新型院前监护仪,具有损伤严重程度警报功能,可识别需要进行救生干预的创伤患者。
Novel prehospital monitor with injury acuity alarm to identify trauma patients who require lifesaving intervention.
机构信息
From the Divisions of Trauma and Surgical Critical Care, Dewitt-Daughtry Family Department of Surgery, University of Miami Miller School of Medicine and Ryder Trauma Center, Miami, Florida.
出版信息
J Trauma Acute Care Surg. 2014 Mar;76(3):743-9. doi: 10.1097/TA.0000000000000099.
BACKGROUND
A miniature wireless vital signs monitor (MWVSM, www.athena.gtx.com) has been designed according to US Special Operations Command specifications for field monitoring of combat casualties. It incorporates an injury acuity algorithm termed the Murphy Factor (MF), which is calculated from whatever vital signs are available at the moment and changes in the last 30 seconds. We tested the hypothesis that MF can identify civilian trauma patients during prehospital transport who will require a lifesaving intervention (LSI) upon hospital admission.
METHODS
From December 2011 to June 2013, a prospective trial was conducted in collaboration with prehospital providers. The MWVSM detects skin temperature, pulse oximetry (SpO2), heart rate (HR), pulse wave transit time, and MF. LSIs included: intubation, tube thoracostomy, central line insertion, blood product transfusion, and operative intervention. Prehospital MWVSM data were compared with simultaneous vital signs (SaO2, systolic blood pressure (SBP), and HR) from a conventional vital signs monitor. Sensitivity, specificity, negative predictive value, positive predictive value, and area under the receiving operating characteristic curves were calculated.
RESULTS
Ninety-six trauma patients experienced predominantly blunt trauma (n = 80, 84%), were mostly male (n = 79, 82%), and had a mean ± SD age of 48 ± 19 years and an Injury Severity Score (ISS) of 10 (17). Those who received an LSI (n = 48) had similar demographics but higher ISS (18 vs. 5) and mortality (23% vs. 0%) (all p < 0.05). The most common LSIs were intubation (n = 24, 25%), blood product transfusion (n = 19, 20%), and emergency surgery (n = 19, 20%). Compared with HR > 100 beats/min, SBP < 90 mm Hg, SaO2 < 95% alone or in combination, MF > 3 during the entire transport time had the largest area under the receiving operating characteristic curves (0.620, p = 0.081). MF greater than 3 had a specificity of 81%, sensitivity of 39%, positive predictive value of 68%, and negative predictive value of 57% for the need for LSI.
CONCLUSION
A single numeric value has the potential to summarize overall patient status and identify prehospital trauma patients who need an LSI. Prehospital monitoring combined with algorithms that include trends over time could improve prehospital care for both civilian and military trauma.
LEVEL OF EVIDENCE
Prospective observational, level II.
背景
根据美国特种作战司令部的规范,我们设计了一种微型无线生命体征监测仪(MWVSM,www.athena.gtx.com),用于战场伤员的现场监测。它包含一种称为“墨菲因子”(MF)的伤害严重度算法,该算法是根据当前和过去 30 秒内的任何生命体征计算得出的。我们检验了这样一个假设,即 MF 可以识别在院前转运期间需要在入院时进行救生干预(LSI)的平民创伤患者。
方法
2011 年 12 月至 2013 年 6 月,与院前救护人员合作进行了一项前瞻性试验。MWVSM 可检测皮肤温度、脉搏血氧饱和度(SpO2)、心率(HR)、脉搏波传播时间和 MF。LSI 包括:插管、胸腔管引流、中心静脉置管、输血和手术干预。比较了院前 MWVSM 数据与同时进行的常规生命体征监测仪(SaO2、收缩压(SBP)和 HR)的生命体征。计算了灵敏度、特异性、阴性预测值、阳性预测值和接收者操作特征曲线下的面积。
结果
96 名创伤患者主要经历了钝性创伤(n = 80,84%),大多数为男性(n = 79,82%),平均年龄为 48 ± 19 岁,损伤严重度评分(ISS)为 10(17)。接受 LSI 的患者(n = 48)具有相似的人口统计学特征,但 ISS 更高(18 比 5)和死亡率更高(23% 比 0%)(均 p < 0.05)。最常见的 LSI 是插管(n = 24,25%)、输血(n = 19,20%)和紧急手术(n = 19,20%)。与 HR > 100 次/分钟、SBP < 90mmHg、SaO2 < 95%或单独或联合比较,MF > 3 在整个转运时间内具有最大的接收者操作特征曲线下面积(0.620,p = 0.081)。MF > 3 对需要 LSI 的患者具有 81%的特异性、39%的敏感性、68%的阳性预测值和 57%的阴性预测值。
结论
一个单一的数值有潜力总结整体患者状况,并识别需要 LSI 的院前创伤患者。结合包括随时间变化趋势的算法的院前监测,可以改善平民和军事创伤的院前护理。
证据水平
前瞻性观察,II 级。
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