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[ARTICLE · art-59871] src=arxiv.org ↗ pub= topic=artificial-intelligence verified=true sentiment=↑ positive

SpikeDS: Dual Sparsity Spikformer for Perineural Invasion Prediction in 3D MRI

Researchers developed SpikeDS, a spiking neural network that uses dual sparsity to predict perineural invasion from 3D MRI scans of cholangiocarcinoma patients. The model achieved an AUC of 0.753 while consuming only 14.4 mJ, outperforming baselines in both accuracy and energy efficiency. This approach could enable clinically viable volumetric analysis of medical images.

read1 min views1 publishedJul 15, 2026

arXiv:2607.11986v1 Announce Type: new Abstract: Perineural invasion (PNI) is associated with poor prognosis in cholangiocarcinoma (CCA). However, its detection from 3D MRI remains challenging due to the subtle and spatially heterogeneous imaging signatures at the tumor periphery. Capturing such spatially sparse cues necessitates volumetric analysis of 3D MRI, but existing deep learning approaches incur prohibitive computational costs on volumetric medical images, limiting their clinical deployment. We propose Dual Sparsity Spikformer (SpikeDS), a spiking neural network architecture that jointly exploits activation sparsity from binary spike communication and spatial sparsity from window pruning based on firing rates. SpikeDS introduces Dual Sparsity Spiking Attention (DSSA), which combines two complementary mechanisms. The first is Window-based Expert Mixture Spiking Attention (W-EMSA), which selectively applies attention only to salient windows identified by their firing rates. The second is Cross-Window Spiking Self-Attention (CW-SSA), which enables global context exchange through an asymmetric scheme in which pruned windows still contribute as key-value sources. Evaluated on a clinical cohort of 139 CCA patients via 5-fold cross-validation, SpikeDS achieves an AUC of 0.753 while consuming only 14.4 mJ, surpassing the best baseline in both AUC and energy efficiency. These results suggest that dual sparsity provides an effective hardware-aware strategy for improving the efficiency of 3D spiking transformers without compromising diagnostic performance.

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