Department of Neurology, Brain Center Rudolf Magnus, University Medical Center Utrecht, Utrecht, The Netherlands.
Epilepsia. 2018 Jun;59 Suppl 1:42-47. doi: 10.1111/epi.14047.
A review is given on the combined use of multiple modalities in non electroencephalography (EEG)-based detection of motor seizures in children and adults. A literature search of papers was done on multimodal seizure detection with extraction of data on type of modalities, study design and algorithm, sensitivity, false detection rate, and seizure types. Evidence of superiority was sought for using multiple instead of single modalities. Seven papers were found from 2010 to 2017, mostly using contact sensors such as accelerometers (n = 5), electromyography (n = 2), heart rate (n = 2), electrodermal activity (n = 1), and oximetry (n = 1). Remote sensors included video, radar, movement, and sound. All studies but one were in-hospital, with video-EEG as a gold standard. Algorithms were based on physiology and supervised machine learning, but did not always include a separate test dataset. Sensitivity ranged from 4% to 100% and false detection rate from 0.25 to 20 per 8 hours. Tonic-clonic seizure detection performed best. False detections tended to be restricted to a minority (16%-30%) of patients. Use of multiple sensors increased sensitivity; false detections decreased in one study, but increased in another. These preliminary studies suggest that detection of tonic-clonic seizures might be feasible, but larger field studies are required under more rigorous design that precludes bias. Generic algorithms probably suffice for the majority of patients.
本文综述了在非脑电图(EEG)基础上联合使用多种模态来检测儿童和成人运动性癫痫发作的方法。通过对多模态癫痫发作检测的文献进行搜索,提取了模态类型、研究设计和算法、敏感性、假阳性率和发作类型等数据。旨在寻找使用多种模态而非单一模态的优势证据。从 2010 年到 2017 年共找到了 7 篇论文,主要使用接触式传感器,如加速度计(n=5)、肌电图(n=2)、心率(n=2)、皮肤电活动(n=1)和血氧饱和度(n=1)。远程传感器包括视频、雷达、运动和声音。除了一项研究之外,所有研究均在医院内进行,以视频脑电图作为金标准。算法基于生理学和有监督的机器学习,但并不总是包括单独的测试数据集。敏感性范围从 4%到 100%,假阳性率从每 8 小时 0.25 到 20。强直阵挛性癫痫发作的检测效果最佳。假阳性通常局限于少数患者(16%-30%)。使用多个传感器可提高敏感性;在一项研究中,假阳性减少,但在另一项研究中增加。这些初步研究表明,强直阵挛性癫痫发作的检测可能是可行的,但需要更严格设计的更大规模现场研究来排除偏倚。对于大多数患者来说,通用算法可能就足够了。
