Burak Erem
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Explore the profile of Burak Erem including associated specialties, affiliations and a list of published articles.
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Recent Articles
11.
Erem B, Martinez Orellana R, Hyde D, Peters J, Duffy F, Stovicek P, et al.
Phys Rev E
. 2016 May;
93(4):042218.
PMID: 27176304
This paper addresses the challenge of extracting meaningful information from measured bioelectric signals generated by complex, large scale physiological systems such as the brain or the heart. We focus on...
12.
Guler S, Dannhauer M, Erem B, MacLeod R, Tucker D, Turovets S, et al.
J Neural Eng
. 2016 May;
13(3):036020.
PMID: 27152752
Objective: Transcranial direct current stimulation (tDCS) aims to alter brain function non-invasively via electrodes placed on the scalp. Conventional tDCS uses two relatively large patch electrodes to deliver electrical current...
13.
Coll-Font J, Burton B, Tate J, Erem B, Swenson D, Wang D, et al.
Comput Cardiol (2010)
. 2015 Dec;
2014:213-216.
PMID: 26618184
Cardiac electrical imaging often requires the examination of different forward and inverse problem formulations based on mathematical and numerical approximations of the underlying source and the intervening volume conductor that...
14.
Burton B, Erem B, Potter K, Rosen P, Johnson C, Brooks D, et al.
Comput Cardiol (2010)
. 2014 Nov;
40:57-60.
PMID: 25383390
Quantification and visualization of uncertainty in cardiac forward and inverse problems with complex geometries is subject to various challenges. Specific to visualization is the observation that occlusion and clutter obscure...
15.
Erem B, Van Dam P, Brooks D
IEEE Trans Med Imaging
. 2014 Apr;
33(4):902-12.
PMID: 24710159
Noninvasive imaging of cardiac electrical function has begun to move towards clinical adoption. Here, we consider one common formulation of the problem, in which the goal is to estimate the...
16.
Erem B, Coll-Font J, Martinez Orellana R, Stovicek P, Brooks D
IEEE Trans Med Imaging
. 2014 Mar;
33(3):726-38.
PMID: 24595345
Cardiac electrical imaging from body surface potential measurements is increasingly being seen as a technology with the potential for use in the clinic, for example for pre-procedure planning or during-treatment...
17.
Erem B, Brooks D, Van Dam P, Stinstra J, MacLeod R
Annu Int Conf IEEE Eng Med Biol Soc
. 2012 Jan;
2011:5884-7.
PMID: 22255678
Identification of electrical activation or depolarization times on sparsely-sampled complex heart surfaces is of importance to clinicians and researchers in cardiac electrophysiology. We introduce a spatiotemporal approach for activation time...
18.
Erem B, Van Dam P, Brooks D
Annu Int Conf IEEE Eng Med Biol Soc
. 2012 Jan;
2011:3913-6.
PMID: 22255195
In inverse electrocardiography (ECG), the problem of finding activation times on the heart noninvasively from body surface potentials is typically formulated as a nonlinear least squares optimization problem. Current solutions...
19.
Burton B, Tate J, Erem B, Swenson D, Wang D, Steffen M, et al.
Annu Int Conf IEEE Eng Med Biol Soc
. 2012 Jan;
2011:267-70.
PMID: 22254301
Computational modeling in electrocardiography often requires the examination of cardiac forward and inverse problems in order to non-invasively analyze physiological events that are otherwise inaccessible or unethical to explore. The...
20.
Erem B, Brooks D
Proc IEEE Int Symp Biomed Imaging
. 2011 Jun;
2011(March 30 2011-April 2 2011):504-507.
PMID: 21712967
In a number of medical imaging modalities, including measurements or estimates of electrical activity on cortical or cardiac surfaces, it is often useful to estimate spatial derivatives of data on...