Digital quantification of Ki67 and PRAME in challenging melanocytic lesions - A novel diagnostic tool

Mette Bak Brogård; Torben Steiniche; Johanne Lade-Keller; Anne Wandler; Kristina Bang Christensen; Jeanette Bæhr Georgsen; Patricia Switten Nielsen

doi:10.1016/j.prp.2025.155953

Digital quantification of Ki67 and PRAME in challenging melanocytic lesions - A novel diagnostic tool

Mette Bak Brogård^*, Torben Steiniche, Johanne Lade-Keller, Anne Wandler, Kristina Bang Christensen, Jeanette Bæhr Georgsen, Patricia Switten Nielsen

^*Corresponding author for this work

Department of Clinical Medicine - The Department of Pathology

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

Abstract

The interpretation of immunohistochemical markers in melanocytic lesions possesses difficulties due to expression in non-melanocytic cells and the time-consuming, non-reproducible nature of manual assessment. A digital tool that accurately quantifies Ki67 and PRAME may valuably aid pathologists in the diagnostic classification of melanocytic lesions. The aim of this study was to assess the diagnostic performance of digitally quantified Ki67 and PRAME in challenging melanocytic lesions utilizing double nuclear staining methods for accurate identification of melanocytic cells. We explored the difference in Ki67 and PRAME expression by WHO-lesion-groups and Melanocytic Pathology Assessment Tool and Hierarchy for Diagnosis version 2.0 (MPATH-Dx V2.0). Tissue slides from a cohort of 156 melanocytic lesions were stained with the Ki67/SOX10 double nuclear stain and the PRAME/SOX10 virtual double nuclear stain. Melanocytic cell specific Ki67/SOX10- and PRAME/SOX10-indexes were quantified by AI-driven digital image analysis (DIA) and compared to non-specific Ki67- and PRAME-indexes. The results showed that ROC AUC of the Ki67/SOX10-index was increased compared to the non-specific Ki67-index (p < 0.001), as opposed to the AUC of the PRAME/SOX10-index compared to non-specific PRAME-index (p = 0.090). The medians of digitally quantified Ki67- and PRAME-indexes differed significantly for the overall WHO-groups and MPATH-Dx V2.0 classes (p < 0.001). In conclusion, we found that double nuclear staining improved the diagnostic performance of Ki67, but not PRAME. The combination of digitally quantified Ki67- and PRAME-indexes may potentially serve as a tool for diagnostic classification of challenging melanocytic lesions. The proposed diagnostic tool presents the results visually, graphically, and quantitatively to optimally aid the pathologist.

Original language	English
Article number	155953
Journal	Pathology, Research and Practice
Volume	270
Pages (from-to)	1-13
Number of pages	13
ISSN	0344-0338
DOIs	https://doi.org/10.1016/j.prp.2025.155953
Publication status	Published - 1 Jun 2025

Keywords

Artificial intelligence
Digital pathology
Ki67
MPATH-Dx classification
Melanocytic lesions
Multiplex immunohistochemistry
PRAME

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@article{d1803e0b7a9745c5b2501255853cd842,

title = "Digital quantification of Ki67 and PRAME in challenging melanocytic lesions - A novel diagnostic tool",

abstract = "The interpretation of immunohistochemical markers in melanocytic lesions possesses difficulties due to expression in non-melanocytic cells and the time-consuming, non-reproducible nature of manual assessment. A digital tool that accurately quantifies Ki67 and PRAME may valuably aid pathologists in the diagnostic classification of melanocytic lesions. The aim of this study was to assess the diagnostic performance of digitally quantified Ki67 and PRAME in challenging melanocytic lesions utilizing double nuclear staining methods for accurate identification of melanocytic cells. We explored the difference in Ki67 and PRAME expression by WHO-lesion-groups and Melanocytic Pathology Assessment Tool and Hierarchy for Diagnosis version 2.0 (MPATH-Dx V2.0). Tissue slides from a cohort of 156 melanocytic lesions were stained with the Ki67/SOX10 double nuclear stain and the PRAME/SOX10 virtual double nuclear stain. Melanocytic cell specific Ki67/SOX10- and PRAME/SOX10-indexes were quantified by AI-driven digital image analysis (DIA) and compared to non-specific Ki67- and PRAME-indexes. The results showed that ROC AUC of the Ki67/SOX10-index was increased compared to the non-specific Ki67-index (p < 0.001), as opposed to the AUC of the PRAME/SOX10-index compared to non-specific PRAME-index (p = 0.090). The medians of digitally quantified Ki67- and PRAME-indexes differed significantly for the overall WHO-groups and MPATH-Dx V2.0 classes (p < 0.001). In conclusion, we found that double nuclear staining improved the diagnostic performance of Ki67, but not PRAME. The combination of digitally quantified Ki67- and PRAME-indexes may potentially serve as a tool for diagnostic classification of challenging melanocytic lesions. The proposed diagnostic tool presents the results visually, graphically, and quantitatively to optimally aid the pathologist.",

keywords = "Artificial intelligence, Digital pathology, Ki67, MPATH-Dx classification, Melanocytic lesions, Multiplex immunohistochemistry, PRAME",

author = "Brog{\aa}rd, {Mette Bak} and Torben Steiniche and Johanne Lade-Keller and Anne Wandler and Christensen, {Kristina Bang} and Georgsen, {Jeanette B{\ae}hr} and Nielsen, {Patricia Switten}",

year = "2025",

month = jun,

day = "1",

doi = "10.1016/j.prp.2025.155953",

language = "English",

volume = "270",

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journal = "Pathology, Research and Practice",

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Digital quantification of Ki67 and PRAME in challenging melanocytic lesions - A novel diagnostic tool. / Brogård, Mette Bak ; Steiniche, Torben; Lade-Keller, Johanne et al.
In: Pathology, Research and Practice, Vol. 270, 155953, 01.06.2025, p. 1-13.

