Datasets

subject: Biomedical Engineering type: dataset

Total is 41 Results
Signal Processing Toolbox for Simultaneously Acquired fMRI and EEG

10.4231/R7DB7ZSC

Rodrigo Castellanos, Zhongming Liu, 0000-0002-8773-4204

06/07/2016

This Matlab toolbox includes signal processing functions to remove gradient and pulse artifacts in EEG data recorded simultaneously with fMRI. It is distributed as a GUI plugin for EEGLAB.

Bioinformatics Biomedical Engineering Electrical and Computer Engineering fMRI-EEG independent component analysis Signal Processing Singular value decomposition

Animal Model Dependent Response to Pentagalloyl Glucose in Murine Abdominal Aortic Injury

10.4231/1FQ0-P419

Craig Goergen, 0000-0001-8883-7953, Elizabeth Niedert, 0000-0002-0044-0167, Ender Finol, Jennifer Anderson, Renxiang Tang, Riley Holloway, Sourav Patnaik, 0000-0001-7457-8604, Vangelina Osteguin

01/12/2021

This dataset accompanies the Journal of Clinical Medicine article by the same name (https://doi.org/10.3390/jcm10020219) and includes all data discussed therein. Please contact Craig Goergen with any questions at cgoergen@purdue.edu.

abdominal aortic aneurysms Biomedical Engineering elastin pentagalloyl glucose ultrasound

Signal Processing Toolbox for Simultaneously Acquired fMRI and EEG

10.4231/R7QF8QT4

Rodrigo Castellanos, Zhongming Liu, 0000-0002-8773-4204

07/27/2015

This Matlab toolbox includes signal processing functions to remove gradient and pulse artifacts in EEG data recorded simultaneously with fMRI. It is distributed as a GUI plugin for EEGLAB.

Bioinformatics Biomedical Engineering Electrical and Computer Engineering fMRI-EEG independent component analysis Signal Processing Singular value decomposition

Weathered Agent-Based Model of Microglia-Plaque Interactions

10.4231/2YEY-TD12

Catherine Weathered, 0000-0002-4406-3957, Elsje Pienaar

03/15/2023

Model code from "Microglia Roles in Alzheimer’s Disease: An Agent-Based Model to Elucidate Microglial Spatiotemporal Response to Beta-Amyloid"

agent based model Alzheimer's Disease Biomedical Engineering microglia model

A multi-modality approach for enhancing 4D flow MRI via sparse representation

10.4231/FB9P-5991

Jiacheng Zhang, Melissa Brindise, Michael Markl, Pavlos Vlachos, Sean Rothenberger, 0000-0003-1341-6147, Vitaliy Rayz

09/22/2021

Data and source code to enhance the blood flow measurements and the hemodynamic analysis with 4D flow MRI in cerebral aneurysms using multi-modality data and sparse representation.

Biomedical Engineering Cerebral Aneurysm CFD Fluid Mechanics MRI PIV

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