Salar Tayebi

Salar Tayebi
Vrije Universiteit Brussel | VUB · Electronics and Informatics (ETRO)

Master of Science

About

9
Publications
1,337
Reads
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28
Citations
Citations since 2017
9 Research Items
28 Citations
201720182019202020212022202302468101214
201720182019202020212022202302468101214
201720182019202020212022202302468101214
201720182019202020212022202302468101214
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Introduction
Salar Tayebi received the B.Sc. degree in biomedical engineering from Tehran Polytechnic in 2016, and the M.Sc. degree in biomedical engineering from Vrije Universiteit Brussel in 2021, where he is currently pursuing the Ph.D. degree. He is currently a member of the Department of Electronics and Informatics of Vrije Universiteit Brussel. His main research topic is non-invasive intra-abdominal pressure measurement.
Skills and Expertise
intra-abdominal pressure
Microwave Spectroscopy
Medical Engineering
CST Microwave Studio
Education
September 2018 - September 2020
Vrije Universiteit Brussel
Vrije Universiteit Brussel
Field of study
  • Biomedical engineering
September 2012 - September 2016
Amirkabir University of Technology
Amirkabir University of Technology
Field of study
  • Biomedical engineering

Publications

Publications (9)
Figure 1. The four hits of shock. Graph showing the four-hit model of...
Figure 2. Flowchart of literature review and selection of included...
Figure 4. Cont.
Summary of findings of retrospective studies on fluid administration...
+3 Cont.
Fluid Management, Intra-Abdominal Hypertension and the Abdominal Compartment Syndrome: A Narrative Review
Article
Full-text available
  • Sep 2022
Background: General pathophysiological mechanisms regarding associations between fluid administration and intra-abdominal hypertension (IAH) are evident, but specific effects of type, amount, and timing of fluids are less clear. Objectives: This review aims to summarize current knowledge on associations between fluid administration and intra-abd...
Pre-Clinical Validation of A Novel Continuous Intra-Abdominal Pressure Measurement Equipment (SERENNO)
Article
Full-text available
  • Jul 2022
Introduction: Increased intra-abdominal pressure (IAP) has an important impact on morbidity and mortality in critically ill patients. The SERENNO Sentinel system (Serenno Medical, Yokne’am Illit, Israel) is a novel device that allows automatic and continuous IAP measurements. Aims: Pre-clinical validation in a bench model study comparing the new de...
Figure 3. Transient radar system in detail. (a) A block diagram showing...
Figure 4. Rubber samples with different curing times of 2, 4, and 5.5 min.
Figure 5. Two-step calibration process. (a) AIR trace when there is no...
Figure 6. Sample measurement by TRM. (a) The rubber sample in front of...
+5 Figure 7. A schematic of the propagation paths in a single-layer...
A Novel Approach to Non-Destructive Rubber Vulcanization Monitoring by the Transient Radar Method
Article
Full-text available
  • Jul 2022
Rubber is one of the most used materials in the world; however, raw rubber shows a relatively very low mechanical strength. Therefore, it needs to be cured before its ultimate applicatios. Curing process specifications, such as the curing time and temperature, influence the material properties of the final cured product. The transient radar method...
Fig. 7. Flowchart explaining the extraction of PPs. (a) First PP which...
Fig. 8. Sensitivity of transient radar signal with respect to thickness...
Fig. 9. Recorded signals from the two-step calibration procedure and...
Fully Blind Electromagnetic Characterization of Deep Sub-Wavelength (λ /100) Dielectric Slabs With Low Bandwidth Differential Transient Radar Technique at 10 GHz
Article
Full-text available
  • Dec 2021
Transient radar method (TRM) is introduced as a novel non-destructive testing (NDT) technique that is capable of analyzing fully blindly and simultaneously the electromagnetic (EM) properties as well as geometric parameters of deep sub-wavelength thin single layer slabs. This study focuses on the minimum detectable layer thickness by means of TRM,...
Figure 1. Abdominal wall phantom used in the in vitro study. (a) The...
Figure 2. Block diagram explaining different modules of the TRM system.
Figure 3. Transient radar method (TRM) set-up used for intra-abdominal...
Figure 4. Raw transient signals reflected from the abdominal wall...
+2 Figure 5. Smoothed reflected signals from the abdominal wall phantom....
Non-Invasive Intra-Abdominal Pressure Measurement by Means of Transient Radar Method: In Vitro Validation of a Novel Radar-Based Sensor
Article
Full-text available
  • Sep 2021
Intra-abdominal hypertension, defined as an intra-abdominal pressure (IAP) equal to or above 12 mmHg is one of the major risk-factors for increased morbidity (organ failure) and mortality in critically ill patients. Therefore, IAP monitoring is highly recommended in intensive care unit (ICU) patients to predict development of abdominal compartment...
Fig. 4 The tracings achieved by respiratory inductance plethysmography...
Fig. 5 Abdominal wall tensiometry. Tensiometry is performed by...
Fig. 6 Abdominal wall tension (AWT) measurement prototype used by van...
Fig. 12 Elastic ratio (ER) as a function of the intra-compartmental...
+24 Fig. 19 Laser ultrasound. Schematic representation of the optical...
A concise overview of non-invasive intra-abdominal pressure measurement techniques: from bench to bedside
Article
Full-text available
  • Feb 2021
This review presents an overview of previously reported non-invasive intra-abdominal pressure (IAP) measurement techniques. Each section covers the basic physical principles and methodology of the various measurement techniques, the experimental results, and the advantages and disadvantages of each method. The most promising non-invasive methods fo...
Figure 1. A general schematic representing the concept of...
Figure 2. A diagram representing the impact of intra-abdominal pressure...
Figure 3. An artificial abdominal wall that is placed between the...
Impact of intra-abdominal pressure variations on the reflection coefficient (S11) of the artificial abdominal wall: The concept behind sub-terahertz reflectometry for non-invasive intra-abdominal pressure measurement
Conference Paper
Full-text available
  • Nov 2020
In this conference paper, we investigated the main concept behind sub-terahertz and microwave reflectometry in intra-abdominal pressure (IAP) monitoring. At first, the direct impact of IAP on the geometric and consequently, electromagnetic properties of the abdominal compartment was studied. Subsequently, each influencing geometric parameter impact...
Figure 5. (a) Reflection due to crosstalk between transmitter and...
Figure 8. The real nose coinciding with the deviation between the two...
Experimental results for single-layer structures with compensating...
Error Assessment and Mitigation Methods in Transient Radar Method
Article
Full-text available
  • Jan 2020
Transient Radar Method (TRM) was recently proposed as a novel contact-free method for the characterization of multilayer dielectric structures including the geometric details. In this paper, we discuss and quantify the intrinsic and systematic errors of TRM. Also, solutions for mitigating these problems are elaborated extensively. The proposed solu...

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Projects

Project (1)
Intra-abdominal pressure measurement by microwave reflectometry.
Project
Almost 50% of patients in intensive care units suffer from intra-abdominal hypertension (IAH). IAH by itself, can result in organ dysfunction and finally the death of the patient. Thus, continuous non-invasive monitoring of intra-abdominal pressure is necessary for patients hospitalized in the ICU. Microwave reflectometry is a novel measurement technique that can be used for IAP assessment.