subject: Biomedical Engineering date: 2019
10.4231/XTZT-P683
Ho-Ching Yang , Joseph V Rispoli , Thomas M Talavage , Wenbin Zhu , Yukai Zou
09/12/2019
Unbiased population-specific brain templates for local adolescent collision-sport athletes in the longitudinal database of Purdue Neurotrauma Group, including a T1-weighted template and a DTI template.
Adolescents Atlasing Biomedical Engineering Brain Informatics Morphometrics MRI Neuroscience NIfTI Spatial Normalization Spatial Warping Statistical Methods Trauma Workflow
10.4231/C6DE-N845
Benjamin Dickerhoff , David Saloner , Melissa Brindise , Michael Markl , Pavlos Vlachos , Sean Rothenberger , Susanne Schnell , Vitaliy Rayz
11/01/2019
In vivo MRI dataset from a pulsatile volumetric particle velocimetry study using two patient-specific cerebral aneurysm models.
Biomedical Engineering Cerebral Aneurysm CFD Experimental Tests Fluid Mechanics Matlab MRI PIV Shake the Box
10.4231/5RW6-4Z50
Benjamin Dickerhoff , David Saloner , Melissa Brindise , Michael Markl , Pavlos Vlachos , Sean Rothenberger , Susanne Schnell , Vitaliy Rayz
11/01/2019
In silico CFD dataset from a pulsatile volumetric particle velocimetry study using two patient-specific cerebral aneurysm models.
Biomedical Engineering Cerebral Aneurysm CFD Experimental Tests Fluid Mechanics Matlab MRI PIV Shake the Box
10.4231/FNF9-E631
Benjamin Dickerhoff , David Saloner , Melissa Brindise , Michael Markl , Pavlos Vlachos , Sean Rothenberger , Susanne Schnell , Vitaliy Rayz
11/01/2019
In vitro STB dataset from a pulsatile volumetric particle velocimetry study using two patient-specific cerebral aneurysm models.
Biomedical Engineering Cerebral Aneurysm CFD Experimental Tests Fluid Mechanics Matlab MRI PIV Shake the Box
10.4231/ZP8A-2G12
Benjamin Dickerhoff , David Saloner , Melissa Brindise , Michael Markl , Pavlos Vlachos , Sean Rothenberger , Susanne Schnell , Vitaliy Rayz
11/01/2019
Data from a pulsatile volumetric particle velocimetry study using two patient-specific cerebral aneurysm models, processed using Shake the Box (STB). Associated in vivo MRI and CFD datasets are also provided.
Biomedical Engineering Cerebral Aneurysm CFD Experimental Tests Fluid Mechanics Matlab MRI PIV Shake the Box
10.4231/XGNK-JX08
Ho-Ching Yang , Joseph V Rispoli , Thomas M Talavage , Wenbin Zhu , Yukai Zou
11/06/2019
Unbiased population-specific brain atlas for local adolescent collision-sport athletes in the longitudinal database of Purdue Neurotrauma Group, including cortical and white matter parcellations, a T1-weighted template, and a DTI template.
Adolescents Atlasing Biomedical Engineering Brain Informatics Morphometrics MRI Neuroscience NIfTI Spatial Normalization Spatial Warping Statistical Methods Trauma Workflow
10.4231/4668-DM62
Ho-Ching Yang , Joseph V Rispoli , Thomas M Talavage , Wenbin Zhu , Yukai Zou
01/16/2019
A population-specific brain atlas based on the T1-weighted MR scans from 215 adolescent collision-sport athletes in the longitudinal database of Purdue Neurotrauma Group.
Adolescents Atlasing Biomedical Engineering Brain Informatics Morphometrics MRI Neuroscience Spatial Normalization Spatial Warping Statistical Methods Trauma Workflow
10.4231/M5F1-QC84
Benjamin Dickerhoff , David Saloner , Melissa Brindise , Michael Markl , Pavlos Vlachos , Sean Rothenberger , Susanne Schnell , Vitaliy Rayz
08/23/2019
Data from a pulsatile volumetric particle velocimetry study using two patient-specific cerebral aneurysm models, processed using Shake the Box (STB). Associated in vivo MRI and CFD datasets are also provided.
Biomedical Engineering Cerebral Aneurysm CFD Experimental Tests Fluid Mechanics Matlab MRI PIV Shake the Box
10.4231/MBPK-D277
Matthew C Pharris , Tamara L Kinzer-Ursem
03/11/2019
This model uses a specialized rule-based syntax in MCell 3.3 to model the twelve-subunit CaMKII holoenzyme without inducing combinatorial explosion. The model allows us to explore the regulation of CaMKII activation and autophosphorylation.
Biomedical Engineering Calmodulin Computational Modeling Neuroscience Protein Signaling
10.4231/MV0Z-8Z57
Matthew C Pharris , Tamara L Kinzer-Ursem
07/29/2019
This model uses a specialized rule-based syntax in MCell 3.3 to model the twelve-subunit CaMKII holoenzyme without inducing combinatorial explosion. The model allows us to explore the regulation of CaMKII activation and autophosphorylation.
Biomedical Engineering Calcium Calmodulin Computational Modeling Kinase Neuroscience Protein Signaling Rule-Based Modeling Synaptic Plasticity
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