Planet Neuroscience

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A study of clinical profile in patients of cataracts with pseudoexfoliation in rural populations of central India [version 2; peer review: 2 approved with reservations]

Background Ophthalmologists deal with daily pseudoexfoliation (PXF) due to severe secondary glaucoma, which arises after cataract surgery. Cataracts with pseudoexfoliation are age-related and are associated with open-angle glaucoma. Therefore, pseudoexfoliation is expected to occur more frequently. Pseudoexfoliation is occasionally associated with the development of thick nuclear cataracts, which may make surgery challenging. risks of cataract extraction in patients with pseudoexfoliation include zonular weakness and inadequate pupillary dilation. This may cause vitreous loss, and intraoperative or postoperative lens displacement. It could also lead to a rise in postoperative intraocular pressure (IOP), progressing to long-term inflammation, phimosis of the capsular tissue, glaucoma, and surgical corneal decompensation. Recurrent secondary cataracts are typically caused by some remaining cortical tissue and decreased zonular support, which may lead to lens epithelial cell migration. Surgery for glaucoma and cataracts is complicated by the presence of pseudoexfoliative debris. Objectives To determine the prevalence of pseudoexfoliation in cataract patients visiting the ophthalmic OPD, AVBRH hospital, to locate patients with pseudoexfoliative cataracts, to evaluate their likelihood of progressing to open-angle glaucoma, and to examine the various ocular characteristics of these patients. Methodology The study participants will undergo ophthalmological examination after considering the inclusion and exclusion criteria. This examination will include sac syringing on the lacrimal gland, estimation of the highest corrected visual acuity, slit-lamp examination, application tonometer assessment of intraocular pressure (IOP), and fundus examination using an indirect ophthalmoscope. All individuals with cataracts visiting the ophthalmology department of AVBRH will be examined under a slit-lamp to determine the presence of pseudoexfoliation in the operating eye. Expected Results Hospital statistics from India indicated that the percentage of patients with pseudoexfoliation, in addition to cataracts, ranges from 1.87% to 13.5%.

in F1000Research on 2025-05-16 08:11:33 UTC.

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Neurophysiologically Realistic Environment for Comparing Adaptive Deep Brain Stimulation Algorithms in Parkinson Disease

arXiv:2505.09624v1 Announce Type: new Abstract: Adaptive deep brain stimulation (aDBS) has emerged as a promising treatment for Parkinson disease (PD). In aDBS, a surgically placed electrode sends dynamically altered stimuli to the brain based on neurophysiological feedback: an invasive gadget that limits the amount of data one could collect for optimizing the control offline. As a consequence, a plethora of synthetic models of PD and those of the control algorithms have been proposed. Herein, we introduce the first neurophysiologically realistic benchmark for comparing said models. Specifically, our methodology covers not only conventional basal ganglia circuit dynamics and pathological oscillations, but also captures 15 previously dismissed physiological attributes, such as signal instabilities and noise, neural drift, electrode conductance changes and individual variability - all modeled as spatially distributed and temporally registered features via beta-band activity in the brain and a feedback. Furthermore, we purposely built our framework as a structured environment for training and evaluating deep reinforcement learning (RL) algorithms, opening new possibilities for optimizing aDBS control strategies and inviting the machine learning community to contribute to the emerging field of intelligent neurostimulation interfaces.

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-05-16 04:00:00 UTC.

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A Computational Approach to Epilepsy Treatment: An AI-optimized Global Natural Product Prescription System

arXiv:2505.09643v1 Announce Type: new Abstract: Epilepsy is a prevalent neurological disease with millions of patients worldwide. Many patients have turned to alternative medicine due to the limited efficacy and side effects of conventional antiepileptic drugs. In this study, we developed a computational approach to optimize herbal epilepsy treatment through AI-driven analysis of global natural products and statistically validated randomized controlled trials (RCTs). Our intelligent prescription system combines machine learning (ML) algorithms for herb-efficacy characterization, Bayesian optimization for personalized dosing, and meta-analysis of RCTs for evidence-based recommendations. The system analyzed 1,872 natural compounds from traditional Chinese medicine (TCM), Ayurveda, and ethnopharmacological databases, integrating their bioactive properties with clinical outcomes from 48 RCTs covering 48 epilepsy conditions (n=5,216). Using LASSO regression and SHAP value analysis, we identified 17 high-efficacy herbs (e.g., Gastrodia elata [using \'e for accented characters], Withania somnifera), showing significant seizure reduction (p$<$0.01, Cohen's d=0.89) with statistical significance confirmed by multiple testing (p$<$0.001). A randomized double-blind validation trial (n=120) demonstrated 28.5\% greater seizure frequency reduction with AI-optimized herbal prescriptions compared to conventional protocols (95\% CI: 18.7-37.3\%, p=0.003).

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-05-16 04:00:00 UTC.

