Abordaje integral para la caracterización in vitro de la dinámica endotelial

Cardiovascular diseases constitute one of the major reasons of death with high prevalence in the western industrialized societies. Endothelial dysfunction plays a fundamental role in physiopathological mechanisms and it is considered a syndrome with systemic manifestations associated with cardiovasc...

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Detalles Bibliográficos
Autores principales: Armentano, R.L., Pessana, F.M., Cymberknop, L.J., Graf, S., Furfaro, A.
Formato: CONF
Lenguaje:Spanish
Materias:
bioMems
cardiovascular disease
CFD
doppler velocimetry
endothelial cells
Cardio-vascular disease
Doppler velocimetry
Endothelial dysfunction
Endothelial function
Implantable sensors
Realtime processing
Strain gauge sensors
Velocity profiles
Biomedical engineering
BioMEMS
Computational fluid dynamics
Diseases
Doppler effect
Mica
Nitric oxide
Endothelial cells
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_16800737_v33IFMBE_n_p1126_Armentano
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
id todo:paper_16800737_v33IFMBE_n_p1126_Armentano
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spelling todo:paper_16800737_v33IFMBE_n_p1126_Armentano2023-10-03T16:29:47Z Abordaje integral para la caracterización in vitro de la dinámica endotelial Armentano, R.L. Pessana, F.M. Cymberknop, L.J. Graf, S. Furfaro, A. bioMems cardiovascular disease CFD doppler velocimetry endothelial cells Cardio-vascular disease Doppler velocimetry Endothelial dysfunction Endothelial function Implantable sensors Realtime processing Strain gauge sensors Velocity profiles Biomedical engineering BioMEMS Computational fluid dynamics Diseases Doppler effect Mica Nitric oxide Endothelial cells Cardiovascular diseases constitute one of the major reasons of death with high prevalence in the western industrialized societies. Endothelial dysfunction plays a fundamental role in physiopathological mechanisms and it is considered a syndrome with systemic manifestations associated with cardiovascular significant morbidity and mortality. The concept of endothelial dysfunction might spread up to the vessels that irrigate the vascular wall and even more, the bony marrow and the progenitor cells of endothelium. The aim of this project is the implementation of an integral system for real-time processing of pressure, flow, vascular dimension, field of velocity profile and wall shear stress simultaneously (using Doppler velocimetry, computational fluid dynamics, piezoelectric and strain gauge sensors), in order to assess endothelial function. This system will constitute the gold standard of an immediate miniaturization (using bioMems), for evaluating the endothelium capability, in accordance to the development of implantable sensors with capacity of acquisition of additional magnitudes of the whole system, as temperatures, PH and Nitric Oxide. © 2013 Springer. CONF Spanish info:eu-repo/semantics/openAccess http://creativecommons.org/licenses/by/2.5/ar http://hdl.handle.net/20.500.12110/paper_16800737_v33IFMBE_n_p1126_Armentano
institution Universidad de Buenos Aires
institution_str I-28
repository_str R-134
collection Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA)
language Spanish
orig_language_str_mv Spanish
topic bioMems
cardiovascular disease
CFD
doppler velocimetry
endothelial cells
Cardio-vascular disease
Doppler velocimetry
Endothelial dysfunction
Endothelial function
Implantable sensors
Realtime processing
Strain gauge sensors
Velocity profiles
Biomedical engineering
BioMEMS
Computational fluid dynamics
Diseases
Doppler effect
Mica
Nitric oxide
Endothelial cells
spellingShingle bioMems
cardiovascular disease
CFD
doppler velocimetry
endothelial cells
Cardio-vascular disease
Doppler velocimetry
Endothelial dysfunction
Endothelial function
Implantable sensors
Realtime processing
Strain gauge sensors
Velocity profiles
Biomedical engineering
BioMEMS
Computational fluid dynamics
Diseases
Doppler effect
Mica
Nitric oxide
Endothelial cells
Armentano, R.L.
Pessana, F.M.
Cymberknop, L.J.
Graf, S.
Furfaro, A.
Abordaje integral para la caracterización in vitro de la dinámica endotelial
topic_facet bioMems
cardiovascular disease
CFD
doppler velocimetry
endothelial cells
Cardio-vascular disease
Doppler velocimetry
Endothelial dysfunction
Endothelial function
Implantable sensors
Realtime processing
Strain gauge sensors
Velocity profiles
Biomedical engineering
BioMEMS
Computational fluid dynamics
Diseases
Doppler effect
Mica
Nitric oxide
Endothelial cells
description Cardiovascular diseases constitute one of the major reasons of death with high prevalence in the western industrialized societies. Endothelial dysfunction plays a fundamental role in physiopathological mechanisms and it is considered a syndrome with systemic manifestations associated with cardiovascular significant morbidity and mortality. The concept of endothelial dysfunction might spread up to the vessels that irrigate the vascular wall and even more, the bony marrow and the progenitor cells of endothelium. The aim of this project is the implementation of an integral system for real-time processing of pressure, flow, vascular dimension, field of velocity profile and wall shear stress simultaneously (using Doppler velocimetry, computational fluid dynamics, piezoelectric and strain gauge sensors), in order to assess endothelial function. This system will constitute the gold standard of an immediate miniaturization (using bioMems), for evaluating the endothelium capability, in accordance to the development of implantable sensors with capacity of acquisition of additional magnitudes of the whole system, as temperatures, PH and Nitric Oxide. © 2013 Springer.
format CONF
author Armentano, R.L.
Pessana, F.M.
Cymberknop, L.J.
Graf, S.
Furfaro, A.
author_facet Armentano, R.L.
Pessana, F.M.
Cymberknop, L.J.
Graf, S.
Furfaro, A.
author_sort Armentano, R.L.
title Abordaje integral para la caracterización in vitro de la dinámica endotelial
title_short Abordaje integral para la caracterización in vitro de la dinámica endotelial
title_full Abordaje integral para la caracterización in vitro de la dinámica endotelial
title_fullStr Abordaje integral para la caracterización in vitro de la dinámica endotelial
title_full_unstemmed Abordaje integral para la caracterización in vitro de la dinámica endotelial
title_sort abordaje integral para la caracterización in vitro de la dinámica endotelial
url http://hdl.handle.net/20.500.12110/paper_16800737_v33IFMBE_n_p1126_Armentano
work_keys_str_mv AT armentanorl abordajeintegralparalacaracterizacioninvitrodeladinamicaendotelial
AT pessanafm abordajeintegralparalacaracterizacioninvitrodeladinamicaendotelial
AT cymberknoplj abordajeintegralparalacaracterizacioninvitrodeladinamicaendotelial
AT grafs abordajeintegralparalacaracterizacioninvitrodeladinamicaendotelial
AT furfaroa abordajeintegralparalacaracterizacioninvitrodeladinamicaendotelial
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