Planet Neuroscience

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Characterizing Complex Upper Limb Movements with and without Visual Feedback in Typically Developing Children

Journal of Neurophysiology, Ahead of Print.

in Journal of Neurophysiology on 2026-01-07 12:14:22 UTC.

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Performance Enhancement of AgInTe₂ Solar Cell by using SCAPS [version 1; peer review: awaiting peer review]

Background Ternary ABX2 semiconductors, in which A represents silver, B denotes indium, and X signifies tellurium, have garnered growing interest for optoelectronic applications owing to their advantageous optical band gaps and carrier transport characteristics. Among these materials, AgInTe2 has proven to be a promising absorber for high-efficiency thin-film photovoltaic applications. Layer thickness optimization is a critical factor that impacts device efficiency. Methods Numerical simulations were conducted utilizing the Solar Cell Capacitance Simulator in One Dimension (SCAPS-1D) to assess the influence of layer thickness on the efficacy of an AgInTe2-based solar cell. The device architecture comprised an aluminum antimonide window layer, an AgInTe2 absorber layer, and a barium silicide rear layer. The thicknesses of the window, absorber, and rear layers were methodically varied. Key photovoltaic parameters, such as open-circuit voltage, short-circuit current density, fill factor, and power conversion efficiency, were derived from the simulations. Results The simulation results indicate that the efficacy of the device is highly contingent upon the thickness of each individual layer. An optimized configuration with window, absorber, and back layer thicknesses of 0.1 micrometers, 0.6 micrometers, and 0.2 micrometers, respectively, resulted in a maximal power conversion efficiency of 32.6%. This enhancement is ascribed to improved carrier generation and collection, coupled with diminished recombination losses within the device. Conclusions The study illustrates that meticulous optimization of layer thickness substantially improves the efficiency of AgInTe2-based solar cells. The proposed device architecture offers valuable design principles for the development of high-efficiency thin-film photovoltaic devices.

in F1000Research on 2026-01-07 08:19:17 UTC.

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Uncovering fertility potential: Clinical and histopathological insights from testicular biopsies in azoospermic men in a large Indonesian cohort [version 1; peer review: awaiting peer review]

Objective This study aims to evaluate spermatogenic failure in azoospermic men by characterizing patterns in Modified Johnsen Scores from testicular biopsies, examining their correlation with clinical and hormonal parameters, and determining the probability of live sperm retrieval. Novelty As the largest dataset on azoospermia in Indonesia, this study provides a comprehensive histopathological and hormonal profile of azoospermic patients, while also emphasizing the diagnostic value of bilateral testicular biopsies—an area often underexplored in Southeast Asian populations. Methods A retrospective analysis was conducted on azoospermic patients who underwent bilateral testicular biopsies between April 2011 and July 2024. Testicular tissue samples were assessed using the Modified Johnsen scoring system (range: 1 to 10), and classified histopathologically from tubular fibrosis to complete spermatogenesis. Clinical parameters including age, body mass index, sperm retrieval outcomes, and serum levels of follicle-stimulating hormone, luteinizing hormone, and testosterone were collected and analyzed. Statistical associations between these parameters and histopathological subtypes were determined using significance testing. Results A total of 409 testicular biopsies were evaluated. The most frequent Modified Johnsen Scores were 7 (20%) and 5 (16.6%). Histopathological analysis showed that 40.3% of cases exhibited spermatogenic arrest, while only 7% demonstrated normal spermatogenesis. Discordant histopathological patterns between the two testes were observed in 18.5% of patients. Follicle-stimulating hormone and luteinizing hormone levels showed statistically significant associations with histopathological subtypes (p < 0.001). Age, body mass index, and testosterone levels did not correlate significantly. Conclusion Spermatogenic arrest is the predominant abnormality in azoospermic men, with hormonal variations—particularly in follicle-stimulating hormone and luteinizing hormone—strongly associated with testicular pathology. The presence of discordant histology between testes underscores the importance of bilateral biopsies. Higher Modified Johnsen Scores were positively correlated with the likelihood of successful sperm retrieval.

in F1000Research on 2026-01-07 08:10:10 UTC.

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Case Report: Eye Movement Desensitization and Reprocessing Treatment of Female Genital Mutilation: Case Report. [version 1; peer review: awaiting peer review]

We report a single case history of successful treatment of female genital mutilation with eye movement desensitization and reprocessing. There were other vaginal pain issues. Variations to the standard protocol are noted. For example, substituting target decomposition over the safe place procedure. We demonstrate that EMDR is a possible treatment for FGM. We cannot find any previous case report of EMDR and FGM.

in F1000Research on 2026-01-07 07:40:55 UTC.

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Building Institutional Legitimacy: Elites, Markets, and Inequality Through the Voice–Choice–Transparency–Trust (VCTT) Framework [version 1; peer review: awaiting peer review]

Background Institutional legitimacy—the belief that authorities are just and deserving of compliance—depends on the interplay of participation, pluralism, transparency, and trust. This study applies the Voice–Choice–Transparency–Trust (VCTT) framework to construct a composite institutional quality index (INST) and to identify how elite behaviour, market structure, inequality, and development jointly shape legitimacy across countries. The analysis bridges the conceptual divide between extractive and value-creating power by empirically testing how elite quality and market concentration interact to affect institutional outcomes. Methods Using an unbalanced panel of 22 countries from 2000 to 2004, the study combines hierarchical multiple imputation with panel econometrics. Institutional quality (INST) was derived from standardised VCTT pillars. Core regressors include the Elite Quality Index (EQx), market power (mark-up), the Gini coefficient, and GDP per capita. Two complementary estimators were applied: a fixed-effects (pooled OLS) model and a Mundlak correlated random-effects model, both corrected for heteroskedasticity and cross-sectional dependence using Driscoll–Kraay robust standard errors. Results The fixed-effects model shows that higher Elite index values strongly improve institutional quality (p < 0.01), whereas greater market concentration significantly reduces it (p < 0.01). Moderate inequality displays a small but positive association with institutional stability (p < 0.05). The Mundlak model confirms a positive within-country effect of elite quality (p = 0.004) and a negative effect of rising domestic inequality (p = 0.046). Between-country averages reveal that nations with productive elites and moderate inequality sustain stronger institutions, while persistent market dominance undermines them. Conclusions Across the sample, institutional legitimacy strengthens where elites are value-creating and markets remain competitive. Concentrated market power erodes institutional quality, and inequality’s influence is context-dependent—detrimental when it widens domestically but neutral or stabilising when moderate. Balanced power relations, therefore, underpin transparent, accountable, and trusted institutions within the VCTT framework.

in F1000Research on 2026-01-07 05:34:38 UTC.

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gPC-based robustness analysis of neural systems through probabilistic recurrence metrics

arXiv:2601.02606v1 Announce Type: new Abstract: Neuronal systems often preserve their characteristic functions and signalling patterns, also referred to as regimes, despite parametric uncertainties and variations. For neural models having uncertain parameters with a known probability distribution, probabilistic robustness analysis (PRA) allows us to understand and quantify under which uncertainty conditions a regime is preserved in expectation. We introduce a new computational framework for the efficient and systematic PRA of dynamical systems in neuroscience and we show its efficacy in analysing well-known neural models that exhibit multiple dynamical regimes: the Hindmarsh-Rose model for single neurons and the Jansen-Rit model for cortical columns. Given a model subject to parametric uncertainty, we employ generalised polynomial chaos to derive mean neural activity signals, which are then used to assess the amount of parametric uncertainty that the system can withstand while preserving the current regime, thereby quantifying the regime's robustness to such uncertainty. To assess persistence of regimes, we propose new metrics, which we apply to recurrence plots obtained from the mean neural activity signals. The overall result is a novel, general computational methodology that combines recurrence plot analysis and systematic persistence analysis to assess how much the uncertain model parameters can vary, with respect to their nominal value, while preserving the nominal regimes in expectation. We summarise the PRA results through probabilistic regime preservation (PRP) plots, which capture the effect of parametric uncertainties on the robustness of dynamical regimes in the considered models.

in arXiv: Quantitative Biology: Neurons and Cognition on 2026-01-07 05:00:00 UTC.

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Transformers self-organize like newborn visual systems when trained in prenatal worlds

arXiv:2601.03117v1 Announce Type: new Abstract: Do transformers learn like brains? A key challenge in addressing this question is that transformers and brains are trained on fundamentally different data. Brains are initially "trained" on prenatal sensory experiences (e.g., retinal waves), whereas transformers are typically trained on large datasets that are not biologically plausible. We reasoned that if transformers learn like brains, then they should develop the same structure as newborn brains when exposed to the same prenatal data. To test this prediction, we simulated prenatal visual input using a retinal wave generator. Then, using self-supervised temporal learning, we trained transformers to adapt to those retinal waves. During training, the transformers spontaneously developed the same structure as newborn visual systems: (1) early layers became sensitive to edges, (2) later layers became sensitive to shapes, and (3) the models developed larger receptive fields across layers. The organization of newborn visual systems emerges spontaneously when transformers adapt to a prenatal visual world. This developmental convergence suggests that brains and transformers learn in common ways and follow the same general fitting principles.

in arXiv: Quantitative Biology: Neurons and Cognition on 2026-01-07 05:00:00 UTC.

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Credit Assignment via Neural Manifold Noise Correlation

arXiv:2601.02636v1 Announce Type: cross Abstract: Credit assignment--how changes in individual neurons and synapses affect a network's output--is central to learning in brains and machines. Noise correlation, which estimates gradients by correlating perturbations of activity with changes in output, provides a biologically plausible solution to credit assignment but scales poorly as accurately estimating the Jacobian requires that the number of perturbations scale with network size. Moreover, isotropic noise conflicts with neurobiological observations that neural activity lies on a low-dimensional manifold. To address these drawbacks, we propose neural manifold noise correlation (NMNC), which performs credit assignment using perturbations restricted to the neural manifold. We show theoretically and empirically that the Jacobian row space aligns with the neural manifold in trained networks, and that manifold dimensionality scales slowly with network size. NMNC substantially improves performance and sample efficiency over vanilla noise correlation in convolutional networks trained on CIFAR-10, ImageNet-scale models, and recurrent networks. NMNC also yields representations more similar to the primate visual system than vanilla noise correlation. These findings offer a mechanistic hypothesis for how biological circuits could support credit assignment, and suggest that biologically inspired constraints may enable, rather than limit, effective learning at scale.

in arXiv: Quantitative Biology: Neurons and Cognition on 2026-01-07 05:00:00 UTC.