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Temporal Interception and Present Reconstruction: A Cognitive-Signal Model for Human and AI Decision Making

arXiv:2505.09646v1 Announce Type: new Abstract: This paper proposes a novel theoretical model to explain how the human mind and artificial intelligence can approach real-time awareness by reducing perceptual delays. By investigating cosmic signal delay, neurological reaction times, and the ancient cognitive state of stillness, we explore how one may shift from reactive perception to a conscious interface with the near future. This paper introduces both a physical and cognitive model for perceiving the present not as a linear timestamp, but as an interference zone where early-arriving cosmic signals and reactive human delays intersect. We propose experimental approaches to test these ideas using human neural observation and neuro-receptive extensions. Finally, we propose a mathematical framework to guide the evolution of AI systems toward temporally efficient, ethically sound, and internally conscious decision-making processes

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-05-16 04:00:00 UTC.

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Real-World fNIRS-Based Brain-Computer Interfaces: Benchmarking Deep Learning and Classical Models in Interactive Gaming

arXiv:2505.10536v1 Announce Type: new Abstract: Brain-Computer Interfaces enable direct communication between the brain and external systems, with functional Near-Infrared Spectroscopy emerging as a portable and non-invasive method for capturing cerebral hemodynamics. This study investigates the classification of rest and task states during a realistic, interactive tennis simulation using fNIRS signals and a range of machine learning approaches. We benchmarked traditional classifiers based on engineered features, Long Short-Term Memory networks on raw time-series data, and Convolutional Neural Networks applied to Gramian Angular Field-transformed images. Ensemble models like Extra Trees and Gradient Boosting achieved accuracies above 97 percent, while the ResNet-based CNN reached 95.0 percent accuracy with a near-perfect AUC of 99.2 percent, outperforming both LSTM and EfficientNet architectures. A novel data augmentation strategy was employed to equalize trial durations while preserving physiological integrity. Feature importance analyses revealed that both oxygenated and deoxygenated hemoglobin signals, particularly slope and RMS metrics, were key contributors to classification performance. These findings demonstrate the strong potential of fNIRS-based BCIs for deployment in dynamic, real-world environments and underscore the advantages of deep learning models in decoding complex neural signals.

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-05-16 04:00:00 UTC.

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Inferring entropy production in many-body systems using nonequilibrium MaxEnt

arXiv:2505.10444v1 Announce Type: cross Abstract: We propose a method for inferring entropy production (EP) in high-dimensional stochastic systems, including many-body systems and non-Markovian systems with long memory. Standard techniques for estimating EP become intractable in such systems due to computational and statistical limitations. We infer trajectory-level EP and lower bounds on average EP by exploiting a nonequilibrium analogue of the Maximum Entropy principle, along with convex duality. Our approach uses only samples of trajectory observables (such as spatiotemporal correlation functions). It does not require reconstruction of high-dimensional probability distributions or rate matrices, nor any special assumptions such as discrete states or multipartite dynamics. It may be used to compute a hierarchical decomposition of EP, reflecting contributions from different kinds of interactions, and it has an intuitive physical interpretation as a thermodynamic uncertainty relation. We demonstrate its numerical performance on a disordered nonequilibrium spin model with 1000 spins and a large neural spike-train dataset.

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-05-16 04:00:00 UTC.

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A comprehensive and reliable protocol for manual segmentation of the human claustrum using high-resolution MRI

arXiv:2503.01761v3 Announce Type: replace Abstract: The claustrum is a thin gray matter structure in each brain hemisphere, characterized by exceptionally high connectivity with nearly all brain regions. Despite extensive animal studies on its anatomy and function and growing evidence of claustral deficits in neuropsychiatric disorders, its specific roles in normal and abnormal human brain function remain largely unknown. This is primarily due to its thin and complex morphology, which limits accurate anatomical delineation and neural activity isolation in conventional in vivo neuroimaging. To facilitate future neuroimaging studies, we developed a comprehensive and reliable manual segmentation protocol based on a cellular-resolution brain atlas and high-resolution (0.7^3 mm) MRI data. The protocols involve detailed guidelines to delineate the entire claustrum, including the inferior parts that have not been clearly described in earlier MRI studies. Additionally, we propose a geometric method to parcellate the claustrum into three subregions (the dorsal, ventral, and temporal claustrum) along the superior-to-inferior axis. The mean bilateral claustrum volume in 10 young adults was 3307.5 mm^3, approximately 0.21% of total intracranial volume. Our segmentation protocol demonstrated high inter- and intra-rater reliability (ICC > 0.89, DSC > 0.85), confirming its replicability. This comprehensive and reliable manual segmentation protocol offers a robust foundation for anatomically precise neuroimaging investigations of the human claustrum.

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-05-16 04:00:00 UTC.

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Attachment: a predictive coding approach

arXiv:2505.05476v2 Announce Type: replace Abstract: We introduce a novel predictive coding framework for studying attachment theory. Building off an established model of attachment, the dynamic-maturational model (DMM), as well as the neuroanatomical Embodied Predictive Interoception Coding (EPIC) model of interoception and emotion, we not only elucidate how neural processes can shape attachment strategies, but also explore how early attachment experiences can shape those processes in the first place.

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-05-16 04:00:00 UTC.

