Abstract

Automatic spot search and colour classification in ELISpot assay

Accuracy of spot detection and classification plays a  critical role in the analysis of  ELISPOT  data. Differences in staining intensities of spots and their morphological variations make it difficult to develop a reliable software application. We developed an image recognition method allowing the automatic detection and classification of round objects (spots) on ELISPOT images independently of the registration conditions. The emphasis is done on objects of elliptical shape, which is typical for a wide range of spots. Since it is required to analyze both monochrome and bicolour objects, we developed the method of object subdivision into groups according to of their colour attributes. It is known that identical objects can look dramatically different depending on illumination conditions and optical characteristics of objects. This hinders the analysis and interpretation of the objects when image processing must be independent of its registration conditions. Morphological image analysis methods proved their efficiency in solving such problems, The mathematical notion of the form comprises the foundation of such methods. The form (e.g., spot shape) is the maximum invariant of image transformations under various registration conditions. That is why the form is defined not only by the analyzed object and by the scene it is on but is also connected with the model of scene (or object) registration. In some practical cases, the profiles of objects are predefined. For example, the spots in ELISPOT assay (including dual-colour ELISPOT assays) are either round or have a concentric profile. This makes it possible to solve a variety of application problems related to detecting and classifying such objects. Morphological image analysis combined with the image recognition method allows automatic detection and counting of spots on ELISPOT images with two spots types, independently of the registration conditions and I will present the software that applies it.


Author(s): Sergei S. Zadorozhnyy

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