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A Mathematical Formalization of Self-Determining Agency

arXiv:2601.02885v1 Announce Type: cross Abstract: Defining agency is an extremely important challenge for cognitive science and artificial intelligence. Physics generally describes mechanical happenings, but there remains an unbridgeable gap between them and the acts of agents. To discuss the morality and responsibility of agents, it is necessary to model acts; whether such responsible acts can be fully explained by physical determinism has been debated. Although we have already proposed a physical "agent determinism" model that appears to go beyond mere mechanical happenings, we have not yet established a strict mathematical formalism to eliminate ambiguity. Here, we explain why a physical system can follow coarse-graining agent-level determination without violating physical laws by formulating supervenient causation. Generally, supervenience including coarse graining does not change without a change in its lower base; therefore, a single supervenience alone cannot define supervenient causation. We define supervenient causation as the causal efficacy from the supervenience level to its lower base level. Although an algebraic expression composed of the multiple supervenient functions does supervenes on the base, a sequence of indices that determines the algebraic expression does not supervene on the base. Therefore, the sequence can possess unique dynamical laws that are independent of the lower base level. This independent dynamics creates the possibility for temporally preceding changes at the supervenience level to cause changes at the lower base level. Such a dual-laws system is considered useful for modeling self-determining agents such as humans.

in arXiv: Quantitative Biology: Neurons and Cognition on 2026-01-07 05:00:00 UTC.

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Neural Receptive Fields, Stimulus Space Embedding and Effective Geometry of Scale-Free Networks

arXiv:2509.25453v2 Announce Type: replace Abstract: Understanding how receptive fields emerge and organize within brain networks and how neural dynamics couple with stimuli space is fundamental to neuroscience. Models often rely on fine-tuning connectivity to match empirical data, which may limit biological plausibility. Here we propose a physiologically grounded alternative where receptive fields and population-level attractor dynamics arise naturally from the effective hyperbolic geometry of scale-free networks. By associating stimulus space with the boundary of a hyperbolic embedding, we simulate neural dynamics using rate-based and spiking models, revealing localized activity patterns that reflect stimulus space structure without synaptic fine-tuning. The resulting receptive fields follow experimentally observed statistics and properties, and their sizes depends on neuron's connectivity degree. The model generalizes across stimuli dimensionalities and various modalities, such as orientation and place selectivity. Experimental analyses of hippocampal place fields recorded on a linear track support these findings. This framework offers a novel organizing principle linking network structure, stimulus space encoding, and neural dynamics, providing insights into receptive field formation across diverse brain areas.

in arXiv: Quantitative Biology: Neurons and Cognition on 2026-01-07 05:00:00 UTC.

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Quantifying task-relevant representational similarity using decision variable correlation

arXiv:2506.02164v3 Announce Type: replace-cross Abstract: Previous studies have compared neural activities in the visual cortex to representations in deep neural networks trained on image classification. Interestingly, while some suggest that their representations are highly similar, others argued the opposite. Here, we propose a new approach to characterize the similarity of the decision strategies of two observers (models or brains) using decision variable correlation (DVC). DVC quantifies the image-by-image correlation between the decoded decisions based on the internal neural representations in a classification task. Thus, it can capture task-relevant information rather than general representational alignment. We evaluate DVC using monkey V4/IT recordings and network models trained on image classification tasks. We find that model-model similarity is comparable to monkey-monkey similarity, whereas model-monkey similarity is consistently lower. Strikingly, DVC decreases with increasing network performance on ImageNet-1k. Adversarial training does not improve model-monkey similarity in task-relevant dimensions assessed using DVC, although it markedly increases the model-model similarity. Similarly, pre-training on larger datasets does not improve model-monkey similarity. These results suggest a divergence between the task-relevant representations in monkey V4/IT and those learned by models trained on image classification tasks.

in arXiv: Quantitative Biology: Neurons and Cognition on 2026-01-07 05:00:00 UTC.

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Hierarchical temporal receptive windows and zero-shot timescale generalization in biologically constrained scale-invariant deep networks

arXiv:2601.02618v1 Announce Type: cross Abstract: Human cognition integrates information across nested timescales. While the cortex exhibits hierarchical Temporal Receptive Windows (TRWs), local circuits often display heterogeneous time constants. To reconcile this, we trained biologically constrained deep networks, based on scale-invariant hippocampal time cells, on a language classification task mimicking the hierarchical structure of language (e.g., 'letters' forming 'words'). First, using a feedforward model (SITHCon), we found that a hierarchy of TRWs emerged naturally across layers, despite the network having an identical spectrum of time constants within layers. We then distilled these inductive priors into a biologically plausible recurrent architecture, SITH-RNN. Training a sequence of architectures ranging from generic RNNs to this restricted subset showed that the scale-invariant SITH-RNN learned faster with orders-of-magnitude fewer parameters, and generalized zero-shot to out-of-distribution timescales. These results suggest the brain employs scale-invariant, sequential priors - coding "what" happened "when" - making recurrent networks with such priors particularly well-suited to describe human cognition.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2026-01-07 05:00:00 UTC.

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Evolutionary Algorithms for Computing Nash Equilibria in Dynamic Games

arXiv:2601.02397v1 Announce Type: new Abstract: Dynamic nonzero sum games are widely used to model multi agent decision making in control, economics, and related fields. Classical methods for computing Nash equilibria, especially in linear quadratic settings, rely on strong structural assumptions and become impractical for nonlinear dynamics, many players, or long horizons, where multiple local equilibria may exist. We show through examples that such methods can fail to reach the true global Nash equilibrium even in relatively small games. To address this, we propose two population based evolutionary algorithms for general dynamic games with linear or nonlinear dynamics and arbitrary objective functions: a co evolutionary genetic algorithm and a hybrid genetic algorithm particle swarm optimization scheme. Both approaches search directly over joint strategy spaces without restrictive assumptions and are less prone to getting trapped in local Nash equilibria, providing more reliable approximations to global Nash solutions.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2026-01-07 05:00:00 UTC.

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Spiking Heterogeneous Graph Attention Networks

arXiv:2601.02401v1 Announce Type: new Abstract: Real-world graphs or networks are usually heterogeneous, involving multiple types of nodes and relationships. Heterogeneous graph neural networks (HGNNs) can effectively handle these diverse nodes and edges, capturing heterogeneous information within the graph, thus exhibiting outstanding performance. However, most methods of HGNNs usually involve complex structural designs, leading to problems such as high memory usage, long inference time, and extensive consumption of computing resources. These limitations pose certain challenges for the practical application of HGNNs, especially for resource-constrained devices. To mitigate this issue, we propose the Spiking Heterogeneous Graph Attention Networks (SpikingHAN), which incorporates the brain-inspired and energy-saving properties of Spiking Neural Networks (SNNs) into heterogeneous graph learning to reduce the computing cost without compromising the performance. Specifically, SpikingHAN aggregates metapath-based neighbor information using a single-layer graph convolution with shared parameters. It then employs a semantic-level attention mechanism to capture the importance of different meta-paths and performs semantic aggregation. Finally, it encodes the heterogeneous information into a spike sequence through SNNs, simulating bioinformatic processing to derive a binarized 1-bit representation of the heterogeneous graph. Comprehensive experimental results from three real-world heterogeneous graph datasets show that SpikingHAN delivers competitive node classification performance. It achieves this with fewer parameters, quicker inference, reduced memory usage, and lower energy consumption. Code is available at https://github.com/QianPeng369/SpikingHAN.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2026-01-07 05:00:00 UTC.

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Evolving Personalities in Chaos: An LLM-Augmented Framework for Character Discovery in the Iterated Prisoners Dilemma under Environmental Stress

arXiv:2601.02407v1 Announce Type: new Abstract: Standard simulations of the Iterated Prisoners Dilemma (IPD) operate in deterministic, noise-free environments, producing strategies that may be theoretically optimal but fragile when confronted with real-world uncertainty. This paper addresses two critical gaps in evolutionary game theory research: (1) the absence of realistic environmental stressors during strategy evolution, and (2) the Interpretability Gap, where evolved genetic strategies remain opaque binary sequences devoid of semantic meaning. We introduce a novel framework combining stochastic environmental perturbations (God Mode) with Large Language Model (LLM)-based behavioral profiling to transform evolved genotypes into interpretable character archetypes. Our experiments demonstrate that strategies evolved under chaotic conditions exhibit superior resilience and present distinct behavioral phenotypes, ranging from Ruthless Capitalists to Diplomatic Enforcers. These phenotypes are readily classified by LLMs but remain nearly impossible to interpret through manual genome inspection alone. This work bridges evolutionary computation with explainable AI and provides a template for automated agent characterization in multi-agent systems.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2026-01-07 05:00:00 UTC.

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SpikySpace: A Spiking State Space Model for Energy-Efficient Time Series Forecasting

arXiv:2601.02411v1 Announce Type: new Abstract: Time-series forecasting often operates under tight power and latency budgets in fields like traffic management, industrial condition monitoring, and on-device sensing. These applications frequently require near real-time responses and low energy consumption on edge devices. Spiking neural networks (SNNs) offer event-driven computation and ultra-low power by exploiting temporal sparsity and multiplication-free computation. Yet existing SNN-based time-series forecasters often inherit complex transformer blocks, thereby losing much of the efficiency benefit. To solve the problem, we propose SpikySpace, a spiking state-space model (SSM) that reduces the quadratic cost in the attention block to linear time via selective scanning. Further, we replace dense SSM updates with sparse spike trains and execute selective scans only on spike events, thereby avoiding dense multiplications while preserving the SSM's structured memory. Because complex operations such as exponentials and divisions are costly on neuromorphic chips, we introduce simplified approximations of SiLU and Softplus to enable a neuromorphic-friendly model architecture. In matched settings, SpikySpace reduces estimated energy consumption by 98.73% and 96.24% compared to two state-of-the-art transformer based approaches, namely iTransformer and iSpikformer, respectively. In standard time series forecasting datasets, SpikySpace delivers competitive accuracy while substantially reducing energy cost and memory traffic. As the first full spiking state-space model, SpikySpace bridges neuromorphic efficiency with modern sequence modeling, marking a practical and scalable path toward efficient time series forecasting systems.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2026-01-07 05:00:00 UTC.

