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Spatiospectral Representation and Neural Decoding of Somatic Perception of Acupuncture Stimulations

Haitao Yu, Zaidong Lin, Fan Li, Jialin Liu, Chen Liu, Jiang Wang

2025IEEE Journal of Biomedical and Health Informatics14 citationsDOI

Abstract

Characterizing the neural representations underlying somatic perception is crucial for neural decoding of external stimulations. Acupuncture is an important therapeutic method of traditional Chinese medicine and can effectively modulate brain activity for the treatment of neural diseases. In this work, we investigate the neural representations based on the power spectral density (PSD) estimated from electroencephalogram (EEG) across the whole brain with deep learning. Frequency and spatial characteristics of PSD can reliably represent the dynamical brain responses to acupuncture with different manipulations, manifesting enhanced alpha power in parietal lobe. By removing aperiodic components, periodic spatial spectrum shows a higher representation ability of different brain states during acupuncture stimulations, and twiring-rotating (TR) manipulation have a more pronounced modulatory effect than lifting-thrusting (LT) manipulation. Moreover, we further infer the low-dimensional feature-disentangled representations with generative adversarial network (GAN), i.e., w-latents of StyleGAN, which can capture the latent features of periodic spatial spectrum and strike a balance between separability and generalizability. The effectiveness of feature-disentangled representations is evaluated by decoding the acupuncture states, which can achieve a highest accuracy of 95.71% with Transformer classifier. Compared with high-dimensional spatial spectrum, low-dimensional latent features can best characterize different brain states, indicating a precise representation of somatic perception of acupuncture stimulations. Taken together, our results highlight the significant role of spatial spectral representation underlying somatic perception and serve as an important benchmark for the evaluation of acupuncture effect on human brain.

Topics & Concepts

Decoding methodsComputer scienceRepresentation (politics)Artificial intelligencePerceptionNeural decodingNeurophysiologySomatic cellAcupunctureSpeech recognitionPattern recognition (psychology)MedicineNeurosciencePsychologyAlgorithmBiologyPathologyGeneticsLawAlternative medicinePoliticsGenePolitical scienceAcupuncture Treatment Research Studies