PubMed Mentions

    The links below are to publications on PubMed referring to SCIRun. This list is gathered weekly from PubMed automatically.

    Publication/References
    A guideline for head volume conductor modeling in EEG and MEG.
    Description: Vorwerk, Johannes, et al. A guideline for head volume conductor modeling in EEG and MEG. ''Neuroimage''. 2014 Oct 15; '''100''': 590-607
    Montage matters: the influence of transcranial alternating current stimulation on human physiological tremor.
    Description: Mehta, Arpan R, et al. Montage matters: the influence of transcranial alternating current stimulation on human physiological tremor. ''Brain Stimul''. 2015 Mar-Apr; '''8''' (2):260-8
    Alternating Current Stimulation for Vision Restoration after Optic Nerve Damage: A Randomized Clinical Trial.
    Description: Gall, Carolin, et al. Alternating Current Stimulation for Vision Restoration after Optic Nerve Damage: A Randomized Clinical Trial. ''PLoS One''. 2016; '''11''' (6):e0156134
    Reducing Error in ECG Forward Simulations With Improved Source Sampling.
    Description: Tate, Jess, et al. Reducing Error in ECG Forward Simulations With Improved Source Sampling. ''Front Physiol''. 2018; '''9''': 1304
    The muDBS: Multiresolution, Directional Deep Brain Stimulation for Improved Targeting of Small Diameter Fibers.
    Description: Anderson, Daria Nesterovich, et al. The muDBS: Multiresolution, Directional Deep Brain Stimulation for Improved Targeting of Small Diameter Fibers. ''Front Neurosci''. 2019; '''13''': 1152
    Image-based analysis and long-term clinical outcomes of deep brain stimulation for Tourette syndrome: a multisite study.
    Description: Johnson, Kara A, et al. Image-based analysis and long-term clinical outcomes of deep brain stimulation for Tourette syndrome: a multisite study. ''J Neurol Neurosurg Psychiatry''. 2019 Oct; '''90''' (10):1078-1090
    Evaluation of methodologies for computing the deep brain stimulation volume of tissue activated.
    Description: Duffley, Gordon, et al. Evaluation of methodologies for computing the deep brain stimulation volume of tissue activated. ''J Neural Eng''. 2019 Oct 29; '''16''' (6):066024
    Prospects for transcranial temporal interference stimulation in humans: A computational study.
    Description: Rampersad, Sumientra, et al. Prospects for transcranial temporal interference stimulation in humans: A computational study. ''Neuroimage''. 2019 Nov 15; '''202''': 116124
    Mechanisms of Arrhythmogenicity in Hypertrophic Cardiomyopathy: Insight From Non-invasive Electrocardiographic Imaging.
    Description: Perez-Alday, Erick A, et al. Mechanisms of Arrhythmogenicity in Hypertrophic Cardiomyopathy: Insight From Non-invasive Electrocardiographic Imaging. ''Front Physiol''. 2020; '''11''': 344
    Design and Evaluation of a Rodent-Specific Transcranial Magnetic Stimulation Coil: An In Silico and In Vivo Validation Study.
    Description: Boonzaier, Julia, et al. Design and Evaluation of a Rodent-Specific Transcranial Magnetic Stimulation Coil: An In Silico and In Vivo Validation Study. ''Neuromodulation''. 2020 Apr; '''23''' (3):324-334
    Evaluating Current Density Modeling of Non-Invasive Eye and Brain Electrical Stimulation Using Phosphene Thresholds.
    Description: Sabel, B A, et al. Evaluating Current Density Modeling of Non-Invasive Eye and Brain Electrical Stimulation Using Phosphene Thresholds. ''IEEE Trans Neural Syst Rehabil Eng''. 2021; '''29''': 2133-2141
    Validating Patient-Specific Finite Element Models of Direct Electrocortical Stimulation.
    Description: Charlebois, Chantel M, et al. Validating Patient-Specific Finite Element Models of Direct Electrocortical Stimulation. ''Front Neurosci''. 2021; '''15''': 691701
    Compensation Strategies for Bioelectric Signal Changes in Chronic Selective Nerve Cuff Recordings: A Simulation Study.
    Description: Sammut, Stephen, et al. Compensation Strategies for Bioelectric Signal Changes in Chronic Selective Nerve Cuff Recordings: A Simulation Study. ''Sensors (Basel)''. 2021 Jan 12; '''21''' (2):
    Fast computational optimization of TMS coil placement for individualized electric field targeting.
    Description: Gomez, Luis J, et al. Fast computational optimization of TMS coil placement for individualized electric field targeting. ''Neuroimage''. 2021 Mar; '''228''': 117696
    Transcranial alternating current stimulation entrains alpha oscillations by preferential phase synchronization of fast-spiking cortical neurons to stimulation waveform.
    Description: Huang, Wei A, et al. Transcranial alternating current stimulation entrains alpha oscillations by preferential phase synchronization of fast-spiking cortical neurons to stimulation waveform. ''Nat Commun''. 2021 May 25; '''12''' (1):3151
    Network-based rTMS to modulate working memory: The difficult choice of effective parameters for online interventions.
    Description: Beynel, Lysianne, et al. Network-based rTMS to modulate working memory: The difficult choice of effective parameters for online interventions. ''Brain Behav''. 2021 Nov; '''11''' (11):e2361
    Technical note: Evaluation of a silicone-based custom bolus for radiation therapy of a superficial pelvic tumor.
    Description: Wang, Karissa M, et al. Technical note: Evaluation of a silicone-based custom bolus for radiation therapy of a superficial pelvic tumor. ''J Appl Clin Med Phys''. 2022 Apr; '''23''' (4):e13538
    Localization of magnetocardiographic sources for myocardial infarction cases using deterministic and Bayesian approaches.
    Description: Bhat, Vikas R, et al. Localization of magnetocardiographic sources for myocardial infarction cases using deterministic and Bayesian approaches. ''Sci Rep''. 2022 Dec 21; '''12''' (1):22079
    Modeling of intracranial tumor treating fields for the treatment of complex high-grade gliomas.
    Description: Segar, David J, et al. Modeling of intracranial tumor treating fields for the treatment of complex high-grade gliomas. ''Sci Rep''. 2023 Jan 30; '''13''' (1):1636
    Selective peripheral nerve recording using simulated human median nerve activity and convolutional neural networks.
    Description: Jawad, Taseen, et al. Selective peripheral nerve recording using simulated human median nerve activity and convolutional neural networks. ''Biomed Eng Online''. 2023 Dec 7; '''22''' (1):118
    M2M-InvNet: Human Motor Cortex Mapping From Multi-Muscle Response Using TMS and Generative 3D Convolutional Network.
    Description: Akbar, Md Navid, et al. M2M-InvNet: Human Motor Cortex Mapping From Multi-Muscle Response Using TMS and Generative 3D Convolutional Network. ''IEEE Trans Neural Syst Rehabil Eng''. 2024; '''32''': 1455-1465