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From Muscle to Text with MyoText: sEMG to Text via Finger Classification and Transformer-Based Decoding

arXiv:2601.03098v1 Announce Type: cross Abstract: Surface electromyography (sEMG) provides a direct neural interface for decoding muscle activity and offers a promising foundation for keyboard-free text input in wearable and mixed-reality systems. Previous sEMG-to-text studies mainly focused on recognizing letters directly from sEMG signals, forming an important first step toward translating muscle activity into text. Building on this foundation, we present MyoText, a hierarchical framework that decodes sEMG signals to text through physiologically grounded intermediate stages. MyoText first classifies finger activations from multichannel sEMG using a CNN-BiLSTM-Attention model, applies ergonomic typing priors to infer letters, and reconstructs full sentences with a fine-tuned T5 transformer. This modular design mirrors the natural hierarchy of typing, linking muscle intent to language output and reducing the search space for decoding. Evaluated on 30 users from the emg2qwerty dataset, MyoText outperforms baselines by achieving 85.4% finger-classification accuracy, 5.4% character error rate (CER), and 6.5% word error rate (WER). Beyond accuracy gains, this methodology establishes a principled pathway from neuromuscular signals to text, providing a blueprint for virtual and augmented-reality typing interfaces that operate entirely without physical keyboards. By integrating ergonomic structure with transformer-based linguistic reasoning, MyoText advances the feasibility of seamless, wearable neural input for future ubiquitous computing environments.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2026-01-07 05:00:00 UTC.

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Multimodal oscillator networks learn to solve a classification problem

arXiv:2502.12020v3 Announce Type: replace-cross Abstract: We numerically demonstrate a network of coupled oscillators that can learn to solve a classification task from a set of examples -- performing both training and inference through the nonlinear evolution of the system. We accomplish this by combining three key elements to achieve learning: A long- term memory that stores learned responses, analogous to the synapses in biological brains; a short- term memory that stores the neural activations, similar to the firing patterns of neurons; and an evolution law that updates the synapses in response to novel examples, inspired by synaptic plasticity. Achieving all three elements in wave-based information processors such as metamaterials is a significant challenge. Here, we solve it by leveraging the material multistability to implement long-term memory, and harnessing symmetries and thermal noise to realize the learning rule. Our analysis reveals that the learning mechanism, although inspired by synaptic plasticity, also shares parallelisms with bacterial evolution strategies, where mutation rates increase in the presence of noxious stimuli.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2026-01-07 05:00:00 UTC.

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CodeEvolve: an open source evolutionary coding agent for algorithm discovery and optimization

arXiv:2510.14150v3 Announce Type: replace-cross Abstract: We introduce CodeEvolve, an open-source framework that combines large language models (LLMs) with evolutionary search to synthesize high-performing algorithmic solutions. CodeEvolve couples an islands-based genetic algorithm with modular LLM orchestration, using execution feedback and task-specific metrics to guide selection and variation. Exploration and exploitation are balanced through context-aware recombination, adaptive meta-prompting, and targeted refinement of promising solutions. We evaluate CodeEvolve on benchmarks previously used to assess Google DeepMind's AlphaEvolve, showing superior performance on several tasks and competitive results overall. Notably, open-weight models often match or exceed closed-source baselines at a fraction of the compute cost. We provide extensive ablations analyzing the contribution of each component and release our framework and experimental results at https://github.com/inter-co/science-codeevolve.

in arXiv: Computer Science: Neural and Evolutionary Computing on 2026-01-07 05:00:00 UTC.

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Understanding Antecedents and Attributes in the Context of Upward Referral for Obstetric Emergencies: A Grounded Theory Study [version 1; peer review: awaiting peer review]

Background Reducing maternal and neonatal deaths in low- and middle-income countries requires a comprehensive understanding of the challenges within the healthcare system. Effective upward referral systems play a crucial role in ensuring timely emergency care for obstetric complications in the healthcare system. The aim of this study is to understand the factors (antecedents) and defining characteristics (attributes) that influence upward referrals of obstetric emergencies. from Community Health Centres to higher-level hospitals in the OR Tambo district, Eastern Cape, South Africa. Methods Data were collected through document analysis, observations, focus group discussions and in-depth interviews, consisting of 59 participants, using a qualitative grounded theory approach. Results The study reveals a complex web of interrelated antecedents and attributes that influence the effectiveness of upward referrals in obstetric emergencies. While formal protocols exist, referral decisions are often undermined by systemic barriers. The findings suggest that the lack of coordination between referring and receiving facilities, coupled with fragmented feedback systems, hampers continuity of care. Despite these challenges, instances of effective referral were observed in settings where interprofessional collaboration, timely information sharing, and adequate preparation of patients were prioritised. Conclusion Effective upward referral of obstetric emergencies depends on timely decision-making, adequate patient preparation, clear communication, and inter-facility collaboration. This highlights the need for an integrated approach that strengthens health system functions, which are essential to reducing preventable maternal and neonatal morbidity and mortality in resource-constrained settings like South Africa.

in F1000Research on 2026-01-07 04:35:36 UTC.

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Case Report : Clinical Management Of a Twin Pregnancy Complicated With An Acardiac Fetus Detected In The Prenatal Period [version 1; peer review: awaiting peer review]

Background The acardiac fetus is a rare malformation specific to multiple monozygotic pregnancies. Two main theories have been proposed regarding the etiology of this malformation: the vascular theory, and the second supposes a defect in the embryogenesis of the heart. Diagnosis is typically suspected and confirmed based on ultrasound findings. Case presentation We present the case of a 36-year-old woman, G3P4, with a bi-scarred uterus. The last pregnancy was a monochorionic monoamniotic twin pregnancy complicated by an acardiac fetus suspected in the first trimester and confirmed by ultrasound at 23 weeks of gestation. She gave birth by an emergency cesarean section at 34 weeks + 4 days to two babies: a normal female baby and an acardiac fetus. Conclusion Acardiac twin pregnancies present challenges and require careful management to optimize outcomes for both the acardiac and the healthy twins. Understanding the mechanisms underlying this condition is crucial to provide effective prenatal care and support.

in F1000Research on 2026-01-07 04:31:18 UTC.

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Sustainable RC Beams with Agricultural Waste Fine Aggregate and Glass Powder: Structural Evaluation under Bending [version 1; peer review: awaiting peer review]

Background This experimental study evaluates the structural behavior of reinforced concrete (RC) beams incorporating walnut shell fine aggregate (WFA) and 15% powdered waste glass (PWG). Method Eight simply-supported RC beams were cast and tested in two series: Group 1 (beams with transverse stirrups i.e. flexure-dominated) and Group 2 (beams without stirrups i.e. shear-dominated). Mixes included a control (0% WFA) and three WFA replacement levels (10%, 20%, 30% by volume of sand), with PWG fixed at 15% of cement in all mixes. Tests included 28-day compressive strength, density measurements, and two-point bending load–deflection tests. Results Results show that 10% WFA replacement enhanced compressive strength by 3–5%, flexural capacity by ~6%, and ductility by 64%, while reducing density by 6–8%. Higher WFA contents reduced stiffness but improved energy absorption and crack distribution. Conclusions The findings confirm that moderate WFA replacement (≤10%) combined with PWG yields eco-efficient RC beams with improved ductility and reduced dead load.

in F1000Research on 2026-01-07 04:26:35 UTC.

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Discrete Circuits of the Ventral Hippocampus in Threat‐Based Learning and Memory

ABSTRACT

While the hippocampus has intrigued generations of neuroscientists for its contributions to cognitive and emotional processing, functional specialization along its longitudinal axis confers particular importance to the ventral hippocampus (vHPC) in affective regulation under normal and pathological conditions. In particular, vHPC is extensively linked to the encoding, expression, and extinction of fear memories, which mediate behavioral adaptation to environmental threats. Despite decades of research, however, many questions remain about precisely what is encoded among specific populations of vHPC neurons and what brain systems cooperate in processing this information during fear regulation. Furthermore, as insights accumulate into the function of discrete afferent projections of vHPC, an important area of focus is how vHPC circuitry might be organized to support different output patterns through synaptic integration. Here, we summarize the current understanding of these issues based on contemporary circuit-based approaches and highlight potential clues to the anatomical and functional organization of synaptic networks that may help reconceptualize vHPC as a system of interacting modules.

in Hippocampus on 2026-01-07 04:26:16 UTC.

