University of Washington, Department of Bioengineering, Seattle, WA 98195, USA.
J Biomed Opt. 2013 Nov;18(11):111412. doi: 10.1117/1.JBO.18.11.111412.
There is currently a need for a safe and effective way to detect and diagnose early stages of childhood caries. A multimodal optical clinical prototype for diagnosing caries demineralization in vivo has been developed. The device can be used to quickly image and screen for any signs of demineralized enamel by obtaining high-resolution and high-contrast surface images using a 405-nm laser as the illumination source, as well as obtaining autofluorescence and bacterial fluorescence images. When a suspicious region of demineralization is located, the device also performs dual laser fluorescence spectroscopy using 405- and 532-nm laser excitation. An autofluorescence ratio of the two excitation lasers is computed and used to quantitatively diagnose enamel health. The device was tested on five patients in vivo as well as on 28 extracted teeth with clinically diagnosed carious lesions. The device was able to provide detailed images that highlighted the lesions identified by the clinicians. The autofluorescence spectroscopic ratios obtained from the extracted teeth successfully quantitatively discriminated between sound and demineralized enamel.
目前需要一种安全有效的方法来检测和诊断儿童龋齿的早期阶段。已经开发出一种用于体内诊断龋齿脱矿的多模态光学临床原型。该设备可以通过使用 405nm 激光作为照明源快速获取高分辨率和高对比度的表面图像,以及获取自发荧光和细菌荧光图像,从而快速成像并筛查任何脱矿釉质的迹象。当发现可疑的脱矿区域时,该设备还可以使用 405nm 和 532nm 激光激发进行双激光荧光光谱分析。计算两个激发激光的自发荧光比率,并用于定量诊断釉质健康状况。该设备在五名体内患者以及二十八颗经临床诊断有龋齿病变的离体牙上进行了测试。该设备能够提供详细的图像,突出显示临床医生识别的病变。从离体牙获得的自发荧光光谱比成功地定量区分了健康和脱矿的釉质。