Journal of Biomedical Science and Engineering

Journal of Biomedical Science and Engineering

ISSN Print: 1937-6871
ISSN Online: 1937-688X
www.scirp.org/journal/jbise
E-mail: jbise@scirp.org
"Review on lumped parameter method for modeling the blood flow in systemic arteries"
written by Isidor Kokalari, Theodhor Karaja, Maria Guerrisi,
published by Journal of Biomedical Science and Engineering, Vol.6 No.1, 2013
has been cited by the following article(s):
  • Google Scholar
  • CrossRef
[1] Estimation of ARMA-model parameters to describe pathological conditions in cardiovascular system models
2020
[2] State-of-the-Art Computational Models of Circle of Willis With Physiological Applications: A Review
2020
[3] Mathematical Modelling of the Structure and Function of the Lymphatic System
2020
[4] Modeling and control in physiology
2020
[5] Milestones of the Modeling of Human Physiology
2020
[6] Design and Evaluation of Enhanced Mock Circulatory Platform Simulating Cardiovascular Physiology for Medical Palpation Training
2020
[7] Uso de analogías eléctricas para entender patologías cardiovasculares
2020
[8] Passive Afterload Working Mode in Ex situ Heart Perfusion
2019
[9] Radio frequency microstrip line model of circulatory system vessels for cardiovascular application.
2019
[10] Resonances in the response of fluidic networks inherent to the cooperation between elasticity and bifurcations
2019
[11] 电磁学中的电路抽象
2019
[12] A lumped parameters model for cerebral blood flow in neonates and infants with patent ductus arteriosus
2019
[13] Computational model of cardiovascular response to centrifugation and lower body cycling exercise
2019
[14] STUDY OF CEREBRAL BLOOD FLOW BY THE LUMPED PARAMETER MODEL TO PREDICT THE RUPTURE OF THE ARTERIAL WALL: APPLICATION TO …
2019
[15] Modelling and simulation of myocardial infarction in the human cardiovascular system
2019
[16] A Mathematical Model of the Univentricular Fontan
2019
[17] The importance of side branches in modeling 3D hemodynamics from angiograms for patients with coronary artery disease
2019
[18] Tesi di Dottorato Refined one-dimensional models applied to biostructures and fluids
2019
[19] Modern methods of mathematical modeling of blood flow using reduced order methods
2018
[20] Human Blood Circulatory System Modeling based on Hybrid Systems
2018
[21] Arteriyal Kan Basınç Sinyallerinin Elektriksel Analojisi
Gümü?hane University Journal of Science and Technology Institute, 2018
[22] Современные методы математического моделирования кровотока с помощью осредненных моделей
2018
[23] Simulación numérica de patologías cardiovasculares mediante modelos eléctricos
2018
[24] Multi-scale Cardiovascular Flow Analysis By An Integrated Meshless-lumped Parameter Model
2018
[25] Computational fluid dynamics indicators to improve cardiovascular pathologies diagnosis
2018
[26] Simulación del corazón izquierdo para aplicaciones en docencia e investigación
2018
[27] Modelos newtonianos y no newtonianos asociados al flujo sanguíneo: revisión
2018
[28] Modelos Newtonianos y No Newtonianos Asociados al Flujo Sanguíneo: Revisión.