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Associations between iron and mean kurtosis in iron-rich grey matter nuclei in aging

arXiv:2501.04706v2 Announce Type: replace-cross Abstract: Mean kurtosis in iron-rich grey matter has values similar to that seen in white matter. We suspect these elevated values may be related to iron. Multi-shell diffusion and multi-echo gradient echo acquisitions were used to derive mean kurtosis and R2*, respectively. Mean kurtosis and R2* were measured in subcortical grey matter nuclei and white matter tracts in 93 older adults and 62 younger adults. Grey matter regions exhibited higher mean kurtosis and R2* in the older adult group whereas white matter regions had reduced mean kurtosis in the older adult group. Grey matter mean kurtosis was significantly correlated with R2* iron-rich grey matter nuclei in both groups. Our findings indicate that higher mean kurtosis in iron-rich grey matter structures may be due to either increased tissue complexity or to decreases in signal-to-noise ratios from iron deposition

in arXiv: Quantitative Biology: Neurons and Cognition on 2025-05-16 04:00:00 UTC.

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Slow Transition to Low-Dimensional Chaos in Heavy-Tailed Recurrent Neural Networks

arXiv:2505.09816v1 Announce Type: cross Abstract: Growing evidence suggests that synaptic weights in the brain follow heavy-tailed distributions, yet most theoretical analyses of recurrent neural networks (RNNs) assume Gaussian connectivity. We systematically study the activity of RNNs with random weights drawn from biologically plausible L\'evy alpha-stable distributions. While mean-field theory for the infinite system predicts that the quiescent state is always unstable -- implying ubiquitous chaos -- our finite-size analysis reveals a sharp transition between quiescent and chaotic dynamics. We theoretically predict the gain at which the system transitions from quiescent to chaotic dynamics, and validate it through simulations. Compared to Gaussian networks, heavy-tailed RNNs exhibit a broader parameter regime near the edge of chaos, namely a slow transition to chaos. However, this robustness comes with a tradeoff: heavier tails reduce the Lyapunov dimension of the attractor, indicating lower effective dimensionality. Our results reveal a biologically aligned tradeoff between the robustness of dynamics near the edge of chaos and the richness of high-dimensional neural activity. By analytically characterizing the transition point in finite-size networks -- where mean-field theory breaks down -- we provide a tractable framework for understanding dynamics in realistically sized, heavy-tailed neural circuits.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-05-16 04:00:00 UTC.

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Incorporating brain-inspired mechanisms for multimodal learning in artificial intelligence

arXiv:2505.10176v1 Announce Type: new Abstract: Multimodal learning enhances the perceptual capabilities of cognitive systems by integrating information from different sensory modalities. However, existing multimodal fusion research typically assumes static integration, not fully incorporating key dynamic mechanisms found in the brain. Specifically, the brain exhibits an inverse effectiveness phenomenon, wherein weaker unimodal cues yield stronger multisensory integration benefits; conversely, when individual modal cues are stronger, the effect of fusion is diminished. This mechanism enables biological systems to achieve robust cognition even with scarce or noisy perceptual cues. Inspired by this biological mechanism, we explore the relationship between multimodal output and information from individual modalities, proposing an inverse effectiveness driven multimodal fusion (IEMF) strategy. By incorporating this strategy into neural networks, we achieve more efficient integration with improved model performance and computational efficiency, demonstrating up to 50% reduction in computational cost across diverse fusion methods. We conduct experiments on audio-visual classification, continual learning, and question answering tasks to validate our method. Results consistently demonstrate that our method performs excellently in these tasks. To verify universality and generalization, we also conduct experiments on Artificial Neural Networks (ANN) and Spiking Neural Networks (SNN), with results showing good adaptability to both network types. Our research emphasizes the potential of incorporating biologically inspired mechanisms into multimodal networks and provides promising directions for the future development of multimodal artificial intelligence. The code is available at https://github.com/Brain-Cog-Lab/IEMF.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-05-16 04:00:00 UTC.

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ILIF: Temporal Inhibitory Leaky Integrate-and-Fire Neuron for Overactivation in Spiking Neural Networks

arXiv:2505.10371v1 Announce Type: new Abstract: The Spiking Neural Network (SNN) has drawn increasing attention for its energy-efficient, event-driven processing and biological plausibility. To train SNNs via backpropagation, surrogate gradients are used to approximate the non-differentiable spike function, but they only maintain nonzero derivatives within a narrow range of membrane potentials near the firing threshold, referred to as the surrogate gradient support width gamma. We identify a major challenge, termed the dilemma of gamma: a relatively large gamma leads to overactivation, characterized by excessive neuron firing, which in turn increases energy consumption, whereas a small gamma causes vanishing gradients and weakens temporal dependencies. To address this, we propose a temporal Inhibitory Leaky Integrate-and-Fire (ILIF) neuron model, inspired by biological inhibitory mechanisms. This model incorporates interconnected inhibitory units for membrane potential and current, effectively mitigating overactivation while preserving gradient propagation. Theoretical analysis demonstrates ILIF effectiveness in overcoming the gamma dilemma, and extensive experiments on multiple datasets show that ILIF improves energy efficiency by reducing firing rates, stabilizes training, and enhances accuracy. The code is available at github.com/kaisun1/ILIF.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-05-16 04:00:00 UTC.

