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Parametric EIT for monitoring cardiac stroke volume
S. Zlochiver
*
,
D. Freimark
,
M. Arad
,
A. Adunsky
,
S. Abboud
*
Corresponding author for this work
School of Biomedical Engineering
Tel Aviv University
Sheba Medical Center at Tel Hashomer
Research output
:
Contribution to journal
›
Article
›
peer-review
48
Scopus citations
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Keyphrases
Electrical Impedance Tomography
100%
Cardiac Stroke Volume
100%
Cardiac Cycle
50%
Healthy Individuals
25%
Conductivity Values
25%
Home Environment
25%
Left Ventricular Volume
25%
Thorax
25%
Clinical Setting
25%
Heart Blood
25%
Stroke Volume
25%
Tissue Conductivity
25%
Validation Studies
25%
Physical Data
25%
Tomography System
25%
Ellipsoid
25%
Optimization Scheme
25%
Cardiac Hemodynamics
25%
Parameter Optimization
25%
Newton-Raphson Method
25%
Noise Sensitivity
25%
Heart Contraction
25%
Blood Perfusion
25%
Impedance Method
25%
Bioimpedance
25%
Conductivity Distribution
25%
Impedance Cardiography
25%
MRI Images
25%
Axis Length
25%
Tissue Geometry
25%
Stroke Volume Measurement
25%
Axial MRI
25%
Reconstruction Parameters
25%
Impedance Model
25%
Engineering
Stroke Volume
100%
Electrical Impedance
100%
Collected Data
25%
Simulation Result
25%
Noise Sensitivity
25%
Home Environment
25%
Clinical Environment
25%
Conductivity Distribution
25%
Parametric Optimization
25%