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Inspiratory Muscle Training plus Pulmonary Rehabilitation versus Rehabilitation alone in COPD A Systematic Review of Randomized Controlled Trials [version 1; peer review: awaiting peer review]

Background Pulmonary rehabilitation (PR) is an established intervention for COPD, but the added value of inspiratory muscle training (IMT) within PR remains uncertain. This systematic review examined whether IMT plus PR provides benefits beyond PR alone in adults with moderate to severe COPD. Methods PubMed, ScienceDirect, Cochrane Library, and Web of Science were searched from inception to January 2023. Randomized controlled trials (RCTs) comparing IMT+PR with PR alone in adults with moderate to severe COPD were included. Primary outcomes were inspiratory muscle strength (PImax), dyspnea, health related quality of life (HRQoL), exercise capacity [six minute walk test (6MWT)], and pulmonary function tests (PFTs). Risk of bias was assessed using the Cochrane RoB 2.0 tool. Results Nine RCTs (n=295) met the inclusion criteria. IMT+PR improved PImax in 6/9 studies, with gains of 5.2 to 22.9 cmH2O. Dyspnea improved in 6/8 studies, often exceeding the minimal clinically important difference (MCID). HRQoL improved in all studies assessing this outcome (6/6), although superiority of IMT+PR over PR or control conditions was not consistently demonstrated. Exercise capacity findings were mixed, with significant within-group 6MWT gains in 4 of 7 studies but inconsistent between-group differences. PFTs (FEV1, FVC) were generally unchanged, while limited data from single-center trials suggest reductions in dynamic hyperinflation and small increases in inspiratory capacity. Conclusion Adding IMT to PR meaningfully improves PImax and HRQoL in moderate to severe COPD, with frequent but less consistent benefits for dyspnea and 6MWT performance and minimal effect on spirometry. IMT may be most appropriate for patients with inspiratory muscle weakness (PImax <60 cmH2O or <50% predicted). Further RCTs should define optimal IMT protocols and clarify which COPD phenotypes derive the greatest benefit.

in F1000Research on 2026-01-07 04:21:22 UTC.

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Analysis of the peristaltic flow of a variable viscosity Carreau fluid affected by temperature and concentration through an endoscope hollow flexible channel [version 1; peer review: awaiting peer review]

Background Peristaltic or undulating flow plays a significant role in various biomedical and industrial processes, where it provides an efficient mechanism for transporting fluids through flexible conduits such as catheters and endoscopic channels. Understanding such flow behavior is essential for improving medical devices and industrial applications involving non-Newtonian fluids. Methods This study investigates the peristaltic motion of a Carreau fluid whose viscosity varies with both temperature and concentration within a flexible, axisymmetric channel composed of two overlapping cylindrical tubes. The outer wall of the channel exhibits a sinusoidal wave pattern, simulating a realistic endoscopic configuration. The governing nonlinear, nonhomogeneous partial differential equations were formulated in cylindrical coordinates under the assumption of a long wavelength and low Reynolds number. The equations were transformed into a dimensionless form and solved using the uniform perturbation method. Graphical analyses were performed using Mathematica software. Results The results illustrate the combined effects of temperature-dependent and concentration-dependent viscosity on the velocity distribution and pressure gradient within the channel. Increasing temperature and solute concentration were found to enhance fluid velocity and reduce flow resistance. Conclusions The study provides a comprehensive understanding of peristaltic transport in variable-viscosity Carreau fluids under realistic physiological conditions. These findings may contribute to optimizing the design and performance of endoscopic and biomedical fluid transport systems.

in F1000Research on 2026-01-07 04:13:28 UTC.

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Refrigeration down to 0.16 K using a frustrated magnet Gd2B2MoO9

Nature Communications, Published online: 07 January 2026; doi:10.1038/s41467-025-68278-z

Ultra-low-temperature magnetic refrigeration is strongly dependent on the performances of refrigerants. Here the authors provide a frustrated magnet Gd2B2MoO9 with excellent magnetocaloric performances and a minimum temperature of 0.16 K is achieved.

in Nature Communications on 2026-01-07 00:00:00 UTC.

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Spontaneous chlorine production from chloride-containing brines

Nature Communications, Published online: 07 January 2026; doi:10.1038/s41467-025-68181-7

Researchers report a spontaneous method that produces chlorine directly from chloride-containing brines by harnessing their inherent osmotic energy and chloride ions, without any external energy input.

in Nature Communications on 2026-01-07 00:00:00 UTC.

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A multidimensional workflow profiling of allogeneic virus-specific T cell therapies reveals potency-linked signatures

Nature Communications, Published online: 07 January 2026; doi:10.1038/s41467-025-67924-w

Allogeneic T cell therapies could be used in therapeutic applications because of their potential for ‘off-the-shelf’ access and standardised production. Here the authors have developed a multidimensional workflow profiling platform for EBV-specific T cell therapy and show that correlative biomarkers of T cell potency and effector function are associated with therapeutic effectiveness in xenogeneic mouse EBV-LCL models.

in Nature Communications on 2026-01-07 00:00:00 UTC.

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Surface-energy-compensated fabrication of single-crystal alloy films with atomic-scale flatness

Nature Communications, Published online: 07 January 2026; doi:10.1038/s41467-025-68196-0

Single-crystal alloy thin films (SATFs) are appealing for applications in crystal epitaxy, surface catalysis, and energy conversion. Here, the authors report a method to synthesize wafer-scale binary and ternary SATFs with sub-nanometer roughness, which can be used as substrates for the growth of high-quality graphene single crystals.

in Nature Communications on 2026-01-07 00:00:00 UTC.

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Thermotropic liquid-assisted interface management enables efficient and stable perovskite solar cells and modules

Nature Communications, Published online: 07 January 2026; doi:10.1038/s41467-025-68231-0

In this work, Chang et al. report a thermotropic liquid additive for perovskite solar cells that enables dynamic interface management, simultaneously passivating defects and suppressing ion migration to deliver high efficiency and substantially enhanced operational stability.

in Nature Communications on 2026-01-07 00:00:00 UTC.

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Long-distance spin transport in frustrated hyperkagome magnet Gd3Ga5O12

Nature Communications, Published online: 07 January 2026; doi:10.1038/s41467-025-68203-4

Spin transport properties of magnetically ordered materials have been well studied. Here, the authors report an anomalous spin signal exhibiting spin transport over 480 microns in the frustrated hyperkagome magnetic insulator Gd3Ga5O12.

in Nature Communications on 2026-01-07 00:00:00 UTC.

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DNA actively regulates the “safety-belt” dynamics of condensin during loop extrusion

Nature Communications, Published online: 07 January 2026; doi:10.1038/s41467-025-68239-6

The molecular mechanism underlying DNA entrapment during loop extrusion by condensin remains poorly understood. Here, the authors use multiscale molecular simulations to show that DNA itself steers a flexible “safety belt” in condensin.

in Nature Communications on 2026-01-07 00:00:00 UTC.

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Aligning EU energy security and climate mitigation through targeted transition strategies

Nature Communications, Published online: 07 January 2026; doi:10.1038/s41467-025-67595-7

This study demonstrates that renewable energy expansion, green hydrogen deployment, and carbon offsetting strategies targeting the European Union’s natural gas reliance can simultaneously advance its climate goals and long-term energy security.

in Nature Communications on 2026-01-07 00:00:00 UTC.

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The impact of positive and negative affect on aperiodic EEG activity: evidence for a shared neural basis of metacontrol and emotion

Abstract

Metacontrol refers to the ability to dynamically adjust cognitive-control strategies, ensuring a balance between persistence and flexibility. Empirical findings point to a strong link between metacontrol and emotion, but the mechanistic underpinnings of this link remain unknown. Here, we had two goals. First, we hypothesized that metacontrol and emotion are mechanistically linked through aperiodic EEG activity, in the sense that both positive emotion and metacontrol flexibility come with increases, and both negative emotion and metacontrol persistence with decreases of aperiodic activity. Second, we tested whether and to what degree emotional stimuli affect behavior and aperiodic activity automatically. In a large sample (n = 120), we examined EEG and behavioral data from three tasks in which we systematically varied the task-relevance of the emotional information presented to participants. As hypothesized, positive pictures resulted in higher aperiodic activity than negative pictures. Task context and, more specifically, the relevance of emotional stimuli significantly influenced overt behavior but had no effect on aperiodic activity. We conclude that positive and negative emotions may represent the phenomenal “feel” of metacontrol biases towards flexibility and persistence, respectively, and that the degree to which processes are affected by emotional content automatically depends on the process under consideration.

in Cerebral Cortex on 2026-01-07 00:00:00 UTC.

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Long-latency auditory evoked responses across species show increased amplitude during early life

Abstract

Auditory evoked responses undergo notable changes during childhood, likely reflecting modifications in synaptic signaling in the auditory cortex. Particularly robust response, observed around 200 to 300 ms post stimulus (N/M250), has been consistently reported in children but is absent in adults. This long-latency response, evoked even in passive listening conditions, may indicate heightened sensory pathway responsiveness, facilitating experience-driven cortical plasticity. However, it remains unclear whether this delayed activation pattern is an intrinsic, species-general feature of brain development. We recorded cortical auditory evoked responses to monaural sine-wave tones/click sounds in 3 age groups (preadolescents, adolescents, and young adults) of human subjects and rats. Following short-lived early responses, both species exhibited a long-latency (150 to 450 ms) response in the auditory cortex. In both species, the relative amplitude of the long-latency response, compared to early responses, was increased in younger individuals. In human children, single-trial analysis demonstrated more consistent trial-by-trial timing of the response in this later time window than in the adult-typical 100-ms response in the earlier time window. Given its emergence in purely passive conditions, and across species, the robust current activity in late time window could represent a distinct synaptic event and may serve as a marker of the maturational stage, particularly in GABAergic cortical circuits.

in Cerebral Cortex on 2026-01-07 00:00:00 UTC.

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Probing the causal contribution of premotor and parietal cortex in habit formation and expression

Abstract

Previous research suggests that habit formation is associated with a decreasing control by the goal-directed system and increasing control of the habit-related brain systems. However, the causal contribution of these systems in human habit formation and expression remains unclear. In the current study, we applied 1-Hz inhibitory repetitive transcranial magnetic stimulation (rTMS) targeting the inferior parietal cortex (IPL) and the dorsal premotor cortex (PMC) to interfere with goal- and habit-related brain systems, respectively. Two groups of participants (IPL/PMC) received real or sham-rTMS on separate days prior to habit training. We found that TMS did not induce significant learning-related changes during habit learning. Importantly, we found a significantly increased habit expression during goal-habit competition following IPL stimulation. In contrast, while numerically, habit expression decreased following PMC stimulation, this effect did not reach statistical significance. Thereby, the current study provides direct causal evidence suggesting that habit expression is significantly influenced by the release of control from the goal-directed system, while evidence regarding the influence of the habit-related system remains less conclusive.

in Cerebral Cortex on 2026-01-07 00:00:00 UTC.

