Bower Bradley A, Zhao Mingtao, Zawadzki Robert J, Izatt Joseph A
Duke University, Department of Biomedical Engineering, Durham, North Carolina 27708, USA.
J Biomed Opt. 2007 Jul-Aug;12(4):041214. doi: 10.1117/1.2772877.
Investigation of the autoregulatory mechanism of human retinal perfusion is conducted with a real-time spectral domain Doppler optical coherence tomography (SDOCT) system. Volumetric, time-sequential, and Doppler flow imaging are performed in the inferior arcade region on normal healthy subjects breathing normal room air and 100% oxygen. The real-time Doppler SDOCT system displays fully processed, high-resolution [512 (axial) x 1000 (lateral) pixels] B scans at 17 frames/sec in volumetric and time-sequential imaging modes, and also displays fully processed overlaid color Doppler flow images comprising 512 (axial) x 500 (lateral) pixels at 6 frames/sec. Data acquired following 5 min of 100% oxygen inhalation is compared with that acquired 5 min postinhalation for four healthy subjects. The average vessel constriction across the population is -16+/-26% after oxygen inhalation with a dilation of 36+/-54% after a return to room air. The flow decreases by -6+/-20% in response to oxygen and in turn increases by 21+/-28% as flow returns to normal in response to room air. These trends are in agreement with those previously reported using laser Doppler velocimetry to study retinal vessel autoregulation. Doppler flow repeatability data are presented to address the high standard deviations in the measurements.
利用实时光谱域多普勒光学相干断层扫描(SDOCT)系统对人体视网膜灌注的自动调节机制进行了研究。在正常健康受试者呼吸正常室内空气和100%氧气时,在下弓状区域进行容积、时间序列和多普勒血流成像。实时多普勒SDOCT系统在容积和时间序列成像模式下,以17帧/秒的速度显示经过完全处理的高分辨率[512(轴向)×1000(横向)像素]B扫描图像,同时还以6帧/秒的速度显示经过完全处理的叠加彩色多普勒血流图像,该图像由512(轴向)×500(横向)像素组成。对四名健康受试者吸入100%氧气5分钟后采集的数据与吸入后5分钟采集的数据进行了比较。吸氧后,总体平均血管收缩率为-16±26%,恢复到室内空气后血管扩张率为36±54%。血流因吸氧而减少-6±20%,随着恢复到室内空气血流恢复正常,血流又增加21±28%。这些趋势与先前使用激光多普勒测速法研究视网膜血管自动调节时所报告的趋势一致。给出了多普勒血流重复性数据,以解决测量中较高的标准差问题。
