Jeremiah D Wander

Overview

Explore the profile of Jeremiah D Wander including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 9

Citations 151

Followers 0

Related Specialties

Neurology

Psychiatry

Biology

Top 10 Co-Authors

Jeffrey G Ojemann

Felix Darvas

Devapratim Sarma

Rajesh P N Rao

Kurt E Weaver

Eberhard E Fetz

Lise A Johnson

Jared D Olson

Kai J Miller

Timothy M Blakely

Published In

Clin Neurophysiol

Proc Natl Acad Sci U S A

Neuroimage

Front Neurosci

Curr Opin Neurobiol

Affiliations

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Recent Articles

Cortical Topography of Error-Related High-Frequency Potentials During Erroneous Control in a Continuous Control Brain-Computer Interface

Wilson N, Sarma D, Wander J, Weaver K, Ojemann J, Rao R

Front Neurosci . 2019 Jun; 13:502. PMID: 31191218

Brain-computer interfaces (BCIs) benefit greatly from performance feedback, but current systems lack automatic, task-independent feedback. Cortical responses elicited from user error have the potential to serve as state-based feedback to...

Context-dependent relationship in high-resolution micro-ECoG studies during finger movements

Kuo C, Blakely T, Wander J, Sarma D, Wu J, Casimo K, et al.

J Neurosurg . 2019 Apr; 132(5):1358-1366. PMID: 31026831

Objective: The activation of the sensorimotor cortex as measured by electrocorticographic (ECoG) signals has been correlated with contralateral hand movements in humans, as precisely as the level of individual digits....

Demonstration of motor-related beta and high gamma brain signals in subdermal electroencephalography recordings

Olson J, Wander J, Darvas F

Clin Neurophysiol . 2017 Feb; 128(3):395-396. PMID: 28142054

No abstract available.

Cortico-Cortical Interactions during Acquisition and Use of a Neuroprosthetic Skill

Wander J, Sarma D, Johnson L, Fetz E, Rao R, Ojemann J, et al.

PLoS Comput Biol . 2016 Aug; 12(8):e1004931. PMID: 27541829

A motor cortex-based brain-computer interface (BCI) creates a novel real world output directly from cortical activity. Use of a BCI has been demonstrated to be a learned skill that involves...

Directional patterns of cross frequency phase and amplitude coupling within the resting state mimic patterns of fMRI functional connectivity

Weaver K, Wander J, Ko A, Casimo K, Grabowski T, Ojemann J, et al.

Neuroimage . 2016 Jan; 128:238-251. PMID: 26747745

Functional imaging investigations into the brain's resting state interactions have yielded a wealth of insight into the intrinsic and dynamic neural architecture supporting cognition and behavior. Electrophysiological studies however have...

Comparison of subdural and subgaleal recordings of cortical high-gamma activity in humans

Olson J, Wander J, Johnson L, Sarma D, Weaver K, Novotny E, et al.

Clin Neurophysiol . 2015 Apr; 127(1):277-284. PMID: 25907415

Objective: The purpose of this study is to determine the relationship between cortical electrophysiological (CE) signals recorded from the surface of the brain (subdural electrocorticography, or ECoG) and signals recorded...

Sequential activation of premotor, primary somatosensory and primary motor areas in humans during cued finger movements

Sun H, Blakely T, Darvas F, Wander J, Johnson L, Su D, et al.

Clin Neurophysiol . 2015 Feb; 126(11):2150-61. PMID: 25680948

Objective: Human voluntary movements are a final product of complex interactions between multiple sensory, cognitive and motor areas of central nervous system. The objective was to investigate temporal sequence of...

Brain-computer interfaces: a powerful tool for scientific inquiry

Wander J, Rao R

Curr Opin Neurobiol . 2014 Apr; 25:70-5. PMID: 24709603

Brain-computer interfaces (BCIs) are devices that record from the nervous system, provide input directly to the nervous system, or do both. Sensory BCIs such as cochlear implants have already had...

Distributed cortical adaptation during learning of a brain-computer interface task

Wander J, Blakely T, Miller K, Weaver K, Johnson L, Olson J, et al.

Proc Natl Acad Sci U S A . 2013 Jun; 110(26):10818-23. PMID: 23754426

The majority of subjects who attempt to learn control of a brain-computer interface (BCI) can do so with adequate training. Much like when one learns to type or ride a...