2018
[29] Three-Element Fractional-Order Viscoelastic Arterial Windkessel Model
2018
[30] Backward sensitivity analysis and reduced‐order covariance estimation in non‐invasive parameter identification for cerebral arteries
International Journal for Numerical Methods in Biomedical Engineering, 2018
[31] Современные методы математического моделирования кровотока c помощью осредненных моделей
2018
[32] Electrical Analogue of Arterial Blood Pressure Signals
GUSTIJ, 2018
[33] Víceškálové modelování pulzačního proudění krve v reálných modelech velkých cév
2017
[34] A Patient-Specific Three-Dimensional Hemodynamic Model of the Circle of Willis
Cardiovascular Engineering and Technology, 2017
[35] Redesign and performance evaluation of a cardiac pulse duplicator
2017
[36] Synthesizing equivalent electric circuit for respiration and cardiac signals
2017
[37] Practical Identifiability and Uncertainty Quantification of a Pulsatile Cardiovascular Model
2017
[38] Patient specific numerical modelling for the optimisation of HCC selective internal radiation therapy an image based approach
Thesis, 2017
[39] 定速呼吸對心率變異度之影響
臺灣中原大學學位論文, 2017
[40] The Introduction of Capillary Structures in 4D Simulated Vascular Tree for ART 3.5 D Algorithm Further Validation
2017
[41] Applicability of an entry flow model of the brachial artery for flow models of the hemodialysis fistula
Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine, 2017
[42] Computational Analysis on Stent Geometries in Carotid Artery: A Review
IOP Conference Series: Materials Science and Engineering, 2017
[43] Моделирование сердечно-сосудистой системы посредством линейных электрических цепей
2017
[44] Optimization of a windkessel system for arterial simulation
2017
[45] Non invasive based patient specific simulation of arteries using lumped models
2017
[46] Computational fluid dynamics indicators to improve cardiovascular pathologies
2016
[47] A LUMPED PARAMETER MODEL OF CARDIOVASCULAR SYSTEM WITH PULSATING HEART FOR DIAGNOSTIC STUDIES
Journal of Mechanics in Medicine and Biology, 2016
[48] Effects of artificial gravity on the cardiovascular system: Computational approach
Acta Astronautica, 2016
[49] Approaches to understanding vascular blood flow
2016
[50] A Lumped Parameter Method to Calculate the Effect of Internal Carotid Artery Occlusion on Anterior Cerebral Artery Pressure Waveform
Journal of biomedical physics & engineering, 2016
[51] Математическая модель сердечно-сосудистой системы педиатрических пациентов с врожденными пороками сердца
2016
[52] Windkessel modeling of the human arterial system
2016
[53] Development and Characterization of the Arterial W indkessel and Its Role During Left Ventricular Assist Device Assistance
Artificial organs, 2015
[54] Journal of Coastal Life Medicine
2015
[55] Modelování nenewtonských efektů proudění krve v reálných modelech karotické bifurkace
2015
[56] Computational fluid dynamics simulation of intracranial aneurysms – comparing size and shape
Journal of Coastal Life Medicine, 2015
[57] Influence of an Asymptotic Pressure Level on the Windkessel Models of the Arterial System
IFAC-PapersOnLine, 2015
[58] Development and Characterization of the Arterial Windkessel and Its Role During Left Ventricular Assist Device Assistance
Artificial Organs, 2015
[59] Dynamics of modulated waves in a lossy modified Noguchi electrical transmission line
Physical Review E, 2015
[60] BLOOD FLOW SIMULATIONS IN PATIENT-SPECIFIC AORTO-CORONARY BYPASS MODELS: THE ROLE OF BOUNDARY CONDITIONS
VI International Conference on Computational Bioengineering, 2015
[61] Modelling and simulation of blood circulation towards mitral valve replacement risk calculation
2015 4th International Conference on Instrumentation, Communications, Information Technology, and Biomedical Engineering (ICICI-BME), 2015
[62] A Reduced Order Model based on Coupled 1D/3D Finite Element Simulations for an Effi
2014
[63] Оценка изменений в работе правого желудочка сердца при наличии аппарата вспомогательного кровообращения левого желудочка сердца
2014
[64] The effects of stent porosity on the endovascular treatment of intracranial aneurysms located near a bifurcation
Journal of Biomedical Science and Engineering, 2013
[65] РАЗРАБОТКА МОДЕЛИ СЕРДЕЧНО-СОСУДИСТОЙ СИСТЕМЫ, ОРИЕНТИРОВАННОЙ НА ПРИМЕНЕНИЕ В КАРДИОЛОГИЧЕСКИХ …
2013
Free SCIRP Newsletters
Copyright © 2006-2021 Scientific Research Publishing Inc. All Rights Reserved.
Top