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A Novel Application of Pineapple Core Extract: In Vitro Antibacterial Activity Against Staphylococcus aureus and Streptococcus pyogenes from Impetigo Lesions  [version 1; peer review: awaiting peer review]

Background Impetigo is a superficial bacterial skin infection primarily caused by Staphylococcus aureus and Streptococcus pyogenes. The pineapple core (Ananas comosus L. Merr. var. Queen) has been reported to contain various bioactive compounds, including bromelain and flavonoids, which possess antibacterial properties effective against Staphylococcus aureus. This study aimed to compare the susceptibility of Staphylococcus aureus and Streptococcus pyogenes to fusidic acid and pineapple core extract (PCE) in patients diagnosed with impetigo. Methods An in vitro experimental study using a post-test only control group design, conducted between January and March 2025. A total of 60 bacterial isolates of Staphylococcus aureus and Streptococcus pyogenes were collected from patients with impetigo who met the inclusion criteria. The isolates were divided into five treatment groups, with each bacterial group receiving interventions in concentrations of 50%, 70%, and 100% PCE, 10 μg fusidic acid (positive control), and a negative control. The inhibition zone diameters were measured using the disk diffusion method. Results There was a significant difference in susceptibility of Staphylococcus aureus to the 50%, 70%, and 100% concentrations of PCE compared to fusidic acid. However, Streptococcus pyogenes showed no statistically significant difference in susceptibility between the 100% pineapple extract and 10 μg fusidic acid. The descending order of inhibition zone diameter observed in both bacteria was as follows: 10 μg fusidic acid, 100% PCE, 70% PCE, 50% PCE, and negative control. Conclusion Streptococcus pyogenes isolates from impetigo patients demonstrated susceptibility to both 100% PCE and fusidic acid, indicating the potential of PCE as a natural antibacterial agent

in F1000Research on 2026-01-06 23:47:08 UTC.

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Responsible practices and ethical behaviors in the use of artificial intelligence among university students [version 1; peer review: awaiting peer review]

Background The growing incorporation of artificial intelligence (AI) in higher education presents significant ethical challenges, particularly regarding the critical and responsible use of these technologies by students. In this context, the present study aimed to analyze responsible practices and ethical behaviors in the use of AI among students at the State University of Milagro. Methods A quantitative, explanatory-level approach was applied, employing a non-experimental and cross-sectional design, with a validated questionnaire administered to 716 participants from various academic programs. The analysis was conducted through structural equation modeling to explore the influence of affective, behavioral, and cognitive learning dimensions on the ethical dimension. Results The affective and cognitive dimensions exert a significant and positive impact on the development of learning ethics, while the behavioral component did not show statistically relevant effects. Additionally, the study evidenced high reliability and validity of the instrument, as well as a medium level of AI appropriation among students, with predominant use of tools such as ChatGPT. Conclusions Ethical training cannot be dissociated from emotional attitudes and technical knowledge about AI. The study acknowledges as limitations the non-probabilistic nature of the sample and the cross-sectional design.

in F1000Research on 2026-01-06 23:41:06 UTC.

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Quinazoline-2,4(1H,3H)-dione derivatives as new class of CB1 Agonists: A pharmacophore-based virtual screening workflow and drug discovery [version 2; peer review: 2 approved]

Background The cannabinoid 1 (CB1) receptor is the primary target of Δ9-tetrahydrocannabinol (Δ9-THC), the psychoactive component of cannabis sativa (commonly known as “kif” in Morocco). Methods Here, we identified novel CB1 agonists using virtual screening approaches. First, we developed a pharmacophore model based on the known CB1 agonist AM11542 and screened a database of over three million compounds. Molecular docking using AutoDock Vina identified 61 hits with binding affinities of less than -9.00 Kcal/mol. Subsequent ADME-Tox (absorption, distribution, metabolism, excretion, and toxicity) analysis narrowed the selection to 18 promising candidates. Results Among these, three agonists exhibited strong characteristics, including a favorable inhibition constant (Ki) and key hydrogen-bond interactions with critical residues in the CB1 binding pocket: PUBChem157251136 (Ki=2.09 nM), ZINC64438485 (Ki= 0.262 nM) and ZINC64438506 (Ki =0.244 nM). These agonists formed stable hydrogen bonds with CB1 binding pocket residues (Ser383, Ser173, His178 and Thr197). Molecular dynamics simulations (100 ns, GROMACS) demonstrated structural stability (RMSD < 1 nm) and low conformational flexibility (RMSF < 1 nm) for all complexes. MM-GBSA binding free energy calculations further confirmed the thermodynamic stability of all complexes, with interaction energies ranging from -30.59 to -49.98 kcal/mol. These comprehensive simulations confirm that all identified agonist complexes maintain stable binding conformations with optimal interaction profiles characteristic of CB1 receptor activation. Conclusion These results could pave the way for researching and developing new quinazolinz-2, 4(1H, 3H)-Dione derivatives as a new class of CB1 receptor agonists.

in F1000Research on 2026-01-06 23:30:47 UTC.

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Case Report: Intravenous Magnesium Sulfate as an Adjuvant to Propofol-Based TIVA in Pediatric Glioma Resection: A Case Report with Real-Time ONSD and TCD Monitoring [version 1; peer review: awaiting peer review]

Background Pediatric glioma surgery poses significant anesthetic challenges due to raised intracranial pressure (ICP), neurodevelopmental vulnerability, and the need to achieve optimal brain relaxation without delaying postoperative recovery. Intravenous magnesium sulfate (MgSO4), through NMDA receptor antagonism and analgesic- and hemodynamic-sparing effects, may support propofol-based total intravenous anesthesia (TIVA) within pediatric ERAS pathways. Case Presentation A 10-year-old girl with a left temporoparietal glioma presented with seizures, progressive right hemiparesis, and papilledema. She underwent craniotomy under propofol-based TIVA augmented with MgSO4 (loading 30 mg/kg; maintenance 10–15 mg/kg/h). Individualized cerebral physiology was guided using real-time optic nerve sheath diameter (ONSD) and transcranial Doppler (TCD) measurements. After induction and MgSO4 infusion, ONSD values and middle cerebral artery pulsatility indices decreased toward more favorable ranges, consistent with improved intracranial compliance. Intraoperatively, brain relaxation was excellent, hemodynamics were stable, and only minimal rescue opioids and neuromuscular blockers were required. The patient was extubated within 24 hours, demonstrated low postoperative pain scores without agitation or PONV, and had no magnesium-related toxicity. A transient episode of diabetes insipidus occurred postoperatively, attributed to tumor-related hypothalamic–pituitary involvement, and resolved with vasopressin therapy. Discussion This case highlights the feasibility of MgSO4 as an adjunct to propofol-based TIVA in pediatric neuro-oncologic surgery. Real-time ONSD and TCD monitoring provided a practical, non-invasive method to tailor ICP and cerebral perfusion management. Conclusion MgSO4 may be a safe and effective adjuvant during pediatric glioma resection when combined with vigilant monitoring and ultrasound-guided cerebral physiology assessment. Prospective studies are needed to validate standardized dosing and ultrasound-guided ICP management protocols.

in F1000Research on 2026-01-06 23:20:45 UTC.

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Mapping Methodology to Identify Research Gaps and Priorities in Existing Scoping Reviews - A Scoping Review [version 1; peer review: awaiting peer review]

Background Identifying research gaps and priorities guides evidence-informed decision-making in health and social sciences. Although scoping reviews are widely used to map evidence and highlight gaps, but definitions, conceptualizations, and methods for identifying gaps and priorities vary considerably, resulting in inconsistent methodological approaches. Aim This study synthesized methodological frameworks in published scoping reviews and mapped how research gaps and priorities were reported across health disciplines (2000–2025). It also aimed to develop an integrated framework to enhance future scoping review methodology. Methods A scoping review was conducted following Arksey and O’Malley’s framework, enhanced by the PRISMA-ScR guidelines. Comprehensive searches of electronic databases and grey literature were performed for English-language publications from January 2000 and May 2025. Eligible studies explicitly reported methodological approaches for identifying research gaps or research priorities. Study selection followed a three-stage screening process, and data were charted and synthesized using descriptive statistics and inductive content analysis. Results Among the twenty included studies, (45%) employed general scoping review approaches. Key themes were methodology and research (65%), education & training (15%), stakeholder engagement (10%), and Practice & Care (10%). Across the reviews, eleven categories of research gaps spotlights population underrepresentation, methodological inconsistency, and specialty-specific limitations. Additionally, seven research priorities centered on methodological rigor, innovation, stakeholder engagement, as the most emphasized areas. Conclusion This study provides the first comprehensive synthesis of how research gaps and priorities are identified within scoping reviews. Findings highlight under representation of human-centered, equity-focused, and practice-oriented domains, emphasizing the need for stakeholders to ensure research is inclusive, relevant, and impactful. The Integrated Framework provides guidance for future scoping reviews to enhance methodological rigor and impact.

in F1000Research on 2026-01-06 23:13:37 UTC.

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Safety and Health Maturity Levels as Indicators of Accident Reduction in Indonesia’s Nickel Mining Sector [version 1; peer review: awaiting peer review]

Abstract* Background In 2023, the Government of the Republic of Indonesia mandated all mining companies to assess their Mining Safety and Health Performance Maturity Level (MSHPML) as a basis for formulating Occupational Safety and Health (OHS) incident prevention programs. One year into its implementation, official data from the Ministry of Energy and Mineral Resources (2025) recorded 42 mining accidents and 8 worker fatalities due to illness within the nickel mining sector, highlighting a notable gap between policy expectations and actual outcomes. This study aims to examine the relationship between MSHPML and lagging OHS indicators in nickel mining, with the goal of informing strategies to enhance implementation effectiveness. Methods The study population comprised nickel mining companies operating in Indonesia, with a final sample of 77 companies. The dependent variables were OHS performance out-comes, while the independent variable was the MSHPML score. Quantitative analysis was conducted across three stages: univariate, bivariate, and multivariate, supported by assumption testing Results Results revealed that higher MSHPML achievement was significantly associated with improvements in occupational safety outcomes. However, no statistically significant relationship was found between MSHPML and occupational health indicators. Conclusions These findings suggest that while MSHPML is a useful predictor of safety performance, further refinement is needed to adequately capture occupational health dimensions.

in F1000Research on 2026-01-06 23:06:35 UTC.

