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Showing posts with the label Journal

Rapid Progress Toward Reliable Blood Tests for Alzheimer Disease

One of the most important advances in Alzheimer disease (AD) clinical research in the past 2 decades has been the development of biomarkers that detect amyloid-β (Aβ) plaques and tau neurofibrillary tangles in vivo with cerebrospinal fluid (CSF) assays or positron emission tomography (PET). Coupled with imaging or fluid-based markers of brain structural and functional integrity, these biomarkers allow researchers to capture the 3 key features of AD: amyloid plaques, tau neurofibrillary tangles, and neurodegeneration in living people (Figure). One of the most important insights from biomarker studies in AD is the existence of a prolonged preclinical stage spanning 2 decades, during which plaques and tangles deposit in the brain without leading to cognitive symptoms or functional decline. Individuals with preclinical biomarker changes are at risk for cognitive decline and may thus be excellent candidates for early intervention with disease-modifying therapies. The “biomarker revolution” ...

Microglia Tweak Retinogeniculate Pathways during Visual Circuit Refinement

Cheadle et al. reveal that microglia expressing TWEAK facilitate synapse elimination through a novel, non-phagocytic mechanism in the retinogeniculate pathway during visual circuit development. This mechanism is experience-dependent and occurs through the local binding of TWEAK to postsynaptic Fn14. from journals https://ift.tt/35liHHx

On the Rotations of the Cranial Spheres

We integrate information from multiple sensory modalities and from ongoing plans to construct a perception of the world. In this issue of Neuron, Bouvier et al. (2020) and Guitchounts et al. (2020) examine the detailed circuitry that supports a flexible integration of head and visual signals in rodent primary visual cortex. from journals https://ift.tt/38ynBms

Psychotic Disorders

Author: Edited by Carol A. Tamminga, MD, Jim van Os, MD, PhD, MRCPsych, Ulrich Reininghaus, PhD, MSc, Dipl.-Psych., and Elena Ivleva, MD, PhD ISBN: 9780190653279 Binding: Hardcover Publication Date: 03 November 2020 Price: $215.00 from journals https://ift.tt/34UB3P8

Recent Advances in Electrical Neural Interface Engineering: Minimal Invasiveness, Longevity, and Scalability

In this review, Luan et al. discuss the latest advances in engineering electrical neural interfaces that expand the spatiotemporal resolution and extent of mapping and manipulating brain circuits, covering implanted devices, integrated circuits, and signal transmission and processing. from journals https://ift.tt/3jzdVtx

Spotlight on Neurotechnology: Interacting with Networks

This third and final special issue in our series on neurotechnology focuses on tools for modulating neural circuits. The first part of this series explored methods used to build and map networks, while the second part covered approaches to reading activity at different spatiotemporal scales. Here, in this final installment, we discuss large-scale electrode systems for recording, neural implants for manipulating central and peripheral signals, and considerations for translation of these technologies to the clinic. from journals https://ift.tt/2TB0vmc

Probing Olfaction in Space and Time

In this issue, Gill et al. apply holographic optogenetic stimulation in the olfactory bulb to control select neuronal ensembles in 3D. This approach allows them to dissociate the contribution of temporal spike features and spike rate to stimulus detection. from journals https://ift.tt/35EAqsl

Keith Kirkland

In an interview with Neuron, Keith Kirkland, cofounder of a start-up building products that communicate information through touch, shares his path, passions, and life philosophy that brought him to launch a company. He also discusses the crucial need for representation in science and the value of self-empowered exploration and self-recovery from failure. from journals https://ift.tt/2HDjA4G

Deblina Sarkar

In an interview with Neuron, physicist and electrical engineer by training, Deblina Sarkar shares how her passion for the brain—“the ultimate example of a low-power computer”—inspires her research. She describes her work developing novel nanoelectronics devices and new biomolecular mapping methods to gain access to ultra-structures in the brain and discusses how she navigates across disciplines. from journals https://ift.tt/35I3GOF

Guidelines to Study and Develop Soft Electrode Systems for Neural Stimulation

Schiavone et al. describe the use of current characterization techniques to study electrode systems for neural stimulation, with focus on the specificities of soft technology. The authors provide guidelines to design complete in vivo characterization studies and interpret characterization data. from journals https://ift.tt/327o8rB

Challenges for Large-Scale Cortical Interfaces

In this Perspective, Nurmikko provides an overview of the progress in cortical interfaces over the years. He considers the engineering challenges for chronic human use and discusses current strategies to scale electrical recording and stimulation up to thousands of neuronal targets at near-cellular-level resolution. from journals https://ift.tt/327o6jt

Recent Advances in Electrical Neural Interface Engineering: Minimal Invasiveness, Longevity, and Scalability

In this review, Luan et al. discuss the latest advances in engineering electrical neural interfaces that expand the spatiotemporal resolution and extent of mapping and manipulating brain circuits, covering implanted devices, integrated circuits, and signal transmission and processing. from journals https://ift.tt/3jzdVtx