Neuroscience and Neural Engineering

Brief electrical stimulation produces ketamine-like structural plasticity in human dopamine neurons via calcium-dependent BDNF and mTOR signaling, reversing cortisol-induced damage.

Temporal interference stimulation enables focal, noninvasive deep brain neuromodulation for psychiatric disorders with reduced off-target effects compared to conventional transcranial electrical.

Wearable microneedle biosensors with durable nanostructured electrodes continuously monitor drug clearance to detect liver and kidney dysfunction in real time.

NeuroGator gates brain signal processing in implantable devices, reducing power consumption and data throughput by 82% while maintaining classification accuracy for next-generation BCIs.

Review of liver-on-a-chip models comparing academic and commercial platforms, examining designs, cellular compositions, and potential to reduce drug development costs and animal testing.

Neurons with impaired α-synuclein clearance transfer aggregates to microglia via tunneling nanotubes. Study reveals dysfunctional neuronal autophagy drives intercellular aggregate transfer and.

Study characterises functional network development in iPSC-derived neurons over 55 days, identifying three distinct developmental stages with unique activity patterns and communication topologies.

Reliability assessment methodology for SMD tantalum capacitors in active implantable medical devices combining accelerated life testing with design of experiments and failure analysis.

12-bit, 10 MS/s two-step sub-ranging SAR ADC with top-plate dividing architecture for residue amplification, achieving 65.7 dB SNDR and 14.5 fJ/conversion-step FoM in 65 nm CMOS.

FPGA-based modular platform for cost-effective electrophysiological signal acquisition with soft core processor, real-time conditioning, and performance validation against commercial systems.

Comprehensive review of bionic limb advancement, examining neural interfaces, sensory feedback, and AI-driven control alongside clinical implementation barriers and future development prospects.

Composite nerve guidance conduit integrating silk fibroin, gelatin methacrylate, and polypyrrole for peripheral nerve regeneration with biomimetic structure and electroactive properties.

Low-temperature embedded 3D bioprinting strategy utilizing phase-separation-induced shear alignment for fabricating anisotropic cell-laden constructs with enhanced biological functionality.

Brain organoids revolutionize environmental neurotoxicology by providing human-relevant models for detecting subtle adverse effects from contaminant exposures, reducing animal testing, and.

Assessment of glial cell responses to spinal implant particles reveals limited inflammatory activation but identifies concerns regarding silicon nitride at elevated concentrations.

Automated stress testing framework using coverage-guided fuzzing to systematically detect unsafe stimulation patterns in machine learning-driven neuroprosthetic devices.

Extracellular vesicles deliver miR-181a-3p to protect degenerating retinal ganglion cells, offering a novel therapeutic approach for glaucoma and optic neuropathies through biocompatible gene.

Organic electrochemical neuron-based sensors achieve millisecond response times and kilohertz firing rates with picojoule energy consumption for closed-loop neurostimulation.

Intracranial and EEG recordings in humans reveal that selective response inhibition is mediated by rapid, context-dependent fronto-subthalamic β-burst engagement with prolonged subthalamic.