Accurate assessment of canine testicular morphology is es sential in reproductive pathology, yet conventional micros copy remains constrained by inter-observer subjectivity. In this study, we developed an AI-based workflow for the auto mated analysis of digitized H&E and Toluidine blue (TB) stained Whole-Slide Images (WSIs), targeting two critical endpoints: spermatogenic status assessment via Johnsen's Score System and sperm quality evaluation. To this aim, 60 testicular WSIs underwent a multi-step preprocessing pipe line encompassing tissue detection, saturation-based tile ex traction, quality control and stain normalization, yielding 218,562 informative tiles classified as follows: 1) normal spermatogenesis, 2) mildly altered spermatogenesis; 3) se vere impairment of spermatogenesis. Deep morphological features were extracted using EfficientNet-B4 as a pre trained convolutional backbone. The resulting embeddings were evaluated across four classification frameworks: Ran dom Forest, XGBoost, Multi-Layer Perceptron and a novel Dual-Stack Ensemble combining MLP and XGBoost via soft voting. In parallel, sperm smears stained with TB were used to assess sperm chromatin condensation through an auto mated whole-slide image analysis pipeline based on k-means clustering. Overall, the ensemble achieved the best perfor mance on an independent test set, with 88.39% accuracy and a weighted F1-score of 0.79. Class-specific analysis showed 86% recall for mild lesions and 82% for impaired spermatogenesis, while ROC analysis yielded AUC values ≥0.92 across all categories. TB analysis revealed a progres sive alteration of chromatin condensation across histopatho logical groups, with increased dark-blue nuclei in severely damaged samples. K-means clustering showed high robust ness and reproducibility, supported by a silhouette coeffi cient of 0.60 ± 0.09 and an adjusted Rand index of 0.89 ± 0.03. In conclusion, the proposed AI- based workflow en ables the automated and reproducible assessment of canine testicular damage by integrating histological classification and cytological sperm quality analysis

62 | APPLICATION OF AN AI-BASED WORKFLOW FOR THE ASSESSMENT OF TESTICULAR DAMAGE IN DOGS / Riccio, L., De Falco, M., Ambrosio, N., Spada, A., Del Porto, F., Marchetti, C., Paciello, O., Rosati, L.. - In: EUROPEAN JOURNAL OF HISTOCHEMISTRY. - ISSN 2038-8306. - 70:s1(2026). (71st Congress of the Italian Embryological Group-Italian Society of Development and Cell Biology (GEI-SIBSC) ) [10.4081/ejh.2026.4680].

62 | APPLICATION OF AN AI-BASED WORKFLOW FOR THE ASSESSMENT OF TESTICULAR DAMAGE IN DOGS

Lorenzo Riccio
Primo
;
Maria De Falco;Angelo Spada;Orlando Paciello;Luigi Rosati
Ultimo
2026

Abstract

Accurate assessment of canine testicular morphology is es sential in reproductive pathology, yet conventional micros copy remains constrained by inter-observer subjectivity. In this study, we developed an AI-based workflow for the auto mated analysis of digitized H&E and Toluidine blue (TB) stained Whole-Slide Images (WSIs), targeting two critical endpoints: spermatogenic status assessment via Johnsen's Score System and sperm quality evaluation. To this aim, 60 testicular WSIs underwent a multi-step preprocessing pipe line encompassing tissue detection, saturation-based tile ex traction, quality control and stain normalization, yielding 218,562 informative tiles classified as follows: 1) normal spermatogenesis, 2) mildly altered spermatogenesis; 3) se vere impairment of spermatogenesis. Deep morphological features were extracted using EfficientNet-B4 as a pre trained convolutional backbone. The resulting embeddings were evaluated across four classification frameworks: Ran dom Forest, XGBoost, Multi-Layer Perceptron and a novel Dual-Stack Ensemble combining MLP and XGBoost via soft voting. In parallel, sperm smears stained with TB were used to assess sperm chromatin condensation through an auto mated whole-slide image analysis pipeline based on k-means clustering. Overall, the ensemble achieved the best perfor mance on an independent test set, with 88.39% accuracy and a weighted F1-score of 0.79. Class-specific analysis showed 86% recall for mild lesions and 82% for impaired spermatogenesis, while ROC analysis yielded AUC values ≥0.92 across all categories. TB analysis revealed a progres sive alteration of chromatin condensation across histopatho logical groups, with increased dark-blue nuclei in severely damaged samples. K-means clustering showed high robust ness and reproducibility, supported by a silhouette coeffi cient of 0.60 ± 0.09 and an adjusted Rand index of 0.89 ± 0.03. In conclusion, the proposed AI- based workflow en ables the automated and reproducible assessment of canine testicular damage by integrating histological classification and cytological sperm quality analysis
2026
62 | APPLICATION OF AN AI-BASED WORKFLOW FOR THE ASSESSMENT OF TESTICULAR DAMAGE IN DOGS / Riccio, L., De Falco, M., Ambrosio, N., Spada, A., Del Porto, F., Marchetti, C., Paciello, O., Rosati, L.. - In: EUROPEAN JOURNAL OF HISTOCHEMISTRY. - ISSN 2038-8306. - 70:s1(2026). (71st Congress of the Italian Embryological Group-Italian Society of Development and Cell Biology (GEI-SIBSC) ) [10.4081/ejh.2026.4680].
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/1054119
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