采用“坐立试验”诊断直立性低血压的最佳诊断阈值。
Optimal diagnostic thresholds for diagnosis of orthostatic hypotension with a 'sit-to-stand test'.
作者信息
Shaw Brett H, Garland Emily M, Black Bonnie K, Paranjape Sachin Y, Shibao Cyndya A, Okamoto Luis E, Gamboa Alfredo, Diedrich André, Plummer W Dale, Dupont William D, Biaggioni Italo, Robertson David, Raj Satish R
机构信息
aDepartment of Cardiac Sciences, Libin Cardiovascular Institute of Alberta, University of Calgary, Calgary, Alberta, Canada bAutonomic Dysfunction Center, Division of Clinical Pharmacology cDepartment of Medicine dDepartment of Biomedical Engineering eDepartment of Biostatistics fDepartment of Pharmacology gDepartment of Neurology, Vanderbilt University, Nashville, Tennessee, USA.
出版信息
J Hypertens. 2017 May;35(5):1019-1025. doi: 10.1097/HJH.0000000000001265.
OBJECTIVE
This study aimed to identify optimal blood pressure cut-offs to diagnose orthostatic hypotension during a sit-to-stand manoeuvre.
METHODS
This was a cross-sectional study of patients and healthy controls from the Vanderbilt Autonomic Dysfunction Center. Blood pressure was measured while supine, seated and standing. Blood pressure changes were calculated from supine-to-standing and seated-to-standing. Orthostatic hypotension was diagnosed on the basis of a supine-to-standing SBP drop at least 20 mmHg or a DBP drop at least 10 mmHg. Receiver operator characteristic (ROC) curves identified optimal sit-to-stand cut-offs.
RESULTS
Amongst the 831 individuals, more had systolic orthostatic hypotension [n = 354 (43%)] than diastolic orthostatic hypotension [n = 305 (37%)] during lying-to-standing. The ROC curves had good characteristics [SBP area under curve = 0.916 (95% confidence interval: 0.896-0.936), P < 0.001; DBP area under curve = 0.930 (95% confidence interval: 0.909-0.950), P < 0.001]. A sit-to stand SBP drop at least 15 mmHg had optimal test characteristics (sensitivity = 80.2%; specificity = 88.9%; positive predictive value = 84.2%; negative predictive value = 85.8%), as did a DBP drop at least 7 mmHg (sensitivity = 87.2%; specificity = 87.2%; positive predictive value = 80.1%; negative predictive value = 92.0%).
CONCLUSIONS
A sit-to-stand manoeuvre with lower diagnostic cut-offs for orthostatic hypotension provides a simple screening test for orthostatic hypotension in situations wherein a supine-to-standing manoeuvre cannot be easily performed. Our analysis suggests that a SBP drop at least 15 mmHg or a DBP drop at least 7 mmHg best optimizes sensitivity and specificity of this sit-to-stand test.
目的
本研究旨在确定在从坐位到站立位动作过程中诊断体位性低血压的最佳血压临界值。
方法
这是一项对范德比尔特自主神经功能障碍中心的患者和健康对照者进行的横断面研究。在仰卧位、坐位和站立位时测量血压。计算从仰卧位到站立位以及从坐位到站立位的血压变化。体位性低血压根据仰卧位到站立位收缩压下降至少20 mmHg或舒张压下降至少10 mmHg来诊断。采用受试者工作特征(ROC)曲线确定从坐位到站立位的最佳临界值。
结果
在831名个体中,从卧位到站立位期间,收缩期体位性低血压患者[n = 354(43%)]多于舒张期体位性低血压患者[n = 305(37%)]。ROC曲线具有良好的特征[收缩压曲线下面积 = 0.916(95%置信区间:0.896 - 0.936),P < 0.001;舒张压曲线下面积 = 0.930(95%置信区间:0.909 - 0.950),P < 0.001]。从坐位到站立位收缩压下降至少15 mmHg具有最佳检测特征(敏感性 = 80.2%;特异性 = 88.9%;阳性预测值 = 84.2%;阴性预测值 = 85.8%),舒张压下降至少7 mmHg时情况相同(敏感性 = 87.2%;特异性 = 87.2%;阳性预测值 = 80.1%;阴性预测值 = 92.0%)。
结论
对于体位性低血压采用较低诊断临界值的从坐位到站立位动作,为在难以轻易进行从仰卧位到站立位动作的情况下筛查体位性低血压提供了一种简单的检测方法。我们的分析表明,收缩压下降至少15 mmHg或舒张压下降至少7 mmHg能最佳地优化这种从坐位到站立位检测的敏感性和特异性。
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