Research output: Contribution to journal/Conference contribution in journal/Contribution to newspaper › Journal article › Research › peer-review

TY - JOUR

T1 - Digital quantification of Ki67 and PRAME in challenging melanocytic lesions - A novel diagnostic tool

AU - Brogård, Mette Bak

AU - Steiniche, Torben

AU - Lade-Keller, Johanne

AU - Wandler, Anne

AU - Christensen, Kristina Bang

AU - Georgsen, Jeanette Bæhr

AU - Nielsen, Patricia Switten

PY - 2025/6/1

Y1 - 2025/6/1

N2 - The interpretation of immunohistochemical markers in melanocytic lesions possesses difficulties due to expression in non-melanocytic cells and the time-consuming, non-reproducible nature of manual assessment. A digital tool that accurately quantifies Ki67 and PRAME may valuably aid pathologists in the diagnostic classification of melanocytic lesions. The aim of this study was to assess the diagnostic performance of digitally quantified Ki67 and PRAME in challenging melanocytic lesions utilizing double nuclear staining methods for accurate identification of melanocytic cells. We explored the difference in Ki67 and PRAME expression by WHO-lesion-groups and Melanocytic Pathology Assessment Tool and Hierarchy for Diagnosis version 2.0 (MPATH-Dx V2.0). Tissue slides from a cohort of 156 melanocytic lesions were stained with the Ki67/SOX10 double nuclear stain and the PRAME/SOX10 virtual double nuclear stain. Melanocytic cell specific Ki67/SOX10- and PRAME/SOX10-indexes were quantified by AI-driven digital image analysis (DIA) and compared to non-specific Ki67- and PRAME-indexes. The results showed that ROC AUC of the Ki67/SOX10-index was increased compared to the non-specific Ki67-index (p < 0.001), as opposed to the AUC of the PRAME/SOX10-index compared to non-specific PRAME-index (p = 0.090). The medians of digitally quantified Ki67- and PRAME-indexes differed significantly for the overall WHO-groups and MPATH-Dx V2.0 classes (p < 0.001). In conclusion, we found that double nuclear staining improved the diagnostic performance of Ki67, but not PRAME. The combination of digitally quantified Ki67- and PRAME-indexes may potentially serve as a tool for diagnostic classification of challenging melanocytic lesions. The proposed diagnostic tool presents the results visually, graphically, and quantitatively to optimally aid the pathologist.

AB - The interpretation of immunohistochemical markers in melanocytic lesions possesses difficulties due to expression in non-melanocytic cells and the time-consuming, non-reproducible nature of manual assessment. A digital tool that accurately quantifies Ki67 and PRAME may valuably aid pathologists in the diagnostic classification of melanocytic lesions. The aim of this study was to assess the diagnostic performance of digitally quantified Ki67 and PRAME in challenging melanocytic lesions utilizing double nuclear staining methods for accurate identification of melanocytic cells. We explored the difference in Ki67 and PRAME expression by WHO-lesion-groups and Melanocytic Pathology Assessment Tool and Hierarchy for Diagnosis version 2.0 (MPATH-Dx V2.0). Tissue slides from a cohort of 156 melanocytic lesions were stained with the Ki67/SOX10 double nuclear stain and the PRAME/SOX10 virtual double nuclear stain. Melanocytic cell specific Ki67/SOX10- and PRAME/SOX10-indexes were quantified by AI-driven digital image analysis (DIA) and compared to non-specific Ki67- and PRAME-indexes. The results showed that ROC AUC of the Ki67/SOX10-index was increased compared to the non-specific Ki67-index (p < 0.001), as opposed to the AUC of the PRAME/SOX10-index compared to non-specific PRAME-index (p = 0.090). The medians of digitally quantified Ki67- and PRAME-indexes differed significantly for the overall WHO-groups and MPATH-Dx V2.0 classes (p < 0.001). In conclusion, we found that double nuclear staining improved the diagnostic performance of Ki67, but not PRAME. The combination of digitally quantified Ki67- and PRAME-indexes may potentially serve as a tool for diagnostic classification of challenging melanocytic lesions. The proposed diagnostic tool presents the results visually, graphically, and quantitatively to optimally aid the pathologist.

KW - Artificial intelligence

KW - Digital pathology

KW - Ki67

KW - MPATH-Dx classification

KW - Melanocytic lesions

KW - Multiplex immunohistochemistry

KW - PRAME

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U2 - 10.1016/j.prp.2025.155953

DO - 10.1016/j.prp.2025.155953

M3 - Journal article

C2 - 40209567

SN - 0344-0338

VL - 270

SP - 1

EP - 13

JO - Pathology, Research and Practice

JF - Pathology, Research and Practice

M1 - 155953

ER -

Digital quantification of Ki67 and PRAME in challenging melanocytic lesions - A novel diagnostic tool

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Keywords

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