Exploration of the mental attention mechanisms in motor imagery-based EEG decoding [0.03%]
基于运动想象的脑电解码中的注意力机制探究
Xixi Zhan,Xinlei Chen,Li Zhu et al.
Xixi Zhan et al.
Background: Brain-Computer Interface (BCI) systems enable direct communication between the brain and external devices, with motor imagery (MI)-based BCIs as a key paradigm. Although decoding neural signals has advanced vi...
Refined affinity purification protocol for CAMs using minimal mouse brain material [0.03%]
使用极少量的小鼠脑组织材料对CAMs进行精简的亲和纯化流程
Agathe Henocq,Wouter Doff,Dick Dekkers et al.
Agathe Henocq et al.
Background: Cell adhesion molecules (CAMs) are membrane-bound proteins that mediate cell-cell interactions through trans-cellular protein complexes. In the context of the neuronal synapse, studies of CAMs have revealed th...
Neurophysiological Metrics of Surprise during Locomotor Uncertainty [0.03%]
步行不确定性条件下的大脑惊讶程度的神经生理学指标研究
Brandon Roberts,Rachael D Seidler
Brandon Roberts
Background: It is thought that the brain relies upon Bayesian inference to integrate sensory input with prior beliefs, updating its environmental model through prediction errors-discrepancies between expected and actual s...
Neurophysiological and behavioral effects of oscillatory transcranial direct current stimulation (otDCS) [0.03%]
振荡经颅直流电刺激的作用机制及行为影响
Miles Wischnewski,Maria A Ogîrcin,Saša R Filipović et al.
Miles Wischnewski et al.
Oscillatory transcranial direct current stimulation (otDCS) is a form of non-invasive electrical stimulation that has shown promise in modulating human cognition and behavior. This method merges constant polarization with an oscillation, re...
An Optimized Hierarchical Attention Assisted Deep Learning Model for Brain Tissue Classification [0.03%]
一种优化的分层注意辅助深度学习脑组织分类模型
Divya Sundar V S,Vijayachamundeeswari V
Divya Sundar V S
Background & objective: Precise differentiation of brain tissue from Magnetic Resonance Imaging is a vital constraint in various medical applications. Several studies have conducted on brain tissue classification and segm...
TASNet: A tri-modal attentive scale robust adaptive fusion framework for progressive mild cognitive impairment classification [0.03%]
基于TASNet的注意尺度自适应融合框架及其在轻度认知障碍分类中的应用研究
Hongliang Zhu,Limei Zhang,Lu Yang et al.
Hongliang Zhu et al.
Background: Accurate prediction of progressive Mild Cognitive Impairment (pMCI) versus stable MCI (sMCI) is crucial for early Alzheimer's disease (AD) intervention and delaying disease progression. The combination of Posi...
HCFNet: A heterogeneous frequency bands coupling CNN for enhanced short-time fast response in motor imagery decoding [0.03%]
基于异构频带耦合的CNN模型在运动想象解码中的应用研究
Weijie Wu,Ian Daly,Weijie Chen et al.
Weijie Wu et al.
Background: Motor imagery signals encompass a broad range of frequency components, and frequency band decomposition can improve the precision of frequency-domain features, helping the model focus on task-relevant informat...
An Orthotopic Vestibular Schwannoma Mouse Model to Study Tumor-Host Interactions and Mechanism of Sensorineural Hearing Loss [0.03%]
用于研究肿瘤宿主相互作用和神经感觉性听力损失机制的原位听神经瘤小鼠模型
Bailey H Duhon,Melanie Fisher,Han Tn Nguyen et al.
Bailey H Duhon et al.
Background: Sensorineural hearing loss (SNHL) is the most common symptom of vestibular schwannoma (VS), arising from multifactorial tumor-host interactions including mechanical cochleovestibular nerve compression and otot...
Efficient artifact removal for adaptive deep brain stimulation and a temporal event localization analysis [0.03%]
自适应深部脑刺激的有效伪迹去除及时间事件定位分析
Tzu-Chi Liu,Po-Lin Chen,Yi-Chieh Chen et al.
Tzu-Chi Liu et al.
Background: Adaptive deep brain stimulation (aDBS) leverages symptom-related biomarkers to deliver personalized neuromodulation therapy, with the potential to improve treatment efficacy and reduce power consumption compar...
Advances in rodent oligodendrocyte precursor cells isolation and culture: From traditional methods to modern approaches [0.03%]
啮鼠少突前体细胞分离培养技术进展:从传统到现代
Hoda Akbari,Iraj Ragerdi Kashani,Farzaneh Rezaei Yazdi et al.
Hoda Akbari et al.
Introduction: Oligodendrocyte progenitor cells (OPCs) are responsible for the generation of myelinating oligodendrocytes and are essential for myelination and repair of the central nervous system (CNS). In past decades, m...