Justin A Brantley
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Explore the profile of Justin A Brantley including associated specialties, affiliations and a list of published articles.
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90
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Recent Articles
1.
Paek A, Brantley J, Sujatha Ravindran A, Nathan K, He Y, Eguren D, et al.
IEEE Open J Eng Med Biol
. 2022 Apr;
2:84-90.
PMID: 35402986
The control and manipulation of various types of end effectors such as powered exoskeletons, prostheses, and 'neural' cursors by brain-machine interface (BMI) systems has been the target of many research...
2.
Paek A, Brantley J, Evans B, L Contreras-Vidal J
IEEE Syst J
. 2022 Feb;
15(2):3069-3080.
PMID: 35126800
Neurotechnology has traditionally been central to the diagnosis and treatment of neurological disorders. While these devices have initially been utilized in clinical and research settings, recent advancements in neurotechnology have...
3.
Brantley J, Luu T, Nakagome S, Zhu F, L Contreras-Vidal J
Sci Data
. 2018 Jul;
5:180133.
PMID: 29989591
Human locomotion is a complex process that requires the integration of central and peripheral nervous signalling. Understanding the brain's involvement in locomotion is challenging and is traditionally investigated during locomotor...
4.
Salas C, Brantley J, Clark J, Taha M, Myers O, Mercer D
J Hand Surg Am
. 2018 Feb;
43(7):679.e1-679.e6.
PMID: 29426604
Purpose: "Damage" is an engineering term defining a period between a state of material perfection and the onset of crack initiation. Clinically, it is a loss of fixation due to...
5.
Luu T, Brantley J, Nakagome S, Zhu F, L Contreras-Vidal J
PLoS One
. 2017 Dec;
12(11):e0188500.
PMID: 29190704
This study investigated electrocortical dynamics of human walking across different unconstrained walking conditions (i.e., level ground (LW), ramp ascent (RA), and stair ascent (SA)). Non-invasive active-electrode scalp electroencephalography (EEG) signals...
6.
Cruz-Garza J, Brantley J, Nakagome S, Kontson K, Megjhani M, Robleto D, et al.
Front Hum Neurosci
. 2017 Nov;
11:527.
PMID: 29176943
Electroencephalography (EEG) has emerged as a powerful tool for quantitatively studying the brain that enables natural and mobile experiments. Recent advances in EEG have allowed for the use of dry...
7.
Luu T, Brantley J, Zhu F, L Contreras-Vidal J
Annu Int Conf IEEE Eng Med Biol Soc
. 2017 Oct;
2017:1913-1916.
PMID: 29060266
This study investigates if the electrocortical amplitude modulations relative to the mean gait cycle are different across walking conditions (i.e., level-ground (LW), ramp ascent (RA), and stair ascent (SA)). Non-invasive...
8.
Brantley J, Luu T, Ozdemir R, Zhu F, Winslow A, Huang H, et al.
Annu Int Conf IEEE Eng Med Biol Soc
. 2017 Mar;
2016:5729-5732.
PMID: 28325029
Automated walking intention detection remains a challenge in lower-limb neuroprosthetic systems. Here, we assess the feasibility of extracting motor intent from scalp electroencephalography (EEG). First, we evaluated the corticomuscular coherence...
9.
Kontson K, Megjhani M, Brantley J, Cruz-Garza J, Nakagome S, Robleto D, et al.
Front Hum Neurosci
. 2015 Dec;
9:626.
PMID: 26635579
The brain response to conceptual art was studied with mobile electroencephalography (EEG) to examine the neural basis of aesthetic experiences. In contrast to most studies of perceptual phenomena, participants were...