Lerner A G, Bernabé-Ortiz A, Ticse R, Hernandez A, Huaylinos Y, Pinto M E, Málaga G, Checkley W, Gilman R H, Miranda J J
CRONICAS Center of Excellence in Chronic Diseases, Universidad Peruana Cayetano Heredia, Lima, Peru.
Vanderbilt Institute for Global Health, Vanderbilt University, Nashville, TN, USA.
Diabet Med. 2015 Nov;32(11):1470-8. doi: 10.1111/dme.12752. Epub 2015 Apr 7.
To determine if changes in pupillary response are useful as a screening tool for diabetes and to assess whether pupillometry is associated with cardiac autonomic neuropathy.
We conducted a cross-sectional study with participants drawn from two settings: a hospital and a community site. At the community site, individuals with newly diagnosed diabetes as well as a random sample of control individuals without diabetes, confirmed by oral glucose tolerance test, were selected. Participants underwent an LED light stimulus test and eight pupillometry variables were measured. Outcomes were diabetes, defined by oral glucose tolerance test, and cardiac autonomic dysfunction, determined by a positive readout on two of four diagnostic tests: heart rate response to the Valsalva manoeuvre; orthostatic hypotension; 30:15 ratio; and expiration-to-inspiration ratio. The area under the curve, best threshold, sensitivity and specificity of each pupillometry variable was calculated.
Data from 384 people, 213 with diabetes, were analysed. The mean (±sd) age of the people with diabetes was 58.6 (±8.2) years and in the control subjects it was 56.1 (±8.6) years. When comparing individuals with and without diabetes, the amplitude of the pupil reaction had the highest area under the curve [0.69 (sensitivity: 78%; specificity: 55%)]. Cardiac autonomic neuropathy was present in 51 of the 138 people evaluated (37.0%; 95% CI 28.8-45.1). To diagnose cardiac autonomic neuropathy, two pupillometry variables had the highest area under the curve: baseline pupil radius [area under the curve: 0.71 (sensitivity: 51%; specificity: 84%)], and amplitude of the pupil reaction [area under the curve: 0.70 (sensitivity: 82%; specificity: 55%)].
Pupillometry is an inexpensive technique to screen for diabetes and cardiac autonomic neuropathy, but it does not have sufficient accuracy for clinical use as a screening tool.
确定瞳孔反应变化是否可作为糖尿病的筛查工具,并评估瞳孔测量与心脏自主神经病变是否相关。
我们进行了一项横断面研究,参与者来自两个场所:一家医院和一个社区地点。在社区地点,选取新诊断为糖尿病的个体以及经口服葡萄糖耐量试验确诊的无糖尿病对照个体的随机样本。参与者接受了LED光刺激试验,并测量了八个瞳孔测量变量。结局指标为经口服葡萄糖耐量试验定义的糖尿病,以及通过四项诊断试验中的两项阳性读数确定的心脏自主神经功能障碍:对瓦尔萨尔瓦动作的心率反应;直立性低血压;30:15比值;以及呼气与吸气比值。计算每个瞳孔测量变量的曲线下面积、最佳阈值、敏感性和特异性。
分析了384人的数据,其中213人患有糖尿病。糖尿病患者的平均(±标准差)年龄为58.6(±8.2)岁,对照受试者为56.1(±8.6)岁。在比较糖尿病患者和非糖尿病患者时,瞳孔反应幅度的曲线下面积最高[0.69(敏感性:78%;特异性:55%)]。在138名接受评估的人中,有51人存在心脏自主神经病变(37.0%;95%可信区间28.8 - 45.1)。为诊断心脏自主神经病变,两个瞳孔测量变量的曲线下面积最高:基线瞳孔半径[曲线下面积:0.71(敏感性:51%;特异性:84%)],以及瞳孔反应幅度[曲线下面积:0.70(敏感性:82%;特异性:55%)]。
瞳孔测量是一种筛查糖尿病和心脏自主神经病变的廉价技术,但作为临床筛查工具,其准确性不足。