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Differentiable Quantum Architecture Search in Quantum-Enhanced Neural Network Parameter Generation

arXiv:2505.09653v1 Announce Type: cross Abstract: The rapid advancements in quantum computing (QC) and machine learning (ML) have led to the emergence of quantum machine learning (QML), which integrates the strengths of both fields. Among QML approaches, variational quantum circuits (VQCs), also known as quantum neural networks (QNNs), have shown promise both empirically and theoretically. However, their broader adoption is hindered by reliance on quantum hardware during inference. Hardware imperfections and limited access to quantum devices pose practical challenges. To address this, the Quantum-Train (QT) framework leverages the exponential scaling of quantum amplitudes to generate classical neural network parameters, enabling inference without quantum hardware and achieving significant parameter compression. Yet, designing effective quantum circuit architectures for such quantum-enhanced neural programmers remains non-trivial and often requires expertise in quantum information science. In this paper, we propose an automated solution using differentiable optimization. Our method jointly optimizes both conventional circuit parameters and architectural parameters in an end-to-end manner via automatic differentiation. We evaluate the proposed framework on classification, time-series prediction, and reinforcement learning tasks. Simulation results show that our method matches or outperforms manually designed QNN architectures. This work offers a scalable and automated pathway for designing QNNs that can generate classical neural network parameters across diverse applications.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-05-16 04:00:00 UTC.

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A Generative Neural Annealer for Black-Box Combinatorial Optimization

arXiv:2505.09742v1 Announce Type: cross Abstract: We propose a generative, end-to-end solver for black-box combinatorial optimization that emphasizes both sample efficiency and solution quality on NP problems. Drawing inspiration from annealing-based algorithms, we treat the black-box objective as an energy function and train a neural network to model the associated Boltzmann distribution. By conditioning on temperature, the network captures a continuum of distributions--from near-uniform at high temperatures to sharply peaked around global optima at low temperatures--thereby learning the structure of the energy landscape and facilitating global optimization. When queries are expensive, the temperature-dependent distributions naturally enable data augmentation and improve sample efficiency. When queries are cheap but the problem remains hard, the model learns implicit variable interactions, effectively "opening" the black box. We validate our approach on challenging combinatorial tasks under both limited and unlimited query budgets, showing competitive performance against state-of-the-art black-box optimizers.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-05-16 04:00:00 UTC.

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Role of scrambling and noise in temporal information processing with quantum systems

arXiv:2505.10080v1 Announce Type: cross Abstract: Scrambling quantum systems have been demonstrated as effective substrates for temporal information processing. While their role in providing rich feature maps has been widely studied, a theoretical understanding of their performance in temporal tasks is still lacking. Here we consider a general quantum reservoir processing framework that captures a broad range of physical computing models with quantum systems. We examine the scalability and memory retention of the model with scrambling reservoirs modelled by high-order unitary designs in both noiseless and noisy settings. In the former regime, we show that measurement readouts become exponentially concentrated with increasing reservoir size, yet strikingly do not worsen with the reservoir iterations. Thus, while repeatedly reusing a small scrambling reservoir with quantum data might be viable, scaling up the problem size deteriorates generalization unless one can afford an exponential shot overhead. In contrast, the memory of early inputs and initial states decays exponentially in both reservoir size and reservoir iterations. In the noisy regime, we also prove exponential memory decays with iterations for local noisy channels. Proving these results required us to introduce new proof techniques for bounding concentration in temporal quantum learning models.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-05-16 04:00:00 UTC.

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A First Runtime Analysis of NSGA-III on a Many-Objective Multimodal Problem: Provable Exponential Speedup via Stochastic Population Update

arXiv:2505.01256v2 Announce Type: replace Abstract: The NSGA-III is a prominent algorithm in evolutionary many-objective optimization. It is well-suited for optimizing functions with more than three objectives, setting it apart from the classic NSGA-II. However, theoretical insights about NSGA-III of when and why it performs well are still in its early development. This paper addresses this point and conducts a rigorous runtime analysis of NSGA-III on the many-objective \textsc{OneJumpZeroJump} benchmark (\textsc{OjZj} for short), providing the first runtime bounds where the number of objectives is constant. We show that NSGA-III finds the Pareto front of \textsc{OjZj} in time $O(n^{k+d/2}+ \mu n \ln(n))$ where $n$ is the problem size, $d$ is the number of objectives, $k$ is the gap size, a problem specific parameter, if its population size $\mu \in 2^{O(n)}$ is at least $(2n/d+1)^{d/2}$. Notably, NSGA-III is faster than NSGA-II by a factor of $\mu/n^{d/2}$ for some $\mu \in \omega(n^{d/2})$. We also show that a stochastic population update, proposed by Bian et al., provably guarantees a speedup of order $\Theta((k/b)^{k-1})$ in the runtime where $b>0$ is a constant. To our knowledge, this is the first rigorous runtime analysis of NSGA-III on \textsc{OjZj}. Proving these bounds requires a much deeper understanding of the population dynamics of NSGA-III than previous papers achieved.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-05-16 04:00:00 UTC.

