David Muccigrosso

Overview

Explore the profile of David Muccigrosso including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 14

Citations 119

Followers 0

Related Specialties

Physiology

Biomedical Engineering

Radiology

Top 10 Co-Authors

Jie Zheng

Dalin Tang

Chun Yang

Richard Bach

Liang Wang

Akiko Maehara

Gary S Mintz

Kristen L Billiar

Zheyang Wu

Pamela K Woodard

Published In

J Magn Reson Imaging

J Biomech

PLoS Comput Biol

J Cardiovasc Magn Reson

Mol Cell Biomech

Affiliations

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Recent Articles

A simplified method to correct saturation of arterial input function for cardiac magnetic resonance first-pass perfusion imaging: validation with simultaneously acquired PET

Li R, Edalati M, Muccigrosso D, Lau J, Laforest R, Woodard P, et al.

J Cardiovasc Magn Reson . 2023 Jun; 25(1):35. PMID: 37344848

Background: First-pass perfusion imaging in magnetic resonance imaging (MRI) is an established method to measure myocardial blood flow (MBF). An obstacle for accurate quantification of MBF is the saturation of...

Using intravascular ultrasound image-based fluid-structure interaction models and machine learning methods to predict human coronary plaque vulnerability change

Wang L, Tang D, Maehara A, Wu Z, Yang C, Muccigrosso D, et al.

Comput Methods Biomech Biomed Engin . 2020 Jul; 23(15):1267-1276. PMID: 32696674

Plaque vulnerability prediction is of great importance in cardiovascular research. In vivo follow-up intravascular ultrasound (IVUS) coronary plaque data were acquired from nine patients to construct fluid-structure interaction models to...

Intravenous contrast-free standardized exercise perfusion imaging in diabetic feet with ulcers

Edalati M, Hastings M, Muccigrosso D, Sorensen C, Hildebolt C, Zayed M, et al.

J Magn Reson Imaging . 2018 Nov; 50(2):474-480. PMID: 30447040

Background: Impaired foot perfusion is a primary contributor to foot ulcer formation. There is no existing device nor method that can be used to measure local foot perfusion during standardized...

Fluid-structure interaction models based on patient-specific IVUS at baseline and follow-up for prediction of coronary plaque progression by morphological and biomechanical factors: A preliminary study

Wang L, Tang D, Maehara A, Wu Z, Yang C, Muccigrosso D, et al.

J Biomech . 2017 Dec; 68:43-50. PMID: 29274686

Plaque morphology and biomechanics are believed to be closely associated with plaque progression. In this paper, we test the hypothesis that integrating morphological and biomechanical risk factors would result in...

A non-contrast CMR index for assessing myocardial fibrosis

Yin Q, Abendschein D, Muccigrosso D, OConnor R, Goldstein T, Chen R, et al.

Magn Reson Imaging . 2017 May; 42:69-73. PMID: 28461132

Purpose: Safe, sensitive, and non-invasive imaging methods to assess the presence, extent, and turnover of myocardial fibrosis are needed for early stratification of risk in patients who might develop heart...

3D MRI-based multicomponent thin layer structure only plaque models for atherosclerotic plaques

Huang X, Yang C, Zheng J, Bach R, Muccigrosso D, Woodard P, et al.

J Biomech . 2016 Jun; 49(13):2726-2733. PMID: 27344199

MRI-based fluid-structure interactions (FSI) models for atherosclerotic plaques have been developed to perform mechanical analysis to investigate the association of plaque wall stress (PWS) with cardiovascular disease. However, the time...

Oximetric angiosome imaging in diabetic feet

Zheng J, Muccigrosso D, Zhang X, An H, Coggan A, Adil B, et al.

J Magn Reson Imaging . 2016 Mar; 44(4):940-6. PMID: 26970103

Purpose: To develop a noncontrast oximetric angiosome imaging approach to assess skeletal muscle oxygenation in diabetic feet. Materials And Methods: In four healthy and five subjects with diabetes, the feasibility...

Morphological and Stress Vulnerability Indices for Human Coronary Plaques and Their Correlations with Cap Thickness and Lipid Percent: An IVUS-Based Fluid-Structure Interaction Multi-patient Study

Wang L, Zheng J, Maehara A, Yang C, Billiar K, Wu Z, et al.

PLoS Comput Biol . 2015 Dec; 11(12):e1004652. PMID: 26650721

Plaque vulnerability, defined as the likelihood that a plaque would rupture, is difficult to quantify due to lack of in vivo plaque rupture data. Morphological and stress-based plaque vulnerability indices...

IVUS-based FSI models for human coronary plaque progression study: components, correlation and predictive analysis

Wang L, Wu Z, Yang C, Zheng J, Bach R, Muccigrosso D, et al.

Ann Biomed Eng . 2014 Sep; 43(1):107-21. PMID: 25245219

Atherosclerotic plaque progression is believed to be associated with mechanical stress conditions. Patient follow-up in vivo intravascular ultrasound coronary plaque data were acquired to construct fluid-structure interaction (FSI) models with...

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Human coronary plaque wall thickness correlated positively with flow shear stress and negatively with plaque wall stress: an IVUS-based fluid-structure interaction multi-patient study

Fan R, Tang D, Yang C, Zheng J, Bach R, Wang L, et al.

Biomed Eng Online . 2014 Mar; 13(1):32. PMID: 24669780

Background: Atherosclerotic plaque progression and rupture are believed to be associated with mechanical stress conditions. In this paper, patient-specific in vivo intravascular ultrasound (IVUS) coronary plaque image data were used...