Neuroscience
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Loneliness is intricately connected to social cognition, yet the precise brain mechanisms that underscore their relationship need further exploration. The present study employed a theory of mind processing task that engaged participants in assessing the trajectories of geometric shapes while undergoing fMRI scans. The comprehensive data pool encompassed loneliness assessments and brain imaging data from a cohort of 157 participants. ⋯ Furthermore, functional connectivity among the social network, the default mode network, and somatomotor networks emerged as crucial factors in prediction. Brain regions contributed strongly in prediction are involved in a variety of social cognitive processes, including intention inference, empathy, and information integration. The results illuminate the association between brain functional connectivity induced by social cognition and loneliness, which enhance the comprehensive understanding of this complex emotional state and may have implications for its diagnosis and intervention.
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Review Meta Analysis Comparative Study
Comparison of the efficacy of updated drugs for the treatment on the improvement of cognitive function in patients with Alzheimer 's disease: A systematic review and network meta- analysis.
The recent emergence of updated drugs for the treatment of Alzheimer's disease (AD) has produced encouraging cognitive and clinical results in clinical trials, but there is still controversy over how to choose effective treatment options among these numerous drugs. The purpose of this network meta-analysis (NMA) is to compare and rank these drugs based on their efficacy. ⋯ Donanemab and Lecanemab showed good efficacy in ADCS-ADL and CDR-SB, respectively. GV-971 is the best choice to improve ADAS cogs and NPI.
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Stroke is a serious condition often resulting in mortality or long-term disability, causing cognitive, memory, and motor impairments. A reduction in cerebral blood flow below critical levels defines the ischemic core and penumbra: the core undergoes irreversible damage, while the penumbra remains viable but functionally impaired. This functional impairment activates complex cell signaling pathways that determine cell survival or death, making the penumbra a key target for therapeutic interventions to prevent further damage. ⋯ While preclinical evidence supports the benefits of WβC activation, its role in human stroke requires further investigation. Additionally, the review discusses the potential adverse effects of prolonged WβC activation and suggests strategies to mitigate them. Overall, WβC signaling holds promise as a therapeutic target, offering insights into stroke pathophysiology and informing the development of novel treatment strategies.
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Transient receptor vanillin 1 (TRPV1) is widely expressed in the neural axis and surrounding tissues, and is easily activated by harmful stimuli such as pain and inflammatory responses. Previous studies have shown that activated TRPV1 channels regulate all levels of nervous system activity by improving calcium influx and modulating nervous system excitability. Recent studies have suggested that TRPV1 activation in the peripheral nervous system may induce sleep disorders, while activation in the central nervous system may ameliorate sleep disorders and assist memory consolidation processes. Here, we summarize the risk factors for inducing sleep disorders, the alteration of these risk factors by TRPV1 receptor activation, and the driving effect of TRPV1 receptor activity on memory consolidation.
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Parkinson's disease (PD) is a prevalent neurodegenerative disorder caused by degeneration of dopaminergic neurons, originating from the substantia nigra pars compacta, and characterized by motor symptoms such as bradykinesia, muscle rigidity, resting tremor, and postural instability, as well as non-motor symptoms such as anxiety, depression, reduced sense of smell, cognitive impairment, and visual dysfunction. Emerging evidence highlights the retina as a promising site for non-invasive exploration of PD pathology, due to its shared embryonic origin with the central nervous system. ⋯ This review provides a comprehensive synthesis of retinal dysfunctions in PD, focusing on structural and functional changes as potential biomarkers for early diagnosis and clinical assessment. By integrating findings from advanced imaging and electrophysiological studies, this review introduces novel perspectives on the correlation between retinal changes and PD pathophysiology, offering innovative approaches for early detection, disease progression monitoring, and therapeutic stratification.