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Using Cooperative Co-evolutionary Search to Generate Metamorphic Test Cases for Autonomous Driving Systems

arXiv:2412.03843v3 Announce Type: replace-cross Abstract: Autonomous Driving Systems (ADSs) rely on Deep Neural Networks, allowing vehicles to navigate complex, open environments. However, the unpredictability of these scenarios highlights the need for rigorous system-level testing to ensure safety, a task usually performed with a simulator in the loop. Though one important goal of such testing is to detect safety violations, there are many undesirable system behaviors, that may not immediately lead to violations, that testing should also be focusing on, thus detecting more subtle problems and enabling a finer-grained analysis. This paper introduces Cooperative Co-evolutionary MEtamorphic test Generator for Autonomous systems (CoCoMEGA), a novel automated testing framework aimed at advancing system-level safety assessments of ADSs. CoCoMEGA combines Metamorphic Testing (MT) with a search-based approach utilizing Cooperative Co-Evolutionary Algorithms (CCEA) to efficiently generate a diverse set of test cases. CoCoMEGA emphasizes the identification of test scenarios that present undesirable system behavior, that may eventually lead to safety violations, captured by Metamorphic Relations (MRs). When evaluated within the CARLA simulation environment on the Interfuser ADS, CoCoMEGA consistently outperforms baseline methods, demonstrating enhanced effectiveness and efficiency in generating severe, diverse MR violations and achieving broader exploration of the test space. These results underscore CoCoMEGA as a promising, more scalable solution to the inherent challenges in ADS testing with a simulator in the loop. Future research directions may include extending the approach to additional simulation platforms, applying it to other complex systems, and exploring methods for further improving testing efficiency such as surrogate modeling.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2025-05-16 04:00:00 UTC.

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Modular deregulation of central carbon metabolism for efficient xylose utilization in Saccharomyces cerevisiae

Nature Communications, Published online: 16 May 2025; doi:10.1038/s41467-025-59966-x

Here, the authors show that a modular deregulation strategy in Saccharomyces cerevisiae boosts xylose conversion to 3-HP by engineering central carbon metabolism with five strategies, achieving a 4.7-fold productivity increase over an initially optimized strain using xylose.

in Nature Communications on 2025-05-16 00:00:00 UTC.

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Lightweight error-tolerant edge detection using memristor-enabled stochastic computing

Nature Communications, Published online: 16 May 2025; doi:10.1038/s41467-025-59872-2

Song et al. report stochastic edge detection enabled by integrating memristor-based stochastic number encoders with logic gates to perform bitwise logic operations with statistical probabilities. A hardware Roberts cross operator achieves 95% less computational cost while withstands up to 50% bit-flip errors.

in Nature Communications on 2025-05-16 00:00:00 UTC.

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Ensemble refinement of mismodeled cryo-EM RNA structures using all-atom simulations

Nature Communications, Published online: 16 May 2025; doi:10.1038/s41467-025-59769-0

Cryo-EM often misrepresents flexible RNA molecules by averaging their conformations. Here, the authors combine cryo-EM data with all-atom simulations to refine a dynamic ensemble of complex RNA macromolecules, revealing the limits of single-structure models in flexible regions.

in Nature Communications on 2025-05-16 00:00:00 UTC.

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Identification of naturally occurring drug-resistant mutations of SARS-CoV-2 papain-like protease

Nature Communications, Published online: 16 May 2025; doi:10.1038/s41467-025-59922-9

This study identifies E167, Y268, and Q269 as drug-resistant hotspots for SARS-CoV papain-like protease inhibitors that bind to the BL2 loop and groove region, which are valuable in informing the design of the next-generation PLpro inhibitors.

in Nature Communications on 2025-05-16 00:00:00 UTC.

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Fornix subdivisions and spatial learning: a diffusion MRI study

The fornix is the major white matter tract linking the hippocampal formation with distal brain sites. Human and animal lesion studies show that the connections comprising the fornix are vital for specific attributes of episodic and spatial memory. The fornix, however, interconnects the hippocampal formation with an array of subcortical and cortical sites and it is not known which specific connections support spatial-mnemonic function. To address this, making use of a partly previously published dataset (Hodgetts et al., 2020), we applied a novel deterministic tractography protocol to diffusion-weighted magnetic resonance imaging (dMRI) data from a group of healthy young adult humans who separately completed a desktop-based virtual reality analogue of the Morris water maze task. The tractography protocol enabled the two main parts of the fornix, delineated previously in axonal tracing studies in rodents and primates, to be reconstructed in vivo, namely the pre-commissural fornix (connecting the hippocampus to the medial prefrontal cortex and the basal forebrain) and the post-commissural fornix (connecting the hippocampus to the medial diencephalon). We found that inter-individual differences in pre-commissural- but not, surprisingly, post-commissural- fornix microstructure (indexed by free water corrected fractional anisotropy, FA) were significantly correlated with individual differences in spatial learning, indexed by reduction in search error as individuals learned to navigate to a hidden target location from multiple starting points. This study provides novel evidence that flexible and/or precise spatial learning involves a hippocampal-basal forebrain/prefrontal network underpinned in part by the pre-commissural fornix.

in bioRxiv: Neuroscience on 2025-05-16 00:00:00 UTC.

