开发 pH 值敏感薄膜,通过超声发光化学成像检测种植体感染

Gretchen B. Schober, Unaiza Uzair, Morgan Reel, Vigjna Abbaraju, Herbert Behlow, Apparao M. Rao, Sriparna Bhattacharya, Jeffrey N. Anker
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引用次数: 0

摘要

本文介绍了一种新型混合超声发光化学成像技术和 pH 传感器,用于成像植入式医疗设备表面的化学浓度。其目的是检测和研究感染期间的局部生物化学。传感器由机械发光薄膜(SrAl2O4:Eu, Dy 微磷酸盐嵌入生物相容性聚合物薄膜中)和 pH 指示染料组成。聚焦超声波束在超声波焦点处产生绿色荧光。通过脉冲式开启和关闭超声波,可将调制发光与持续发光区分开来,从而实现高空间分辨率成像。涂层中加入红色荧光染料和 pH 指示剂染料溴百里酚蓝,通过 pH 值吸光来调节红光透射率。酸中毒在光谱和成像中表现为红色发光强度的增加。这种薄膜对生物相关的 pH 值变化(6.0-8.0)很敏感,可以通过光学散射介质模拟组织进行成像。通过光学散射模型,受聚焦超声光斑大小的限制,图像具有≈3 毫米的刀刃空间分辨率。这项新技术可用于阐明种植体表面的种植体感染情况,未来还可进一步开发用于测量其他相关化学物质。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Development of pH-Sensitive Film for Detection of Implant Infection via Ultrasound Luminescent Chemical Imaging

Development of pH-Sensitive Film for Detection of Implant Infection via Ultrasound Luminescent Chemical Imaging

A new hybrid ultrasound luminescent chemical imaging technique is described along with a pH sensor to image chemical concentrations at the surface of implanted medical devices. The purpose is to detect and study local biochemistry during infection. The sensor comprises a mechanoluminescent film (SrAl2O4:Eu, Dy microphosphors embedded in a biocompatible polymer film) and a pH indicator dye. A focused ultrasound beam generates green luminescence at the ultrasound focal point. By pulsing the ultrasound ON and OFF, the modulated luminescence can be distinguished from persistent luminescence, for high spatial resolution imaging. A red fluorescent dye and the pH indicator dye bromothymol blue are added to the coating to modulate the red-light transmittance via pH dependent absorbance. Acidosis is observed as an increase in red luminescence intensity in spectroscopy and imaging. The films are sensitive to biologically relevant changes in pH (6.0–8.0) and can be imaged through optically scattering media to mimic tissue. The images have a knife edge spatial resolution of ≈3 mm through optically scattering phantoms, limited by the focused ultrasound spot size. This novel technique may permit the elucidation of implant infection at the implant surface and can be further developed for the measurement of other relevant chemical species in the future.

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