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Solar Irradiation Forecasting Using Genetic Algorithms [version 1; peer review: awaiting peer review]

Background For many applications such as photovoltaic system planning, grid stability, and renewable energy integration, accurate forecasting of solar irradiation is essential. Solar irradiation exhibits strong nonlinearity and variability driven by atmospheric conditions, seasonal cycles, and site-specific meteorological factors, making reliable short-term prediction challenging for conventional statistical models. Methods We propose a hybrid solar irradiation forecasting framework that combines machine learning regression models with genetic algorithm (GA)–based model optimization. Multiple predictive models, including linear regression and gradient-boosted decision trees, are trained using meteorological variables such as zenith angle, temperature, relative humidity, and atmospheric indices. The GA is employed to identify optimal feature subsets by maximizing predictive accuracy while minimizing redundancy, treating feature selection as a combinatorial optimization problem. Model performance is evaluated using mean absolute error (MAE), variance, and percentage accuracy derived from mean absolute percentage error (MAPE). Results The GA-optimized models demonstrate improved forecasting accuracy and stability compared to baseline machine learning approaches using full feature sets. Empirical results show that GA-based feature selection reduces prediction error, enhances robustness across seasonal regimes, and yields interpretable feature importance patterns aligned with known physical drivers of solar irradiation. Comparative evaluation across training and validation datasets confirms consistent gains in predictive performance. Conclusions The proposed genetic algorithm–enhanced forecasting framework provides an effective and interpretable approach for modeling solar irradiation under complex atmospheric conditions. By integrating evolutionary optimization with machine learning, the methodology supports more reliable solar energy forecasting and can be readily extended to real-time energy management systems and large-scale renewable deployment scenarios.

in F1000Research on 2026-01-06 22:58:52 UTC.

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A bibliometric review of research on resilience, motivation and prisoners, 1912-2024 [version 3; peer review: 1 approved, 1 approved with reservations, 1 not approved]

Background Research on resilience and motivation among incarcerated populations has expanded substantially over the past century, reflecting a broader shift in penal philosophy from punitive control toward rehabilitation and reintegration. However, this literature remains fragmented across disciplines, conceptually heterogeneous, and geographically uneven, with a strong concentration in Western contexts. This limits theoretical integration and constrains the global applicability of existing models. Methods A bibliometric analysis was conducted on 1,309 publications indexed between 1912 and 2024. Co-occurrence, citation, collaboration, and temporal overlay analyses were performed using VOSviewer to map thematic structures, intellectual influences, and patterns of knowledge production. Inclusion criteria targeted peer-reviewed and scholarly works addressing resilience and/or motivation in correctional settings. Results and Discussion The analysis reveals a temporal shift from early psychological adjustment and behavioral control models toward integrated frameworks emphasizing resilience, motivation, rehabilitation, and post-release reintegration. Emerging themes include trauma-informed care, addiction recovery, human rights, and reentry processes, while gender-specific, cross-cultural, and socioeconomic reintegration perspectives remain underdeveloped. Citation and collaboration networks demonstrate strong institutional concentration in North America and Western Europe, reflecting structural and epistemic asymmetries that shape dominant theoretical paradigms. Although interdisciplinary integration has increased, comparative and culturally grounded research remain limited. Conclusions This review synthesizes a century of research into a coherent intellectual map, identifying key trends, gaps, and structural imbalances in the field. The findings highlight the need for more inclusive, culturally responsive, and structurally informed research frameworks that integrate psychological, institutional, and social dimensions of rehabilitation. Advancing this agenda is essential for developing correctional policies and interventions that are both empirically robust and globally relevant.

in F1000Research on 2026-01-06 22:47:54 UTC.

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Lasting Increases in Neuronal Activity and Serotonergic Receptor Expression Following Gestational Chlorpyrifos Exposure

Perinatal exposure to the organophosphorus insecticide chlorpyrifos (CPF) is associated with an increased incidence of neurodevelopmental disorders, such as autism spectrum disorder. While these behavioral detriments have been modeled in rodents, the underlying functional alterations in the developing brain are largely unknown. Previous reports using a rat model have identified alterations to both inhibitory synaptic transmission and serotonergic (5-HT) receptor binding in the cortex following developmental CPF exposure. Here, we use a rat model of gestational CPF exposure to investigate whether this altered inhibitory activity is driven by increased spontaneous firing of inhibitory interneurons and altered 5-HT receptor expression. Using cell-attached ex vivo electrophysiology in young rats of both sexes, we identified a significant increase in the number of spontaneously firing neurons in the somatosensory cortex of CPF-exposed offspring. Analysis of action potential metrics identified a subset of these neurons as fast-spiking parvalbumin (PV) interneurons. Immunohistochemical labeling of c-Fos, a marker of neuronal activity, further revealed a pronounced increase in activity of neurons of the somatosensory cortex in both juvenile and adult rats that had been gestationally exposed to CPF. Finally, RNAscope in situ hybridization showed an increase in the expression of the inhibitory receptor 5-HT_1B in PV neurons of male offspring. The preliminary data reported here suggest that gestational exposure to CPF may result in persistent hyperexcitation of the somatosensory cortex. These neurophysiological effects may contribute to the established behavioral outcomes resulting from gestational exposure to CPF and offer guidance for novel preventative interventions.

in eNeuro on 2026-01-06 17:30:15 UTC.

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Enumeration Class of Polyominoes Inscribed in James Abacus and Related ECO [version 1; peer review: awaiting peer review]

This paper studies a new family of polyominoes. The family is defined through a graphic representation called James diagram, also known as the nested chain abacus. This form is referred to as the Ω-nested Abacus. The proposed class is defined by geometric constraints satisfied by sets of rows, columns, and chains. Through the application of combinatorial approaches and variable generating function, we enumeration of this new class of polyominoes. During the new construction process transformation is formulates which plays a crucial role in the enumerate of a family of classes. To further extend this study generating function for theses class are formulated using an enumeration method known as the Enumeration Combinatorial Object (ECO) technique. ECO method, derived from a smaller one though a series of local expansion. Theses expansion are systematically defined by succession rule which can subsequently be expressed as a functional equation for the generating function.

in F1000Research on 2026-01-06 17:04:42 UTC.

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Examining types of Organizational Structure in Private Chartered Universities in Western Uganda and their Impact on Academic Staff Performance [version 2; peer review: 2 approved with reservations]

Background This study examines the types of organizational structures in privately chartered universities in Western Uganda and how these structures impact academic staff performance. Grounded in Henri Fayol’s Administrative Management Theory and Vroom’s Expectancy Theory, this study integrates structural and motivational perspectives to explore the impact of institutional design on academic operations. Method A concurrent triangulation research design was employed to combine quantitative and qualitative approaches. Data were collected from 186 academic staff members using structured questionnaires and 10 academic deans through in-depth interviews. Results Quantitative findings revealed that functional and hierarchical structures were the most common, with 55.4% of respondents reporting highly centralized decision-making and 42.5% reporting poor communication flow. A significant positive correlation was observed between organizational structure and academic staff performance (r = 0.512, p < 0.01). Regression analysis showed that organizational structure explained 26.2% of the variance in academic staff performance (R2 = 0.262, F (1, 184) = 65.46, p < 0.001). Qualitative data supported these results, with participants highlighting that rigid and bureaucratic structures limit flexibility, innovation, and collaboration, whereas excessive centralization undermines academic autonomy (Yusoff & Isa, 2021). Conclusion The study concludes that, while traditional structures dominate private chartered universities, they often hinder academic performance. To enhance staff effectiveness, universities should adopt adaptive and participatory structures (Berkowitz, 2023). Aligning Fayol’s principles of work specialization, centralization, and communication flow with Vroom’s motivational framework offers a strategic path for organizational improvement.

in F1000Research on 2026-01-06 17:01:39 UTC.

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A Bazilevic-type function associated with the class of univalent functions with study Coefficient Bounds and Fekete-Szego inequalities [version 1; peer review: awaiting peer review]

Background The Fekete–Szegö inequality and coefficient bounds play a fundamental role in the study of Bazilevič-type functions, a subclass of univalent functions with significant applications in complex analysis and related mathematical fields. These functions have been extensively studied for their geometric properties and coefficient behavior, yet there remains a need to explore subclasses defined via differential operators and subordination techniques to obtain sharper and more general bounds. Understanding the coefficient structure of these functions provides insight into their analytic behavior and extends classical results in the theory of univalent functions. Methods This study focuses on a specific subclass of Bazilevič-type functions and investigates its properties using differential subordination and differential operators. These mathematical tools are employed to derive explicit coefficient estimates and establish the Fekete–Szegö inequalities. The analysis involves careful application of operator techniques to obtain bounds that reflect the influence of the subclass parameters on the analytic functions under consideration. Results The derived inequalities demonstrate the effectiveness of differential operators in obtaining precise coefficient constraints. The results highlight how variations in the defining parameters of the subclass influence the function behavior, providing clear and explicit bounds for the coefficients. These findings extend existing results in the literature and offer new insights into the structure of Bazilevič-type functions. Conclusions Overall, this study provides a systematic approach to understanding the coefficient structure of Bazilevič-type functions. The findings establish a foundation for further theoretical research on univalent functions and offer tools that can be applied in both theoretical investigations and practical problems in complex analysis. The results contribute to the broader understanding of analytic functions and their applications in mathematical modeling.

in F1000Research on 2026-01-06 16:25:17 UTC.

