A Novel Method for Effective Cell Segmentation and Tracking in Phase Contrast Microscopic Images

Jo, Hongju; Han, Junghun; Kim, Yoon Suk; Lee, Yong-Heum; Yang, Sejung

doi:10.3390/s21103516

Cited by 7 publications

(1 citation statement)

References 46 publications

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“…Single‐cell segmentation of epithelium, the process that identifies and outlines individual cells in an image, is one of the most difficult tasks in biological image analysis (Akram et al, 2016; Van Valen et al, 2016). Conventional image segmentation uses watershed algorithms (Jo et al, 2021; Kandel et al, 2021; Wang et al, 2019). Watershed algorithms identify gray‐level inflection as a boundary even if the change is subtle.…”

Section: Introductionmentioning

confidence: 99%

Topography of pleural epithelial structure enabled by en face isolation and machine learning

Liu

Valenzuela

Mentzer

et al. 2022

Journal Cellular Physiology

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Pleural epithelial adaptations to mechanical stress are relevant to both normal lung function and parenchymal lung diseases. Assessing regional differences in mechanical stress, however, has been complicated by the nonlinear stress–strain properties of the lung and the large displacements with ventilation. Moreover, there is no reliable method of isolating pleural epithelium for structural studies. To define the topographic variation in pleural structure, we developed a method of en face harvest of murine pleural epithelium. Silver‐stain was used to highlight cell borders and facilitate imaging with light microscopy. Machine learning and watershed segmentation were used to define the cell area and cell perimeter of the isolated pleural epithelial cells. In the deflated lung at residual volume, the pleural epithelial cells were significantly larger in the apex (624 ± 247 μm2) than in basilar regions of the lung (471 ± 119 μm2) (p < 0.001). The distortion of apical epithelial cells was consistent with a vertical gradient of pleural pressures. To assess epithelial changes with inflation, the pleura was studied at total lung capacity. The average epithelial cell area increased 57% and the average perimeter increased 27% between residual volume and total lung capacity. The increase in lung volume was less than half the percent change predicted by uniform or isotropic expansion of the lung. We conclude that the structured analysis of pleural epithelial cells complements studies of pulmonary microstructure and provides useful insights into the regional distribution of mechanical stresses in the lung.

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Section: Introductionmentioning

confidence: 99%

Topography of pleural epithelial structure enabled by en face isolation and machine learning

Liu

Valenzuela

Mentzer

et al. 2022

Journal Cellular Physiology

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The development of an automated microscope image tracking and analysis system

McAfee,

Heath,

Anderson

et al. 2024

Biotechnology Progress

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Microscopy image analysis plays a crucial role in understanding cellular behavior and uncovering important insights in various biological and medical research domains. Tracking cells within the time‐lapse microscopy images is a fundamental technique that enables the study of cell dynamics, interactions, and migration. While manual cell tracking is possible, it is time‐consuming and prone to subjective biases that impact results. In order to solve this issue, we sought to create an automated software solution, named cell analyzer, which is able to track cells within microscopy images with minimal input required from the user. The program of cell analyzer was written in Python utilizing the open source computer vision (OpenCV) library and featured a graphical user interface that makes it easy for users to access. The functions of all codes were verified through closeness, area, centroid, contrast, variance, and cell tracking test. Cell analyzer primarily utilizes image preprocessing and edge detection techniques to isolate cell boundaries for detection and analysis. It uniquely recorded the area, displacement, speed, size, and direction of detected cell objects and visualized the data collected automatically for fast analysis. Our cell analyzer provides an easy‐to‐use tool through a graphical user interface for tracking cell motion and analyzing quantitative cell images.

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A survey on automated cell tracking: challenges and solutions

Yazdi,

Khotanlou

2024

Multimed Tools Appl

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A Novel Method for Effective Cell Segmentation and Tracking in Phase Contrast Microscopic Images

Cited by 7 publications

References 46 publications

Topography of pleural epithelial structure enabled by en face isolation and machine learning

Topography of pleural epithelial structure enabled by en face isolation and machine learning

The development of an automated microscope image tracking and analysis system

A survey on automated cell tracking: challenges and solutions

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