Testicular ultrasound imaging is vital for assessing male infertility, with testicular inhomogeneity serving as a key biomarker. However, subjective interpretation and the scarcity of publicly available datasets pose challenges to automated classification. In this study, we explore supervised and unsupervised pretraining strategies using a ResNet-based architecture, supplemented by diffusion-based generative models to synthesize realistic ultrasound images. Our results demonstrate that pretraining significantly enhances classification performance compared to training from scratch, and synthetic data can effectively substitute real images in the pretraining process, alleviating data-sharing constraints. These methods offer promising advancements toward robust, clinically valuable automated analysis of male infertility. The source code is publicly available at https://github.com/AImageLab-zip/TesticulUS/.

Enhancing Testicular Ultrasound Image Classification Through Synthetic Data and Pretraining Strategies / Morelli, Nicola; Marchesini, Kevin; Lumetti, Luca; Santi, Daniele; Grana, Costantino; Bolelli, Federico. - (2025). ( 23rd International Conference on Image Analysis and Processing Rome, Italy Sep 15-19).

Enhancing Testicular Ultrasound Image Classification Through Synthetic Data and Pretraining Strategies

Morelli, Nicola;Marchesini, Kevin;Lumetti, Luca;Santi, Daniele;Grana, Costantino;Bolelli, Federico
2025

Abstract

Testicular ultrasound imaging is vital for assessing male infertility, with testicular inhomogeneity serving as a key biomarker. However, subjective interpretation and the scarcity of publicly available datasets pose challenges to automated classification. In this study, we explore supervised and unsupervised pretraining strategies using a ResNet-based architecture, supplemented by diffusion-based generative models to synthesize realistic ultrasound images. Our results demonstrate that pretraining significantly enhances classification performance compared to training from scratch, and synthetic data can effectively substitute real images in the pretraining process, alleviating data-sharing constraints. These methods offer promising advancements toward robust, clinically valuable automated analysis of male infertility. The source code is publicly available at https://github.com/AImageLab-zip/TesticulUS/.
2025
23rd International Conference on Image Analysis and Processing
Rome, Italy
Sep 15-19
Morelli, Nicola; Marchesini, Kevin; Lumetti, Luca; Santi, Daniele; Grana, Costantino; Bolelli, Federico
Enhancing Testicular Ultrasound Image Classification Through Synthetic Data and Pretraining Strategies / Morelli, Nicola; Marchesini, Kevin; Lumetti, Luca; Santi, Daniele; Grana, Costantino; Bolelli, Federico. - (2025). ( 23rd International Conference on Image Analysis and Processing Rome, Italy Sep 15-19).
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11380/1381588
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