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Plant Microbiome of the Arabian Peninsula Desert Reveals Unique Structural and Functional Adaptations Supporting Climate Resilience [version 1; peer review: awaiting peer review]

Background Climate change is expanding arid regions globally, intensifying drought, salinity, and heat stress that threaten ecosystem stability and food security. Desert plants of the Arabian Peninsula have evolved physiological and microbial adaptations that enable survival under such extremes. This study investigates the endophytic microbial communities of four representative xerophytic species; Zygophyllum mandavillei, Tribulus zeyheri, Limeum arabicum, and Cyperus conglomeratus, to identify functional traits that promote their climatic resilience. These perennial species were selected because they inhabit similar arid environments and share xerophytic traits such as reduced leaf area, fibrous root systems, and high drought tolerance, making them ideal models for examining interactions between plants and their associated microbes in desert ecosystems. Methods High-throughput environmental DNA (eDNA) sequencing was performed on 27 plant samples, generating 3,660,664 high-quality reads. Taxonomic clustering resolved the sequences into 30 phyla, 15 classes, 20 orders, 27 families, and 21 genera. Diversity analyses were conducted to evaluate microbial richness and community structure, and functional inference was performed using PICRUSt2. Results Dominant microbial taxa included Alphaproteobacteria, Actinomycetia, Cyanophyceae, and Gammaproteobacteria, groups known for nitrogen fixation, carbon cycling, and resistance to desiccation and heat. Alpha-diversity analyses revealed significant variation in species richness among the host plants, while beta-diversity metrics showed distinct clustering patterns, indicating host-specific microbial assembly shaped by plant genotype and microhabitat. Functional prediction suggested enrichment of pathways related to amino acid, carbohydrate, and lipid metabolism, oxidative phosphorylation, DNA repair, and secondary-metabolite biosynthesis, supporting metabolic versatility and stress adaptation. Conclusions These findings provide a comprehensive genomic overview of endophytic bacterial communities associated with key desert plants of the Arabian Peninsula and establish a foundation for future functional validation and sustainable applications of desert microbiomes under climate change.

in F1000Research on 2026-01-06 15:47:07 UTC.

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Immature Caenorhabditis elegans motor neurons control early embryo behavior via both synaptic and nonsynaptic GABA release

Proceedings of the National Academy of Sciences, Volume 123, Issue 2, January 2026.
SignificanceLittle is known about how prenatal circuits control embryo behavior. We show that the motion of earlyCaenorhabditis elegansembryos is transiently inhibited by immature GABAergic motor neurons that have not yet completed neurite outgrowth. ...

in PNAS on 2026-01-06 08:00:00 UTC.

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Ubuntu Infused First Year Entering Students’ Orientation for the Faculty of Health Science: Experiences of Facilitators at an Institution of Higher Learning. [version 1; peer review: awaiting peer review]

Background The newly entered health sciences students are often faced with the challenge of adapting due to an unfamiliar new environment with a different culture they are not used to and imposing professional demands. Aim This study aims to explore the facilitators’ experiences of the Ubuntu Ubuntu-infused orientation programme for first-year students in the Faculty of Health Sciences. Methods An explorative, descriptive phenomenological approach was used in the study. A non-probability purposive sampling technique was used to select 12 facilitators who were involved in the Ubuntu orientation of first-year students in the Faculty of Health Sciences. - A semi-structured interview was used to collect data via Google Forms. Colaizzi’s phenomenological method of analysis was used in this study because it provided clear and logical steps to explore the experiences and revealed emerging themes and their relationship. Results The objectives of this study were to explore the experiences of facilitators in relation to the infusion of Ubuntu values and principles during the orientation of the faculty of health first entering students, the different ways in which facilitators were involved in Ubuntu orientation of learners, and their views regarding how students responded to the inclusion of Ubuntu in their orientation. Identified challenges were also explored. Trustworthiness and ethical issues were ensured. Conclusion and Contribution The study concluded that Ubuntu values and principles should be applied by health professionals as they execute their daily work.

in F1000Research on 2026-01-06 07:36:24 UTC.

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Empowering the Community-based Bamboo Utilization to Advance Sustainable Coastal Ecosystem in East Lampung Regency [version 1; peer review: awaiting peer review]

Abstract* Background Coastal ecosystems, including mangrove forests, are at the core of the socio-economic life of the local communities. Conversely, these ecosystems remain highly sensitive to the increasing impacts of climate change. Against such a backdrop, bamboo has been an important material, especially for construction and tool-making in coastal areas like East Lampung Regency. Despite the importance, such bamboo demands have yet to be met by local supplies or by the development of downstream value-added processing. Policy and Implications This study illustrates the strategic potential of bamboo as an economic and ecological resource, contributing to coastal resilience in East Lampung. If integrated into the Nature-based Solutions (NbS) framework, bamboo utilization can enhance livelihoods while restoring and protecting coastal ecosystems in communities. The study has revealed that sustainable management of bamboo provides a means to link environmental conservation to inclusive local development and climate adaptation. Recommendations The study outlines four strategies designed to advance the sustainable use of bamboo in East Lampung, including (a) empowering community-based bamboo cultivation focuses on facilitating regeneration activities that restore ecosystems and provide economic benefits to local communities, (b) investing in capacity building to equip local communities and key stakeholders with essential knowledge and skills in sustainable bamboo management and utilization, (c) driving policy advocacy that aims to champion the cause of sustainable bamboo utilization across multiple sectors, and (d) strengthening institutional frameworks that strengthen upstream bamboo resource management and optimize downstream processing and marketing systems, establish a robust industry infrastructure. Conclusions Bamboo utilization in East Lampung has the potential to change from a traditional subsistence material to a strategic instrument toward coastal sustainability. Bamboo-based initiatives can support ecological resilience, help boost the economy along the coast, and inspire a stronger socio-cultural regeneration toward a more sustainable future for East Lampung through the NbS approach.

in F1000Research on 2026-01-06 06:58:06 UTC.

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The Impact of Gamified Programs on Enhancing Self-Awareness in Early Adulthood [version 1; peer review: awaiting peer review]

Abstract* Background Several studies have investigated internet-based interventions, demonstrating that they are an effective resource, including the use of gamification, which can enhance engagement in psychological interventions. This study explores the efficacy of gamified internet-based intervention programs in enhancing self-awareness among early adults. Methods This research used a pretest-posttest design to determine the effectiveness of the program. A dual-phase approach was adopted: the first phase involved a blend of online interventions and regular offline meetings with 25 participants, while the second was purely online, involving 40 participants. Participants, aged 18-22 years, engaged with a mental health application over a 30-day period. This study utilizing the Self Awareness Outcomes Questionnaire (SAOQ) for assessment. Results The Results indicated a statistically significant enhancement in self-awareness in both setups, with face-to-face interactions yielding a larger effect size (0.76) compared to online-only interventions (0.48). Conclusions Gamification offers a promising alternative for supporting participants in developing self-awareness as a means to improve mental health. Gamification programs have the ability to help individuals process independently or simultaneously get guidance from professionals.

in F1000Research on 2026-01-06 06:49:03 UTC.

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A Systematic Literature Review on Biometric Authentication in Mobile Banking [version 1; peer review: awaiting peer review]

As mobile banking continues to grow at an exponential rate, the financial industry is faced with a critical challenge: How to keep user credentials secure without compromising on efficiency. Password-based authentication is still dominant but has major limitations which compromise both security and user experience. These systems are susceptible to the most common attack vectors such as phishing, malware and man-in-the-middle attacks, especially if users are using weak passwords or sharing passwords. Additionally, mobile devices have limited input interfaces that are frequently sources of frustration and error. As a result, there is increasing interest in other more secure and convenient alternatives such as biometric and multi-factor authentication (MFA) to mitigate the inherent weaknesses of password-based systems. This systematic literature review, which covers studies from 2020 to 2025, provides a critical review of biometric authentication methods used in mobile banking. It analyses existing approaches, security risks and implementation practices adopted by major banks across the world. While biometric systems are more secure and user friendly than traditional systems, they also introduce new challenges in terms of privacy, spoofing and regulatory compliance. The review gives a detailed overview of the current advances, key issues, and emerging research directions, which will give valuable insight to the development of secure and easy-to-use authentication systems in mobile banking.

in F1000Research on 2026-01-06 05:29:32 UTC.

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Survival and immunophenotypes of patients with acute leukaemia treated in a hospital in Chiclayo, Peru [version 1; peer review: awaiting peer review]

Abstract* Objectives To determine the overall survival and immunophenotypes of patients with acute leukemia from a hospital in Chiclayo, Peru, during the period 2015-2019. Methods Observational research was conducted, analysing a total of 168 samples from patients diagnosed with acute leukemia, evaluating overall survival in the different types of leukemia at 5 years of follow-up using Kaplan-Meier curves. Results The overall survival for B-cell Acute Lymphoblastic Leukemia (B-ALL) was found to be 52.7% at 5 years of follow-up, while for T-Acute Lymphoblastic Leukemia (T-ALL), it was 50% at 2 years. The overall survival for non-promyelocytic Acute Myeloid Leukemia (AML) was 53.3% at 3 years of follow-up, and for promyelocytic leukemia, it was 66.7% at 3 years. The predominant immunophenotype was B-ALL, which represented 77.38%, while AML represented the remaining cases. Conclusions The overall survival of lymphoid leukemia was superior to that of myeloid leukemia. The most frequent aberration in B-ALL was the hyperexpression of CD10, while the absence of antigens was noted in T-ALL. The most frequent aberration in promyelocytic leukemia was the hyperexpression of CD13, and for non-promyelocytic leukemia, asynchronisms and lineage infidelity were observed.

in F1000Research on 2026-01-06 05:07:20 UTC.

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A small population of stress-responsive neurons in the hypothalamus-habenula circuit mediates development of depression-like behavior in mice

(Neuron 112, 3924–3939.e1–e5; December 4, 2024)

in Neuron: In press on 2026-01-06 00:00:00 UTC.

