Index of Keywords

neurodegenerative diseases

The Application of GHMRF to 3-D Synthetic Proliferation

neuroinflammation

Celastrol-Based Nanomedicines as Modulators of Neuroinflammation

neurological disorders

Nano-Power Implantable Autonomous Closed-Loop CMOS Nerve-Growth-Factor Delivery Microsystem for Neurological Disorders Personalized Therapy

neuromorphic processing

Neuromorphic Logic Networks and Robust Stochastic Computing Under Large Perturbations and Uncertanties

neuron

Guided Neurite Growth on Patterned Carbon Nanotubes

Quantum Dot Probes for Tracking Nerve Growth Factor Ligand-Receptor Dynamics in Live Neurons

Integration of Living Cells with Silicon Microstructures for MEMS Applications

The mechanical sensitivity of vesicle dynamics in in vivo and in vitro neurons

neuronal adhesion

On Chip Induced Phagocytosis for Improved Neuronal Cell Adhesion

neuronal cell pattern

Utilizing Nanoscale Patterned Proteins to Create Neuronal Cells Circuits

neuronic impulses

CNT and Organic FETs Based Two-Way Transducing of the Neurosignals

neurons

Nanowire Array Technologies for Investigation of Neural Activity

Morphological Studies on Nano-Neuronal Interactions

A CMOS Lab-On-A-Chip For Neuron Monitoring And Stimulation

neuroprotectants

Cerium Oxide Nanoparticles Protect Against MPTP-Induced Dopaminergic Neurodegeneration in a Mouse Model for Parkinson’s Disease

neuroprotection

Elucidation of Neuroprotective Properties of Astrocytoma (Astrocytes-like) Cells in Neural Cell Culture Models In Vitro: Applications in Tissue Engineering and Nanotoxicology

A Non-contact Co-Culture Model of Peripheral Neural Cells for Nanotoxicity, Tissue Engineering and Pathophysiological Studies

New in Vitro Strategy of Astrocytoma (Astrocytes-like) Cells Treated with Pioglitazone ( PPAR gamma agoinst) Offers Neuroprotection Against Nanoparticle-Induced Cytotoxity

Nanowired Mesenchymal Stem cells ameliorate brain pathology exacerbated by diabetes in hyperthermia

Nano Drug delivery by Single-wall carbon nanotubes (SWCNTs) in the Central nervous system induces neurotoxicity. Potential neuroprotective effects of Cerebrolysin