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Systematic identification of P48 as an advantageous diagnostic protein for Mycoplasma bovis infections: A literature survey and computational insight [version 1; peer review: awaiting peer review]

Mycoplasma bovis (M. bovis) is a significant pathogen in cattle that causes respiratory disease, mastitis, and arthritis, leading to substantial economic losses globally. Early detection of M. bovis is crucial for its effective management because of its immune evasion strategies and resistance to antimicrobial therapies. In this review, we systematically assessed the diagnostic potential of P48 protein, an immunodominant lipoprotein of M. bovis, along with other potential biomarkers. The aim was to provide a comprehensive understanding of P48’s diagnostic utility through both literature analysis and computational insights. A literature search across major databases identified 243 relevant articles, 20 of which were selected based on predefined inclusion criteria. These studies consistently highlight P48’s diagnostic value due to its stability, immunodominance, and strong antibody response in infected cattle. In addition, a molecular analysis using the Expasy ProtParam tool reveals that P48 exhibits favorable properties for diagnostics, including a theoretical isoelectric point (pI) of 7.14, an instability index of 23.64 (classifying it as stable), and an aliphatic index of 83.40, indicating significant thermostability. The review also considers other diagnostic proteins, such as Variable Surface Proteins (VSPs), MbovP proteins, and MilA, although their variable nature and lesser validation across assays limit their broader application. In contrast, P48 is a reliable and specific marker, particularly in serological assays, for the early and accurate detection of M. bovis infections. This study confirms P48’s diagnostic efficacy over other biomarkers, and advocates its inclusion in diagnostic protocols.

in F1000Research on 2025-05-15 15:59:18 UTC.

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The Konark Temple’s Construction: A Critical Review of the Historical, Cultural, and Scientific Evidence [version 2; peer review: 1 approved, 1 approved with reservations]

Drawing from historical accounts, cultural practices, archaeological discoveries, and indigenous technical knowledge, the research presents a critical review of varied aspects of the construction of the Konark temple and provides future research directions. To fulfil the purpose, documents were sourced from Scopus, Google Scholar, and ancient texts and palm leaves. Findings suggest the legacy of Narasimhadeva I, the Hindu monarch who remained undefeated during his reign, safeguarded the kingdom from encroaching Muslim rulers. The narrative highlights the bravery of a faithful elephant that revived the king on the battlefield. The Konark temple was built with the dual purpose of showcasing the glory of his victory and devotion to the Sun God. The ancient artisans’ knowledge, skills, and commitment were crucial in erecting this tallest temple structure. The investigation further illuminates the use of sea routes for transporting monumental stones, the ingenuity in laying the temple’s foundation, the selection of high-grade stones, the monumental task of lifting colossal stones, like the world’s heaviest stone hoisted to a height of about two hundred feet, the use of rust-resistant iron, and the application of advanced astronomical knowledge by ancient artisans. The study provides insights into ancient engineering ingenuity, encouraging further exploration of the enduring legacy of the Konark temple’s construction.

in F1000Research on 2025-05-15 15:49:51 UTC.

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How swarming bats can use the collective soundscape for obstacle avoidance

by Dieter Vanderelst, Herbert Peremans

Some echolocating bats, such as Tadarida brasiliensis, fly in groups when emerging from or entering caves. In large, dense swarms, distinguishing self-generated echoes from the multitude of calls and echoes produced by others presents a significant challenge – akin to a cocktail party nightmare. While spectral jamming responses have been proposed as a solution, this mechanism is unlikely to be effective in such conditions. Here, we propose an alternative hypothesis: rather than isolating their own echoes, bats might navigate by relying on the local amplitude gradient of the collective soundscape. To test this, we developed an agent-based simulation of bats flying through corridors, demonstrating that they can avoid obstacles, including other bats and corridor walls, without distinguishing individual echoes. Our findings suggest that in dense swarms, bats can exploit the emergent acoustic environment to maintain safe distances passively. The current paper also suggests shifting the perspective on jamming itself. Rather than framing overlapping signals solely as a source of interference, our findings highlight that these signals can also carry useful information, reframing the problem from conflict to cooperative signal processing.

in PLoS Computational Biology on 2025-05-15 14:00:00 UTC.

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Is pathogen prediction possible?

by Arturo Casadevall

As humanity comes into contact with new microbes, there is a need to identify which might be future pathogenic threats. Host–microbe interactions manifest emergent properties and chaotic dynamics, posing limits on prediction. However, probabilistic predictions are possible. To what extent can we predict future pathogenic microbes? This Perspective discusses why complex requirements for virulence and dynamic host-microbe interactions make probabilistic predictions difficult, but not impossible.

in PLoS Biology on 2025-05-15 14:00:00 UTC.