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To remap or not remap: Experience matters

Remapping is a fundamental feature of hippocampal contextual representations that underlies memory encoding and separation. Recently in Cell Reports, Tarcsay et al have shown that experience determines remapping dynamics in context learning.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Decoding the epigenetics of persister states in ovarian cancer

Dumbrava et al. map a unified epigenetically primed persister state in high-grade serous ovarian carcinoma using single-nucleus multi-omics. Their work uncovers a chromatin-encoded tolerance program that precedes transcriptional change, revealing therapeutic options and motivating deeper spatiotemporal mapping of persister cells.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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A competition model of multilineage priming and cell-fate decisions

In development, cells navigate highly complex gene-regulatory landscapes to make fate choices. Steinschaden et al. synthesize concepts of multilineage priming, microheterogeneity, and collective multipotency, explaining how competing gene programs shape commitment to a specific fate. They also evaluate computational approaches that infer lineage biases and dissect mechanisms of fate selection.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Spatially distinct cellular and molecular landscapes define prognosis in triple-negative breast cancer

Mukund et al. report that spatio-molecular profiling of triple-negative breast cancers with divergent prognoses reveals distinct changes in epithelial and microenvironment landscapes. Good-prognosis tumors show immune-active epithelia, while poor-prognosis epithelia display early hallmarks of aggressiveness including C3 activation and a fibrotic and immunosuppressive microenvironments suggestive of therapy resistance.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Inhibition of PAK2 in endothelial cells suppresses tumor angiogenesis and promotes immune sensitization through CXCL10

Corriveau et al. show that endothelial-specific deletion of PAK2 in tumors reduces angiogenesis, normalizes tumor vessels, and promotes infiltration of NK and dendritic cells. PAK2 regulates endothelial CXCL10 production, which mediates vascular normalization and immune activation, revealing endothelial PAK2 as a target to reprogram the tumor vasculature and limit tumor progression.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Growth factors maintain intratumoral heterogeneity and drive therapeutic resistance in triple-negative breast cancer

Devlin et al. demonstrate that growth factors like HGF and NRG1 can cause resistance to targeted inhibitors like trametinib in TNBC. These growth factors function by maintaining low levels of proliferation as well as the intratumoral heterogeneity that is characteristic of TNBC.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Single-cell resolution of an open chromatin signature in persister tumor cells

Dumbrava et al. identify a signature of drug-tolerant persister cells in high-grade serous ovarian carcinoma using chromatin accessibility and transcriptome single-nucleus profiling. Patient tumors with features of the persister cell signature are predisposed to drug tolerance and poor responses to chemotherapy treatment.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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METTL3 regulates α-KG-dependent mitophagy and apoptosis in nucleus pulposus cells through the MALAT1/miR-23c/IDH1 axis

Wu et al. reveal that METTL3-mediated m6A modification downregulates the lncRNA MALAT1, which sponges miR-23c to elevate IDH1 expression and α-ketoglutarate production. This axis promotes mitophagy and alleviates oxidative stress, thereby protecting against intervertebral disc degeneration.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Eos plays a critical role in Treg homeostasis and modulates the function of recirculating thymic Tregs in the control of Treg development

Xie et al. demonstrate that the transcription factor Eos associates with Helios and Foxp3 in regulatory T cells (Tregs) to control their migration, suppressive capacity, survival, and fitness. Eos mediates the enhanced expression of CD25 on recirculating thymic Tregs, thereby controlling the production of thymic Tregs.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Affinity maturation and light-chain-mediated paratope diversification anticipates viral evolution

This study examines the phenomenon of “anticipatory breadth” through a specific case study. Dingus et al. describe how IGHV3-53/66 antibodies elicited by ancestral-strain SARS-CoV-2 mRNA vaccination develop cross-variant breadth, enabling neutralization of future viral strains through affinity maturation against conserved sites and diversification via variable chain pairing.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Age-independent and targetable transcription factor networks regulating CD8+ T cell senescence in aging humans

Turano et al. reveal the transcription factor networks driving CD8+ T cell senescence in healthy aging humans. Inhibiting key transcription factors modulates the senescence program and partially restores responsiveness to TCR stimulation. They also show that CD8+ T cell senescence gene signatures predict response to CAR-T cell therapy in B cell lymphomas.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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MAVS signaling exacerbates chondrocytes extracellular matrix degradation in osteoarthritis

Guo et al. identify MAVS as a critical driver of OA by promoting NF-κB-dependent MMP3 and MMP13 expression and ECM degradation in chondrocytes. Genetic deletion and pharmacological inhibition of MAVS alleviate OA phenotypes, highlighting that MAVS signaling may be a potential therapeutic target for OA treatment.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Structural and functional characterization of the antigenicity of influenza A virus hemagglutinin subtype H15

Bhavsar et al. describe the antigenicity of a rare avian influenza A virus subtype, H15. Using monoclonal antibodies and antisera as well as structural biology, they map the cross-reactivity between strains and antibody binding sites.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Macrophage glycine transporter supports IL-1β production by modulating the AKT1/mTOR/NLRP3 pathway

Guo et al. reveal that SLC6A9 inhibition-mediated extracellular Gly accumulation suppresses inflammatory responses via Glrα4, which inhibits the PI3K/AKT1/mTOR pathway, suggesting a potential therapy for macrophage-driven inflammation.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Mucosal innate immune activation as the trigger to Prevotella species-induced arthritis in genetically resistant mice

Maeda et al. show that Palleniella intestinalis, a Prevotellaceae member, drives arthritis in resistant mice by altering mucosal innate immunity, increasing gut permeability, and activating IL-6-dependent Th17 responses. Similar immune activation in new-onset rheumatoid arthritis patients supports a mechanistic link between Prevotellaceae expansion and joint inflammation.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Aromatic microbial metabolite hippuric acid enhances inflammatory responses in macrophages via TLR-MyD88 signaling and lipid remodeling

Mirji et al. identify the microbial metabolite hippuric acid as a bioactive driver of inflammation. Hippuric acid enhances macrophage activation through TLR-MyD88 signaling and cholesterol biosynthesis, linking microbial metabolism to immune activation and poor outcomes in bacterial sepsis.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Longevity of cardiac and skeletal muscle proteins is dependent on tissue and subcellular compartmentation patterns

Gugel et al. use a combination of stable isotope labeling, proteomics, and multi-isotope imaging mass spectrometry to generate a comprehensive map of protein half-lives across cardiac, slow-twitch skeletal, and fast-twitch skeletal muscles. The study highlights striking variation in protein stability by tissue type and subcellular compartment.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Phage induction of Staphylococcus aureus pathogenicity islands promotes the CRISPR-Cas adaptive immune response

Banh et al. show that staphylococci carrying CRISPR-Cas systems and SaPIs display enhanced rates of CRISPR spacer acquisition from phages. This requires delivery of incomplete, non-replicating phage genomes by SaPIs, which, as opposed to fully infective phages that rapidly kill the cell, allows CRISPR immunization of the host before its lysis.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Gut microbiota induces mammary gland sIgA production to alleviate S. aureus mastitis

He et al. revealed that gut dysbiosis reduces M. intestinale and GABA levels, correlating with diminished sIgA production and aggravated S. aureus mastitis. Restoration of M. intestinale or GABA enhances sIgA via mTOR-driven M2 macrophage polarization and IgA+ B cell differentiation, suggesting a novel treatment strategy.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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A prophage-expressed type IV pilus component provides anti-phage defense

Sztanko et al. demonstrate that Pseudomonas aeruginosa prophages encode proteins resembling the type IV pilus minor pilin protein, FimU. These prophage-expressed FimU proteins are incorporated into the pilus without disrupting pilus function and prevent the adsorption of phages that bind to the tip of the pilus, where FimU is located.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Neural activity flows through cortical subnetworks during speech production

Castellucci et al. use intracranial recordings in a large cohort of neurosurgical participants to assess the progression of neural activity both within and across anatomically distinct networks during interactive speech production, indicating that language-related planning and sensorimotor processes are represented within specialized brain subregions.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Surrogate deep neural networks reveal hierarchical handwriting encoding in the human motor cortex

Using single-unit recordings from the human motor cortex (MC) during handwriting, Chen et al. employed surrogate deep neural networks as a tool to investigate the encoding of complex movements. Through this approach, they demonstrate that MC encodes a hierarchical representation, including low-level kinematic-related and high-level semantic-related features, through subgroups of neurons.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Structures of invertebrate PEZO-1 isoforms with a compact architecture and a dispensable pore-distal N-terminal blade

Bell et al. show that nematode PEZO-1 isoforms adopt a compact architecture distinct from mammalian PIEZOs, that the pore-distal N-terminal blade is dispensable for mechanosensation, and that isoforms bend membranes differently, indicating an evolutionarily divergent way to build mechanosensitive channels from a single, highly spliced gene.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Rapid plasticity of default-mode local network architectures following adult-onset blindness

Mesik et al. demonstrate that the adult visual cortex normally exhibits stable local functional networks defined by correlated spontaneous activity. Adult-onset vision loss rapidly and selectively reorganizes the local spontaneous activity network architecture, which suggests a novel mechanism of adaptation to sensory loss.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Chimeric brain models to study human glial-neuronal and macroglial-microglial interactions

Jin et al. develop chimeric mouse brains containing human microglia, astroglia, oligodendroglia, and neurons, enabling direct interrogation of human neuron-glia interactions in vivo. These models recapitulate human signaling pathways that drive synaptic development and glial maturation, providing a powerful platform for dissecting human brain development and disease mechanisms.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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Generating LGE/CGE Organoids from Human Pluripotent Stem Cell-derived Brain Organoids Without External Signal Induction

Zhu et al. establish a self-organizing strategy to generate LGE/CGE organoids (LCOs) from human brain organoids. LCOs predominantly comprise LGE/CGE-type GABAergic neurons that closely resemble their human embryonic counterparts. This platform enables efficient generation and isolation of human LGE/CGE-type neurons for disease modeling and cell therapy development.

in Cell Reports: Current Issue on 2026-01-06 00:00:00 UTC.

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The poetic life and death of a glow-worm

Nature, Published online: 06 January 2026; doi:10.1038/d41586-025-03990-w

A peek behind the scenes at the zoo reveals animal escapades, and a glow-worm shines in a mild midwinter, in our weekly dip into Nature’s archive.