Eric G Wu

Overview

Explore the profile of Eric G Wu including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 8

Citations 18

Followers 0

Related Specialties

Biomedical Engineering

Neurology

Biology

Top 10 Co-Authors

E J Chichilnisky

Alexandra Kling

Alan M Litke

Alex R Gogliettino

Alexander Sher

Nishal P Shah

Nora Brackbill

Colleen Rhoades

Sasidhar S Madugula

A J Phillips

Published In

bioRxiv

J Neural Eng

Adv Sci (Weinh)

Nat Commun

Affiliations

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Recent Articles

Direct-Print 3D Electrodes for Large-Scale, High-Density, and Customizable Neural Interfaces

Wang P, Wu E, Ulusan H, Zhao E, Phillips A, Kling A, et al.

Adv Sci (Weinh) . 2024 Nov; 12(3):e2408602. PMID: 39588825

Silicon-based microelectronics can scalably record and modulate neural activity at high spatiotemporal resolution, but their planar form factor poses challenges in targeting 3D neural structures. A method for fabricating tissue-penetrating...

Fixational eye movements enhance the precision of visual information transmitted by the primate retina

Wu E, Brackbill N, Rhoades C, Kling A, Gogliettino A, Shah N, et al.

Nat Commun . 2024 Sep; 15(1):7964. PMID: 39261491

Fixational eye movements alter the number and timing of spikes transmitted from the retina to the brain, but whether these changes enhance or degrade the retinal signal is unclear. To...

Modeling responses of macaque and human retinal ganglion cells to natural images using a convolutional neural network

Gogliettino A, Cooler S, Vilkhu R, Brackbill N, Rhoades C, Wu E, et al.

bioRxiv . 2024 Apr; PMID: 38585930

Linear-nonlinear (LN) cascade models provide a simple way to capture retinal ganglion cell (RGC) responses to artificial stimuli such as white noise, but their ability to model responses to natural...

Decomposition of retinal ganglion cell electrical images for cell type and functional inference

Wu E, Rudzite A, Bohlen M, Li P, Kling A, Cooler S, et al.

bioRxiv . 2023 Nov; PMID: 37986895

Identifying neuronal cell types and their biophysical properties based on their extracellular electrical features is a major challenge for experimental neuroscience and the development of high-resolution brain-machine interfaces. One example...

Fixational Eye Movements Enhance the Precision of Visual Information Transmitted by the Primate Retina

Wu E, Brackbill N, Rhoades C, Kling A, Gogliettino A, Shah N, et al.

bioRxiv . 2023 Aug; PMID: 37645934

Fixational eye movements alter the number and timing of spikes transmitted from the retina to the brain, but whether these changes enhance or degrade the retinal signal is unclear. To...

Inferring light responses of primate retinal ganglion cells using intrinsic electrical signatures

Zaidi M, Aggarwal G, Shah N, Karniol-Tambour O, Goetz G, Madugula S, et al.

J Neural Eng . 2023 Jul; 20(4). PMID: 37433293

. Retinal implants are designed to stimulate retinal ganglion cells (RGCs) in a way that restores sight to individuals blinded by photoreceptor degeneration. Reproducing high-acuity vision with these devices will...

Direct-print three-dimensional electrodes for large- scale, high-density, and customizable neural inter- faces

Wang P, Wu E, Ulusan H, Phillips A, Hays M, Kling A, et al.

bioRxiv . 2023 Jul; PMID: 37398164

Silicon-based planar microelectronics is a powerful tool for scalably recording and modulating neural activity at high spatiotemporal resolution, but it remains challenging to target neural structures in three dimensions (3D)....

Focal electrical stimulation of human retinal ganglion cells for vision restoration

Madugula S, Gogliettino A, Zaidi M, Aggarwal G, Kling A, Shah N, et al.

J Neural Eng . 2022 Dec; 19(6). PMID: 36533865

. Vision restoration with retinal implants is limited by indiscriminate simultaneous activation of many cells and cell types, which is incompatible with reproducing the neural code of the retina. Recent...