Norfolk and Norwich University Hospital, Department of Otolaryngology, Norwich, NR4 7UY, United Kingdom.
University of East Anglia, School of Computing Sciences, Norwich, NR4 7TJ, United Kingdom.
Sci Rep. 2019 Jul 18;9(1):10452. doi: 10.1038/s41598-019-46970-7.
Dizziness is a common condition that is responsible for a significant degree of material morbidity and burden on health services. It is usually episodic and short-lived, so when a patient presents to their clinician, examination is normal. The CAVA (Continuous Ambulatory Vestibular Assessment) device has been developed to provide continuous monitoring of eye-movements, allowing insight into the physiological parameters present during a dizziness attack. This article describes the first clinical investigation into the medical and technical aspects of this new diagnostic system. Seventeen healthy subjects wore the device near continuously for up to thirty days, artificially inducing nystagmus on eight occasions. 405 days' worth of data was captured, comprising around four billion data points. A computer algorithm developed to detect nystagmus demonstrated a sensitivity of 99.1% (95% CI: 95.13% to 99.98%) and a specificity of 98.6% (95% CI: 96.54% to 99.63%). Eighty-two percent of participants wore the device for a minimum of eighty percent of each day. Adverse events were self-limiting and mostly the consequence of skin stripping from the daily replacement of the electrodes. The device was shown to operate effectively as an ambulatory monitor, allowing the reliable detection of artificially induced nystagmus.
头晕是一种常见病症,会导致相当程度的身体不适和医疗负担。它通常是间歇性的且持续时间短,因此当患者向其临床医生就诊时,检查通常是正常的。CAVA(连续动态前庭评估)设备的开发旨在提供对眼球运动的连续监测,从而深入了解头晕发作期间的生理参数。本文描述了对这种新诊断系统的医学和技术方面的首次临床研究。十七名健康受试者连续佩戴该设备长达三十天,人工诱发眼球震颤八次。共采集了 405 天的数据,包含约 40 亿个数据点。开发的用于检测眼球震颤的计算机算法显示出 99.1%的灵敏度(95%CI:95.13%至 99.98%)和 98.6%的特异性(95%CI:96.54%至 99.63%)。82%的参与者每天至少佩戴该设备 80%的时间。不良事件是自限性的,主要是由于每天更换电极导致皮肤剥落。该设备作为一种可移动监测器能够有效地运行,能够可靠地检测到人工诱发的眼球震颤。
