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  • Arc Mediates Intercellular Tau Transmission via Extracellular Vesicles and Represents a Potential Target for Slowing Alzheimer’s Progression
Neuroscience & Brain Research

Arc Mediates Intercellular Tau Transmission via Extracellular Vesicles and Represents a Potential Target for Slowing Alzheimer’s Progression

Rifan Muazin Jul 8, 2026 0

In a significant breakthrough for neurodegenerative research, scientists have identified a surprising biological mechanism that facilitates the spread of Alzheimer’s…

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Neuroscience & Brain Research

Cornell University Engineers Develop Microscale Wireless Neural Implant Capable of Long-Term Brain Activity Monitoring and Data Transmission

Rifan Muazin Mar 25, 2026 0

In a significant leap for neurotechnology and bio-integrated electronics, researchers at Cornell University, in collaboration with international partners, have successfully…

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Brain Tumors Induce Widespread disruption of Calvarial Bone and Alteration of Skull Marrow Immune Landscape.Breakthrough in Wheat Biotechnology Yields Super-Sized Starch Granules with Far-Reaching Industrial and Health BenefitsPharmSci 360 2026 Heads to New Orleans This OctoberArc Mediates Intercellular Tau Transmission via Extracellular Vesicles and Represents a Potential Target for Slowing Alzheimer’s Progression
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Stem Cell & Regenerative Medicine
Brain Tumors Induce Widespread disruption of Calvarial Bone and Alteration of Skull Marrow Immune Landscape.
Dwi Wanna Jul 8, 2026
Biotech & Genetic Research
Breakthrough in Wheat Biotechnology Yields Super-Sized Starch Granules with Far-Reaching Industrial and Health Benefits
Jia Lissa Jul 8, 2026
Laboratory Automation & Robotics
PharmSci 360 2026 Heads to New Orleans This October
Lana Keisha Jul 8, 2026
Neuroscience & Brain Research
Arc Mediates Intercellular Tau Transmission via Extracellular Vesicles and Represents a Potential Target for Slowing Alzheimer’s Progression
Rifan Muazin Jul 8, 2026

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