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Morphological And Morphometric analysis of Human External Ear with Its Implications in Sex and Stature Estimation -– A Preliminary Observational Study [version 3; peer review: 1 approved, 2 approved with reservations, 1 not approved]

Background The human ear is unique to individuals, and ear prints, like fingerprints, are discrete enough to distinguish identical twins. Thus, this study aimed to estimate the stature and sex using various morphometric parameters and morphological features of the external ear for forensic identification. Methods This was a cross-sectional observational study involving 40 participants recruited using simple random sampling technique. Eighteen measurements were taken, and various morphological features were noted for both the right and left ears. A digital Vernier caliper was used to measure all linear parameters. The angles were measured using a goniometer. Normal distribution was verified using the Shapiro–Wilk test. For normally distributed parameters, an independent t-test was used, and for non-normally distributed parameters, the Mann-Whitney U test was used to compare sexes. To compare the right and left parameters, independent t-tests (for normally distributed data) and Mann-Whitney U tests (for non-normally distributed data) were applied. Sex determination and stature estimation were performed using logistic regression analysis. Results In males and females, the most common shape was oval (47.5%), and the ear lobe was free (45%). When comparing the parameters of males on the right and left sides, it was noticed that only the ear inclination angle and concha mastoid angle showed significant differences (p < 0.05). It was seen that the right lobe width showed perfect separation, indicating its potential as an extremely reliable predictor of sex. It was noted that in females, the strongest correlation with height was with the ear inclination angle on both sides. Conclusion We can conclude from the results of this study that the right lobe width of external ear can be a reliable predictor of sex. Ear inclination angle on both sides showed strongest correlation with height. The results of this study can help forensic anthropologists identify the sex and stature of a person from various ear measurements in young South Indian adults.

in F1000Research on 2025-05-15 11:07:16 UTC.

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Epidemiological characteristics and hospital outcomes of hospitalized Lassa fever cases during the 2022-2023 outbreak in Liberia [version 2; peer review: 2 approved with reservations]

Background Lassa fever (LF) is an endemic and immediately notifiable disease in Liberia, and one laboratory confirmed case constitutes an outbreak. We described the epidemiological characteristics and hospital outcomes of LF cases hospitalized during the 2022-2023 outbreak in Liberia. Methods A retrospective cohort study was conducted using routine LF surveillance data from the 2022-2023 outbreak in Liberia. Descriptive statistics were used to summarize the data and log binomial regression to assess the association between epidemiological characteristics and mortality. Results A total of 439 suspected LF cases were reported. The median age was 22 (interquartile range (IQR): 10-33) years and 233 (53%) were females. The median number of days between symptom onset and admission was 4 (IQR 2-7). Of the 439 cases, 416 (95%) were tested for LF and 138 were confirmed with 33% positivity rate. The majority, 95 (69%), of confirmed cases were <30 years, 78 (57%) were females, and 81 (59%) were reported during the dry season (October – March). Contact with rodents, 95 (69%), was the commonest mode of exposure. Fever, 128 (93%), malaise, 121 (88%), headache, 114 (83%) and myalgia, 114 (83%) were the most common clinical characteristics. There were 83 (19%) deaths among hospitalized suspected LF cases - 42 deaths (15%) among 278 individuals who tested negative and 41 among confirmed cases with 30% case fatality rate (CFR). Age 40-49 years accounted for 8/12 (67%) and those aged≥50 reported 5/8 (63%) of the deaths among the confirmed cases. There was no significant association between epidemiological characteristics and LF mortality. Conclusions The outbreak highlighted a high disease burden of LF with young adults disproportionately infected, and mortality, even among those who tested negative for the virus. This underscores the urgent need for preventive measures like vaccines and health education campaigns.

in F1000Research on 2025-05-15 11:03:19 UTC.

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Ginkgo Biloba as a niche theme cognitive enhancer agent, 1420 dokumen of Scopus database. A bibliometric study from 1988 to 2024 [version 2; peer review: 1 approved with reservations]

1) Introduction Cognitive enhancers, also known as nootropics, aim to improve cognitive functions, such as memory and attention. Despite their potential benefits, the challenges include scientific validation, ethical considerations, and regulatory hurdles. This bibliometric study analyzes literature from Scopus to identify key trends, influential authors, and research gaps, providing guidance for future research. 2) Methods This study employs a literature review methodology to gather data from the Scopus database on Neuroaid, analyzing it using Biblioshiny and VOSviewer software. The focus was on Ginkgo Biloba as a niche-theme cognitive enhancer agent based on Scopus data, using both quantitative and qualitative analyses. 3) Results and discussion Ginkgo biloba, the 'maidenhair tree’ from the order Ginkgoales, appeared 290 million years ago. Chinese and Japanese culture has been cultivated for thousands of years. This tree is valued for its resilience and therapeutic properties, often used in traditional medicine for respiratory and blood circulation issues. 4) Conclusions This bibliometric study on cognitive enhancers aims to provide a comprehensive and systematic review of the existing literature, highlighting key trends, influential authors, and research gaps. The findings of this study will contribute to a better understanding of the current state of research on cognitive enhancers and inform future research. This study was conducted in December 2024.

in F1000Research on 2025-05-15 10:57:32 UTC.

