Automatic segmentation of skin cells in multiphoton data using multi-stage merging
We propose a novel automatic segmentation algorithm that separates the components of human skin cells from the rest of the tissue in fluorescence data of three-dimensional scans using non-invasive multiphoton tomography. The algorithm encompasses a multi-stage merging on preprocessed superpixel imag...
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Nature Research
2021
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| Online Access: | http://eprints.utm.my/id/eprint/94208/1/EkoSupriyanto2021_AutomaticSegmentationofSkinCells.pdf http://eprints.utm.my/id/eprint/94208/ http://dx.doi.org/10.1038/s41598-021-93682-y |
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my.utm.942082022-03-31T15:24:48Z http://eprints.utm.my/id/eprint/94208/ Automatic segmentation of skin cells in multiphoton data using multi-stage merging Prinke, Philipp Haueisen, Jens Klee, Sascha Rizqie, Muhammad Qurhanul Supriyanto, Eko Konig, Karsten Breunig, Hans Georg Piatek, Lukasz QD Chemistry QH Natural history We propose a novel automatic segmentation algorithm that separates the components of human skin cells from the rest of the tissue in fluorescence data of three-dimensional scans using non-invasive multiphoton tomography. The algorithm encompasses a multi-stage merging on preprocessed superpixel images to ensure independence from a single empirical global threshold. This leads to a high robustness of the segmentation considering the depth-dependent data characteristics, which include variable contrasts and cell sizes. The subsequent classification of cell cytoplasm and nuclei are based on a cell model described by a set of four features. Two novel features, a relationship between outer cell and inner nucleus (OCIN) and a stability index, were derived. The OCIN feature describes the topology of the model, while the stability index indicates segment quality in the multi-stage merging process. These two new features, combined with the local gradient magnitude and compactness, are used for the model-based fuzzy evaluation of the cell segments. We exemplify our approach on an image stack with 200 × 200 × 100 μm3, including the skin layers of the stratum spinosum and the stratum basale of a healthy volunteer. Our image processing pipeline contributes to the fully automated classification of human skin cells in multiphoton data and provides a basis for the detection of skin cancer using non-invasive optical biopsy. Nature Research 2021-12 Article PeerReviewed application/pdf en http://eprints.utm.my/id/eprint/94208/1/EkoSupriyanto2021_AutomaticSegmentationofSkinCells.pdf Prinke, Philipp and Haueisen, Jens and Klee, Sascha and Rizqie, Muhammad Qurhanul and Supriyanto, Eko and Konig, Karsten and Breunig, Hans Georg and Piatek, Lukasz (2021) Automatic segmentation of skin cells in multiphoton data using multi-stage merging. Scientific Reports, 11 (1). pp. 1-19. ISSN 2045-2322 http://dx.doi.org/10.1038/s41598-021-93682-y DOI:10.1038/s41598-021-93682-y |
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QD Chemistry QH Natural history Prinke, Philipp Haueisen, Jens Klee, Sascha Rizqie, Muhammad Qurhanul Supriyanto, Eko Konig, Karsten Breunig, Hans Georg Piatek, Lukasz Automatic segmentation of skin cells in multiphoton data using multi-stage merging |
| description |
We propose a novel automatic segmentation algorithm that separates the components of human skin cells from the rest of the tissue in fluorescence data of three-dimensional scans using non-invasive multiphoton tomography. The algorithm encompasses a multi-stage merging on preprocessed superpixel images to ensure independence from a single empirical global threshold. This leads to a high robustness of the segmentation considering the depth-dependent data characteristics, which include variable contrasts and cell sizes. The subsequent classification of cell cytoplasm and nuclei are based on a cell model described by a set of four features. Two novel features, a relationship between outer cell and inner nucleus (OCIN) and a stability index, were derived. The OCIN feature describes the topology of the model, while the stability index indicates segment quality in the multi-stage merging process. These two new features, combined with the local gradient magnitude and compactness, are used for the model-based fuzzy evaluation of the cell segments. We exemplify our approach on an image stack with 200 × 200 × 100 μm3, including the skin layers of the stratum spinosum and the stratum basale of a healthy volunteer. Our image processing pipeline contributes to the fully automated classification of human skin cells in multiphoton data and provides a basis for the detection of skin cancer using non-invasive optical biopsy. |
| format |
Article |
| author |
Prinke, Philipp Haueisen, Jens Klee, Sascha Rizqie, Muhammad Qurhanul Supriyanto, Eko Konig, Karsten Breunig, Hans Georg Piatek, Lukasz |
| author_facet |
Prinke, Philipp Haueisen, Jens Klee, Sascha Rizqie, Muhammad Qurhanul Supriyanto, Eko Konig, Karsten Breunig, Hans Georg Piatek, Lukasz |
| author_sort |
Prinke, Philipp |
| title |
Automatic segmentation of skin cells in multiphoton data using multi-stage merging |
| title_short |
Automatic segmentation of skin cells in multiphoton data using multi-stage merging |
| title_full |
Automatic segmentation of skin cells in multiphoton data using multi-stage merging |
| title_fullStr |
Automatic segmentation of skin cells in multiphoton data using multi-stage merging |
| title_full_unstemmed |
Automatic segmentation of skin cells in multiphoton data using multi-stage merging |
| title_sort |
automatic segmentation of skin cells in multiphoton data using multi-stage merging |
| publisher |
Nature Research |
| publishDate |
2021 |
| url |
http://eprints.utm.my/id/eprint/94208/1/EkoSupriyanto2021_AutomaticSegmentationofSkinCells.pdf http://eprints.utm.my/id/eprint/94208/ http://dx.doi.org/10.1038/s41598-021-93682-y |
| _version_ |
1729703139501670400 |
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13.211869 |