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2024
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| Online Access: | https://doi.org/10.5281/zenodo.14898255 |
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| author | ABDULWAHAB F. ALAHMARI |
| author_facet | ABDULWAHAB F. ALAHMARI |
| contents | <p><strong>Introduction:</strong> All radiology images are gray scale images which does not show colors of the internal organs of the body.<br>Seeing the real representation of colors of the images which will help in diagnosing and prevent the use of autopsy in<br>many cases.<br><strong>Purpose:</strong> The aim of this paper is to assign a color with association with a Hounsfield unit in order to color CT scan<br>images. The purpose to do such a thing is to give real colors as much as possible for medical and forensic applications.<br><strong>Methods:</strong> Two theoretical methods are discussed to see which one might be the better one to see real colors representation<br>of the inner structure of the human body.<br><strong>Results:</strong> The prism method might be better to have real colors coming out of the body, not assigned. The hexadecimal<br>code needs collection of massive data to assign average shade of colors which is still not the real color.<br><strong>Conclusion:</strong> The color of organs plays an important role in making the diagnosis of many conditions or to stop autopsy<br>by seeing the organ color. </p> |
| format | Recurso digital |
| id | zenodo_https___doi_org_10_5281_zenodo_14898255 |
| institution | Zenodo |
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| publishDate | 2024 |
| publisher | Zenodo |
| record_format | zenodo |
| spellingShingle | Two Methods to Color Radiology Images of the Brain as an Example: Encoding Hounsfield Units with Hexadecimal Codes to Assign Colors for CT Scan or Using Prism in X-ray Cassatas or CT Detector to Convert the Light to the Real Colors in the X-ray or CT Images ABDULWAHAB F. ALAHMARI <p><strong>Introduction:</strong> All radiology images are gray scale images which does not show colors of the internal organs of the body.<br>Seeing the real representation of colors of the images which will help in diagnosing and prevent the use of autopsy in<br>many cases.<br><strong>Purpose:</strong> The aim of this paper is to assign a color with association with a Hounsfield unit in order to color CT scan<br>images. The purpose to do such a thing is to give real colors as much as possible for medical and forensic applications.<br><strong>Methods:</strong> Two theoretical methods are discussed to see which one might be the better one to see real colors representation<br>of the inner structure of the human body.<br><strong>Results:</strong> The prism method might be better to have real colors coming out of the body, not assigned. The hexadecimal<br>code needs collection of massive data to assign average shade of colors which is still not the real color.<br><strong>Conclusion:</strong> The color of organs plays an important role in making the diagnosis of many conditions or to stop autopsy<br>by seeing the organ color. </p> |
| title | Two Methods to Color Radiology Images of the Brain as an Example: Encoding Hounsfield Units with Hexadecimal Codes to Assign Colors for CT Scan or Using Prism in X-ray Cassatas or CT Detector to Convert the Light to the Real Colors in the X-ray or CT Images |
| url | https://doi.org/10.5281/zenodo.14898255 |