Explainable Deep Learning for Endometriosis Classification in Laparoscopic Images
article
OA: diamond
CC0
⤵ 1 in-corpus citation
Abstract
Background/Objectives: Endometriosis is a chronic inflammatory condition that often requires laparoscopic examination for definitive diagnosis. Automated analysis of laparoscopic images using Deep Learning (DL) may support clinicians by improving diagnostic consistency and efficiency. This study aimed to develop and evaluate explainable DL models for the binary classification of endometriosis using laparoscopic images from the publicly available GLENDA (Gynecologic Laparoscopic ENdometriosis DAtaset). Methods: Four representative architectures—ResNet50, EfficientNet-B2, EdgeNeXt_Small, and Vision Transformer (ViT-Small/16)—were systematically compared under class-imbalanced conditions using five-fold cross-validation. To enhance interpretability, Gradient-weighted Class Activation Mapping (Grad-CAM) and SHapley Additive exPlanations (SHAP) were applied for visual explanation, and their quantitative alignment with expert-annotated lesion masks was assessed using Intersection over Union (IoU), Dice coefficient, and Recall. Results: Among the evaluated models, EdgeNeXt_Small achieved the best trade-off between classification performance and computational efficiency. Grad-CAM produced spatially coherent visualizations that corresponded well with clinically relevant lesion regions. Conclusions: The study shows that lightweight convolutional neural network (CNN)–Transformer architectures, combined with quantitative explainability assessment, can identify endometriosis in laparoscopic images with reasonable accuracy and interpretability. These findings indicate that explainable AI methods may help improve diagnostic consistency by offering transparent visual cues that align with clinically relevant regions. Further validation in broader clinical settings is warranted to confirm their practical utility.
My notes (saved in your browser only)
Condition tags
Citation neighborhood (2-hop)
Papers in the corpus that this work cites (lower rings, blue) and that cite this one (upper rings, green). Dot size scales with the paper's in-corpus citation count — bigger dot = more influential within the endo/adeno field. Click a dot to open that paper. Outer rings show 2-hop neighbours — papers reached through the immediate citers/citees. [ collapse to 1-hop ]
References (34)
- Artificial intelligence (AI) in the detection of rectosigmoid deep endometriosis via openalex
- Clinical diagnosis of endometriosis: a call to action via openalex
- Consensus on current management of endometriosis via openalex
- Endometriosis via openalex
- Endometriosis detection and localization in laparoscopic gynecology via openalex
- GLENDA: Gynecologic Laparoscopy Endometriosis Dataset via openalex
- Initial Results in the Automatic Visual Recognition of Endometriosis Lesions by Artificial Intelligence During Laparoscopy: A Proof-of-Concept Study via openalex
- Machine learning-based integrated identification of predictive combined diagnostic biomarkers for endometriosis via openalex
- Recurrence after surgery for endometrioma: a systematic review and meta-analyses via openalex
- Rethinking mechanisms, diagnosis and management of endometriosis via openalex
- W2657631929 via openalex
- W2282821441 via openalex
- W2927351257 via openalex
- W2954996726 via openalex
- W2962767316 via openalex
- W2962858109 via openalex
- W2963351448 via openalex
- W2194775991 via openalex
- W2163315477 via openalex
- W3211317523 via openalex
- W4205198611 via openalex
- W2148143831 via openalex
- W4234160457 via openalex
- W4294975371 via openalex
- W4306790271 via openalex
- W4308509744 via openalex
- W4320036918 via openalex
- W4322742250 via openalex
- W4379056866 via openalex
- W4393860447 via openalex
- W2295107390 via openalex
- W2108598243 via openalex
- W2551429935 via openalex
- W2592929672 via openalex
Cited by (1)
Source provenance
- openalex
- last seen: 2026-06-04T00:00:01.174412+00:00
License: CC0
· commercial use OK