Object level association

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(Overview)
(Overview)
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Two association examples are shown in Figure 1 below. In both examples, the reference element is a segmented cell nucleus. However, the target element in the first example (panel A) is a segmented blood vessel. Hence, association occurs between two segmented objects. In the second example (panel B), the target element is a molecular signal (yellow) that may surround some cell nuclei and available in a different channel.
 
Two association examples are shown in Figure 1 below. In both examples, the reference element is a segmented cell nucleus. However, the target element in the first example (panel A) is a segmented blood vessel. Hence, association occurs between two segmented objects. In the second example (panel B), the target element is a molecular signal (yellow) that may surround some cell nuclei and available in a different channel.
  
[[Image:Assoc_fig2.png |thumb|500px|Two association examples with target elements. Both examples use segmented nuclei as their reference elements but the target elements are a segmented blood vessel in (A), and a molecular signal from another channel (yellow) in (B).|center]]
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[[Image:Assoc_fig2.png |thumb|500px|Two association examples. Both examples use segmented nuclei as their reference elements but the target elements are a segmented blood vessel in (A), and a molecular signal from another channel (yellow) in (B).|center]]
  
 
==Running The Program==
 
==Running The Program==
 
==Sample Output==
 
==Sample Output==

Revision as of 03:51, 3 May 2009

In this page we give an overview of the distance map-based approach for defining object-level associations

Overview

We present a simple, yet general framework for object-level association between biological objects and/or elements present in the different channels of multi-channel images. The proposed object-level association framework assumes that any association rule is defined between two elements. The first one, which we call the reference element, is the segmented object (such as cells/nuclei) for which we want to quantify some associative relationships. The second element, which we call the target element, is a biologically meaningful element in a different channel. The target element does not have to be segmented or undergone under any kind of processing.

Two association examples are shown in Figure 1 below. In both examples, the reference element is a segmented cell nucleus. However, the target element in the first example (panel A) is a segmented blood vessel. Hence, association occurs between two segmented objects. In the second example (panel B), the target element is a molecular signal (yellow) that may surround some cell nuclei and available in a different channel.

Two association examples. Both examples use segmented nuclei as their reference elements but the target elements are a segmented blood vessel in (A), and a molecular signal from another channel (yellow) in (B).

Running The Program

Sample Output

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