用于追踪毛细血管内单个红细胞以计算速度和氧饱和度的自动化方法。

Automated method for tracking individual red blood cells within capillaries to compute velocity and oxygen saturation.

作者信息

Japee Shruti A, Pittman Roland N, Ellis Christopher G

机构信息

Department of Biomedical Engineering, Medical College of Virginia Campus, Virginia Commonwealth University, Richmond, 23298, USA.

出版信息

Microcirculation. 2005 Sep;12(6):507-15. doi: 10.1080/10739680591003341.

DOI:10.1080/10739680591003341

PMID:16147467

Abstract

OBJECTIVE

The authors present a new method to track individual red blood cells (RBCs) as they move through capillaries. This method uses a recently developed Measurement and Analysis System for Capillary Oxygen Transport (MASCOT) and the concept of space-time images to track RBCs between consecutive frames of video recordings of the microcirculation.

METHODS

A space-time image displays in a single static image for a single capillary the location of all RBCs as a function of time. Analysis is performed on video tapes of RBC flow through capillaries to obtain velocity of individual cells as they traverse the capillary of interest. A space-time image is generated to track RBCs from one frame to the next and their velocities are computed. Based on the optical density values of each cell obtained from synchronized videotapes at two wavelengths, the oxygen saturation of a cell can be determined. In this manner, oxygen saturation can be tracked for the same cells as they move through the capillary.

RESULTS AND CONCLUSIONS

These measurements, taken together, allow one to determine how much and how fast oxygen is being delivered to the surrounding tissue. This method provides, for the first time, a way to track individual RBCs flowing through capillary networks and study their RBC dynamics and oxygenation.

摘要

目的

作者提出一种新方法，用于追踪单个红细胞（RBC）在毛细血管中移动的过程。该方法使用最近开发的毛细血管氧运输测量与分析系统（MASCOT）以及时空图像的概念，在微循环视频记录的连续帧之间追踪红细胞。

方法

时空图像在单个静态图像中显示单个毛细血管中所有红细胞随时间变化的位置。对红细胞流经毛细血管的录像带进行分析，以获取单个细胞穿过感兴趣毛细血管时的速度。生成时空图像以追踪红细胞从一帧到下一帧的情况，并计算它们的速度。根据从两个波长的同步录像带获得的每个细胞的光密度值，可以确定细胞的氧饱和度。通过这种方式，可以在相同细胞穿过毛细血管时追踪其氧饱和度。

结果与结论

综合这些测量结果，可以确定有多少氧气以及以多快的速度输送到周围组织。该方法首次提供了一种追踪流经毛细血管网络的单个红细胞并研究其红细胞动力学和氧合作用的方法。

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用于追踪毛细血管内单个红细胞以计算速度和氧饱和度的自动化方法。

Automated method for tracking individual red blood cells within capillaries to compute velocity and oxygen saturation.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS

RESULTS AND CONCLUSIONS

目的

方法

结果与结论

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