准用于评估CareTaker®(CT)设备,该设备通过一种称为脉搏分解分析的脉搏轮廓算法测量连续无创血压。
对24例计划进行腹部大手术的患者进行便利抽样,同意参与这项经机构审查委员会批准的试点研究。每位患者均使用桡动脉导管进行监测,并使用应用于对侧拇指的指套式CT设备进行监测。在手术过程的前30分钟(包括麻醉诱导期),从两种设备测量并分析血流动力学变量。比较从动脉导管和CT连续收集的平均动脉压(MAP)、收缩压和舒张压。计算动脉导管和CT血压测量值之间的Pearson相关系数,进行Bland-Altman分析,并绘制极坐标图和四象限图。
收缩压、舒张压和平均动脉压的相关性分别为0.92、0.86、0.91(所有比较的p<0.0001)。Bland-Altman比较得出,收缩压、舒张压和平均动脉压的偏差(以总体平均差异衡量)分别为-0.57、-2.52、1.01 mmHg,收缩压、舒张压和平均动脉压的标准差分别为7.34、6.47、5.33 mmHg(所有比较的p<0.001)。极坐标图显示两种方法之间偏差很小(分别在31.5°/52°处的90%/95%置信区间,总体偏差=1.5°),只有一小部分点在这些线之外。四象限图显示方法之间具有良好的一致性且无偏差。
在本研究中,使用无创CT设备测量的血压与动脉导管测量结果显示出良好的相关性。需要更大规模的研究在更多样化的环境中证实这些结果。大多数患者在两种方法之间表现出非常好的一致性。结果完全在AAMI为自动动脉压监测验证所设定的限制范围内。