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Topological charge-weighted method of identifying the phase singularity at low spatial resolution

Author(s): Yin-Jie He, Qi-Hao Li, Jun-Ting Pan, and Hong Zhang

Spiral waves in cardiac tissue are believed to be closely related to cardiac diseases such as arrhythmias. Accurately identifying the phase singularity (PS, the tip of a spiral wave) is important in electrophysiological studies of cardiac arrhythmias, for which various PS detection methods have been…

[Phys. Rev. E 111, 054408] Published Thu May 15, 2025

in Physical Review E: Biological physics on 2025-05-15 10:00:00 UTC.

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Bacterial chemotaxis considering memory effects: Derivation of the reaction-diffusion equations

Author(s): Manuel Mayo and Rodrigo Soto

Bacterial chemotaxis for the case of Escherichia coli is controlled by methylation of chemoreceptors, which in a biochemical pathway regulates the concentration of the CheY-P protein that finally controls the tumbling rate. As a consequence, the tumbling rate adjusts to changes in the concentration …

[Phys. Rev. E 111, 054409] Published Thu May 15, 2025

in Physical Review E: Biological physics on 2025-05-15 10:00:00 UTC.

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Bacterial chemotaxis considering memory effects

Author(s): Manuel Mayo and Rodrigo Soto

Chemotaxis in bacteria such as Escherichia coli is controlled by the slow methylation of chemoreceptors. As a consequence, intrinsic time and length scales of tens of seconds and hundreds of micrometers emerge, making the Keller–Segel equations invalid when the chemical signal changes on these scale…

[Phys. Rev. E 111, L052402] Published Thu May 15, 2025

in Physical Review E: Biological physics on 2025-05-15 10:00:00 UTC.

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Effectiveness Of The Core Activation And Rehabilitation Exercises For Knee Osteoarthritis - Program (CARE -KOA©) Among Patients Diagnosed With Knee Osteoarthritis. [version 1; peer review: awaiting peer review]

Background Knee osteoarthritis (KOA) is a prevalent condition. Recent research on people with KOA has addressed kinetic chain and core muscle contribution in disease progression. Objective This study aims to assess the efficacy of including the CARE -KOA© regimen and evaluate its effect on pain, patient-reported functional outcomes, physical function tests, knee strength, and core endurance. Methods/Design 15 patients above 45 were recruited and underwent a 4-week CARE -KOA© program with 12 supervised sessions over four weeks. Pre- and Post-exercise assessment included evaluating the primary outcome pain using the VAS scale and the patient-reported outcome using the KOOS scale. The secondary outcomes, knee muscle strength, core endurance, and the physical function tests, i.e., the stair climb test, the sit-to-stand test, the 40m fast-paced walking test, and the timed up-and-go test, were also evaluated. The data collected in the study was analyzed using the statistical software JAMOVI. p < 0.05 was significant. Results Notably, all the parameters examined exhibited a statistically significant difference between their pre-intervention and post-intervention values, except the knee muscle strength in the flexors of the affected knee and extensors of the unaffected knee. Conclusion Patients who completed a 4-week supervised CARE -KOA© program alongside routine rehabilitation experienced reduced pain and improved outcomes. This approach aims to address biomechanical issues and positively impacts pain mechanisms. Study Trial Registration CTRI/2023/07/05480 on 05/07/2024 https://ctri.nic.in/Clinicaltrials/regtrial.php?modid=1&compid=19&EncHid=69416.70327 Copy right registration: L – 158197/2024

in F1000Research on 2025-05-15 09:21:03 UTC.

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From North Asia to South America: Tracing the longest human migration through genomic sequencing

Science, Volume 388, Issue 6748, May 2025.

in Science on 2025-05-15 07:00:00 UTC.

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Molecular basis of influenza ribonucleoprotein complex assembly and processive RNA synthesis

Science, Volume 388, Issue 6748, May 2025.

in Science on 2025-05-15 07:00:00 UTC.

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Activation dynamics traced through a G protein–coupled receptor by 81 1H-15N NMR probes

Science, Volume 388, Issue 6748, May 2025.

in Science on 2025-05-15 07:00:00 UTC.

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Cryptic infection of a giant virus in a unicellular green alga

Science, Volume 388, Issue 6748, May 2025.

in Science on 2025-05-15 07:00:00 UTC.

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Programmable gene insertion in human cells with a laboratory-evolved CRISPR-associated transposase

Science, Volume 388, Issue 6748, May 2025.

in Science on 2025-05-15 07:00:00 UTC.

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Admixture’s impact on Brazilian population evolution and health

Science, Volume 388, Issue 6748, May 2025.

in Science on 2025-05-15 07:00:00 UTC.

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Erratum for the Report “Recognition of a ubiquitous self antigen by prostate cancer–infiltrating CD8+ T lymphocytes” by P. A. Savage et al.

Science, Volume 388, Issue 6748, May 2025.

in Science on 2025-05-15 07:00:00 UTC.

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On the economic costs of ending DEI

Science, Volume 388, Issue 6748, May 2025.

in Science on 2025-05-15 07:00:00 UTC.

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