基于IEEE 11073 SDC和HL7的集成互操作神经监测系统实例

Q4 Engineering
Lea Weßbecher, Kornelius Lente, Thilo B. Krüger, Johann Berger, Juliane Neumann
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引用次数: 0

摘要

摘要目的:随着健康等级7 (HL7)标准和IEEE 11073面向服务的设备连接(SDC)家族的不断发展,手术室(OR)医疗设备开放式集成的需求日益明显。然而,迄今为止,可互操作的医疗设备很少。本文介绍了一个将术中神经监测(IONM)设备与基于SDC的射频(RF)手术设备以及基于HL7的医院信息系统(HIS)连接起来的实例。方法:手术前必须将患者相关数据输入神经监测系统。为了尽量减少人工输入,我们集成了一个基于HL7的自动化患者数据查询,该查询在输入患者识别号后完成了HIS提供的所有其他必要数据。在手术过程中,当使用IONM绘制部位的神经结构时,用于凝血的RF设备的并行操作会在神经监测信号中产生伪影,这使得IONM信号无法得到可靠的解释。因此,我们为神经监测设备开发了IEEE 11073 SDC接口,并实现了基于SDC的OR控制面板。当将手探针放置在定位神经结构的位置时,手术室控制面板抑制电外科器械的凝固,只有在定位终止后才重新启用它。术后生成的IONM报告可通过HL7上传至HIS。因此,它被自动分配给先前选择的患者。结果:通过支持SDC和hl7的神经监测系统,我们展示了可互操作医疗设备优化手术工作流程的实际用例。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A practical example of an integrated interoperable neuromonitoring system based on IEEE 11073 SDC and HL7
Abstract Purpose: With the ongoing work on the Health Level Seven (HL7) standards and the IEEE 11073 Serviceoriented Device Connectivity (SDC) family, the demand for open integration of medical devices in the operating room (OR) has become clear. Nevertheless, there are very few interoperable medical devices available to date. This work describes a practical example of connecting an intraoperative neuromonitoring (IONM) device with a radiofrequency (RF) surgical device based on SDC and with the hospital information system (HIS) based on HL7. Methods: Before starting the surgery, patient-related data must be entered into the neuromonitoring system. To minimize manual input, we integrated an automized patient data query based on HL7, which completes all other necessary data provided by the HIS after entering the patient identification number. During the surgery, while mapping neural structures in the situs using IONM, the parallel operation of RF devices for coagulation generates artifacts in the neuromonitoring signals, which makes a reliable interpretation of the IONM signals impossible. Therefore, we developed an IEEE 11073 SDC interface for the neuromonitoring device and implemented an SDC-based OR control panel. While placing the hand probe for mapping neural structures in the situs, the OR control panel suppresses the coagulation of the electrosurgical instrument and only reenables it, after the mapping has been terminated. After the surgery, the generated IONM report can be uploaded into the HIS using HL7. Therewith it is assigned automatically to the previously selected patient. Result: With the SDC- and HL7-enabled neuromonitoring system, we showed a practical use case of interoperable medical devices to optimize surgical workflow.
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来源期刊
Current Directions in Biomedical Engineering
Current Directions in Biomedical Engineering Engineering-Biomedical Engineering
CiteScore
0.90
自引率
0.00%
发文量
239
审稿时长
14 weeks
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