Practical Approaches to Microvessel Analysis: Hotspots, Microvessel Density, and Vessel Proximity

Potts, Steven J.; Eberhard, David A.; Salama, Mohamed E.

doi:10.1007/7653_2014_31

Cited by 3 publications

(2 citation statements)

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“…There have been many attempts to help histopathologists in Ki-67 index quantification involving computers and digital versions of the glass slide, called the whole slide image (WSI). A review of papers concerning this subject published both in the days when only small images could be handled by computers [ 17 – 24 ] and nowadays when WSIs are available and computers or clusters of computers have the necessary computing power to manipulate them [ 25 – 34 ] shows that investigators propose the use of computers on at least 3 levels of the process of proliferation index quantification: (1) in region selection, (2) in immunopositive and immunonegative cell nuclei selection, and (3) in proliferation and other index counting. While the third level is obvious and the second is widely explored, the first level is still poorly represented in the literature.…”

Section: Introductionmentioning

confidence: 99%

“…While the third level is obvious and the second is widely explored, the first level is still poorly represented in the literature. There are methods of region selection concerning Hematoxylin and Eosin staining [ 35 – 37 ], while for Ki-67 stained with DAB and counterstained by Hematoxylin there are the studies published by Potts [ 34 ] and coworkers, Lu and coworkers [ 35 ], and Gavrielides and coworkers [ 7 , 8 ]. The third group of investigators performed a pooling study and concluded that “… for validation study should be focused on specific pathology tasks to eliminate sources of variability that might dilute findings.” So, a validation study of a specific use of Digital Pathology, that is, in the quantification of the proliferation index based on Ki-67 used in meningiomas, is presented in this paper.…”

Section: Introductionmentioning

confidence: 99%

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Comparison of the Manual, Semiautomatic, and Automatic Selection and Leveling of Hot Spots in Whole Slide Images for Ki-67 Quantification in Meningiomas

Swiderska

Korzyńska

Markiewicz

et al. 2015

Analytical Cellular Pathology

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Background. This paper presents the study concerning hot-spot selection in the assessment of whole slide images of tissue sections collected from meningioma patients. The samples were immunohistochemically stained to determine the Ki-67/MIB-1 proliferation index used for prognosis and treatment planning. Objective. The observer performance was examined by comparing results of the proposed method of automatic hot-spot selection in whole slide images, results of traditional scoring under a microscope, and results of a pathologist's manual hot-spot selection. Methods. The results of scoring the Ki-67 index using optical scoring under a microscope, software for Ki-67 index quantification based on hot spots selected by two pathologists (resp., once and three times), and the same software but on hot spots selected by proposed automatic methods were compared using Kendall's tau-b statistics. Results. Results show intra- and interobserver agreement. The agreement between Ki-67 scoring with manual and automatic hot-spot selection is high, while agreement between Ki-67 index scoring results in whole slide images and traditional microscopic examination is lower. Conclusions. The agreement observed for the three scoring methods shows that automation of area selection is an effective tool in supporting physicians and in increasing the reliability of Ki-67 scoring in meningioma.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Comparison of the Manual, Semiautomatic, and Automatic Selection and Leveling of Hot Spots in Whole Slide Images for Ki-67 Quantification in Meningiomas

Swiderska

Korzyńska

Markiewicz

et al. 2015

Analytical Cellular Pathology

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Hot-spot selection and evaluation methods for whole slice images of meningiomas and oligodendrogliomas

Swiderska

Markiewicz

Grala

et al. 2015

2015 37th Annual International Conference of the IEEE Engineering in Medicine and Biology Society (EMBC)

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The paper presents a combined method for an automatic hot-spot areas selection based on penalty factor in the whole slide images to support the pathomorphological diagnostic procedure. The studied slides represent the meningiomas and oligodendrogliomas tumor on the basis of the Ki-67/MIB-1 immunohistochemical reaction. It allows determining the tumor proliferation index as well as gives an indication to the medical treatment and prognosis. The combined method based on mathematical morphology, thresholding, texture analysis and classification is proposed and verified. The presented algorithm includes building a specimen map, elimination of hemorrhages from them, two methods for detection of hot-spot fields with respect to an introduced penalty factor. Furthermore, we propose localization concordance measure to evaluation localization of hot spot selection by the algorithms in respect to the expert's results. Thus, the results of the influence of the penalty factor are presented and discussed. It was found that the best results are obtained for 0.2 value of them. They confirm effectiveness of applied approach.

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Content-based analysis of Ki-67 stained meningioma specimens for automatic hot-spot selection

et al. 2016

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BackgroundHot-spot based examination of immunohistochemically stained histological specimens is one of the most important procedures in pathomorphological practice. The development of image acquisition equipment and computational units allows for the automation of this process. Moreover, a lot of possible technical problems occur in everyday histological material, which increases the complexity of the problem. Thus, a full context-based analysis of histological specimens is also needed in the quantification of immunohistochemically stained specimens. One of the most important reactions is the Ki-67 proliferation marker in meningiomas, the most frequent intracranial tumour. The aim of our study is to propose a context-based analysis of Ki-67 stained specimens of meningiomas for automatic selection of hot-spots.MethodsThe proposed solution is based on textural analysis, mathematical morphology, feature ranking and classification, as well as on the proposed hot-spot gradual extinction algorithm to allow for the proper detection of a set of hot-spot fields. The designed whole slide image processing scheme eliminates such artifacts as hemorrhages, folds or stained vessels from the region of interest. To validate automatic results, a set of 104 meningioma specimens were selected and twenty hot-spots inside them were identified independently by two experts. The Spearman rho correlation coefficient was used to compare the results which were also analyzed with the help of a Bland-Altman plot.ResultsThe results show that most of the cases (84) were automatically examined properly with two fields of view with a technical problem at the very most. Next, 13 had three such fields, and only seven specimens did not meet the requirement for the automatic examination. Generally, the Automatic System identifies hot-spot areas, especially their maximum points, better. Analysis of the results confirms the very high concordance between an automatic Ki-67 examination and the expert’s results, with a Spearman rho higher than 0.95.ConclusionThe proposed hot-spot selection algorithm with an extended context-based analysis of whole slide images and hot-spot gradual extinction algorithm provides an efficient tool for simulation of a manual examination. The presented results have confirmed that the automatic examination of Ki-67 in meningiomas could be introduced in the near future.Electronic supplementary materialThe online version of this article (doi:10.1186/s13000-016-0546-7) contains supplementary material, which is available to authorized users.

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Practical Approaches to Microvessel Analysis: Hotspots, Microvessel Density, and Vessel Proximity

Cited by 3 publications

References 22 publications

Comparison of the Manual, Semiautomatic, and Automatic Selection and Leveling of Hot Spots in Whole Slide Images for Ki-67 Quantification in Meningiomas

Comparison of the Manual, Semiautomatic, and Automatic Selection and Leveling of Hot Spots in Whole Slide Images for Ki-67 Quantification in Meningiomas

Hot-spot selection and evaluation methods for whole slice images of meningiomas and oligodendrogliomas

Content-based analysis of Ki-67 stained meningioma specimens for automatic hot-spot selection

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