Neuroscience
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We investigated proprioceptive acuity for location and motion of a never seen hand-held tool (30 cm long rod) and the accuracy of movements to place tool parts in the location of remembered visual targets. Ten blindfolded right-handed subjects (5 females) reached with the tool held in the right hand to touch the tip and midpoint to the stationary and moving left index-tip, to the right and left ear lobes and to remembered visual target locations. We also tested accuracy of left hand rod reaches to the ear lobes to determine if rod dimensions and control of tool movements experienced during right hand tool use could be used to accurately localize the rod parts when held in the left hand. ⋯ The tool-tip was localized with lower mean distance errors (about 1 cm) than the tool-midpoint (5.5-6.5 cm) when reaching to touch the ear lobes with the rod in right and left hands. Right hand reaches to place the tool- tip and midpoint in remembered visual target locations were inaccurate with large overshoots of close targets and undershoots of far targets, similar to previous reports for reaching with the right hand to remembered visual targets. These results support the distalization hypothesis, that the tool endpoint becomes the effective upper limb endpoint when using the tool.
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Face recognition is an important aspect of human non-verbal communication. Event-related potentials or magnetic fields, such as the N170/M170 component, are considered essential neural markers of face processing. Compared to upright human faces, inverted human faces and upright but not inverted animal faces cause longer latencies and larger amplitudes of these components. ⋯ Additionally, face orientation differentially modulated the anterior region of the fusiform gyrus (FG) in both face categories. These results suggest that spatiotemporal dynamics differ in face orientation regardless of category and that the FG contributes little or nothing to the M170 modulation recorded in the scalp sensor. Furthermore, we demonstrated that inverted human and animal faces are processed via different mechanisms.
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The conversion of mild cognitive impairment (MCI) to Alzheimer's disease (AD) is related to various factors. The causal relationships among these factors remain unclear. This study aims to investigate pathways of the progression by using causal analysis and build a predictive model with high accuracy. ⋯ Our study elucidated the initiating factors and three independent pathways involved in the conversion of MCI to AD. The predictive value of each factor was clarified and a multi-predictor nomogram was established with high accuracy.
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Accurate analysis of anxiety behaviors in animal models is pivotal for advancing neuroscience research and drug discovery. This study compares the potential of DeepLabCut, ZebraLab, and machine learning models to analyze anxiety-related behaviors in adult zebrafish. Using a dataset comprising video recordings of unstressed and pre-stressed zebrafish, we extracted features such as total inactivity duration/immobility, time spent at the bottom, time spent at the top and turn angles (large and small). ⋯ The effectiveness of these machine learning models was validated and tested on independent datasets. We found that some machine learning models, such as Decision Tree and Random Forests, performed excellently to differentiate between anxious and non-anxious behavior, even in the control group, where the differences between subjects were more subtle. Our findings show that upcoming technologies, such as machine learning models, are able to effectively and accurately analyze anxiety behaviors in zebrafish and provide a cost-effective method to analyze animal behavior.
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Observational Study
Cerebellar activity and functional connectivity in subacute subcortical aphasia: Association with language recovery.
Loss of language function (aphasia) is a common complication after stroke, and post-stroke recovery remains highly unpredictable due to the absence of reliable neurobiomarkers. Growing evidence points to involvement of the cerebellum in language processing; however, it is unclear if abnormal cerebellar activity and altered functional connectivity (FC) to language-related regions of cerebral cortex are underlying neural mechanisms for subcortical aphasia. In this longitudinal observational study, we used resting-state functional magnetic resonance imaging to examine potential abnormalities in spontaneous cerebellar activity and resting-state (rs)FC with language networks among post-stroke patients with subacute subcortical aphasia (n = 19) compared to healthy controls (HCs, n = 18). ⋯ Baseline rCrus II-LIFG rsFC was also positively correlated with spontaneous speech and naming scores at follow-up. A stronger baseline rCrus II-LIFG rsFC predicted superior recovery of language function post-stroke. We conclude that the right cerebellum may be an effective therapeutic target for subcortical aphasia.