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Altagamoa Al Khames, Main centre of town, end of 90th Street
New Cairo
Egypt
Faculty of Engineering & Technology
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MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Basic information

Name : MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD
Title: vice Dean
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Education

Certificate Major University Year
PhD Measurments, Computer modeling, Biomaterials, Biomeachanics, Stress analysis Rensselare polytechnic Institute - Troy,New York,USA 1988
Masters Measurments, Medical Engineering George Washington University -Washington , D.C, USA 1981
Bachelor Mechanical Engineering Faculty of Engineering - Helwan Univrsity 1975

Researches /Publications

Evaluation of stresses on mandible bone and prosthetic parts in fixed prosthesis by utilizing CFR-PEEK, PEKK and PEEK frameworks

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Yomna H. Shash; Mohamed T. El-Wakad; Mohamed A. A. El-Dosoky; Mohamed M. Dohiem

17/07/2023

https://www.nature.com/articles/s41598-023-38288-2

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Optimal Concentration and Duration of Endotracheal Tube Coating to Achieve Optimal Antimicrobial Efficacy and Safety Balance: An In Vitro Study

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Manar Fathy Al-Sayed; Mohamed Tarek El-Wakad; Mohammed A. Hassan; Ahmed M. Soliman; Amal S. Eldesoky

16/05/2023

https://www.mdpi.com/2310-2861/9/5/414

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A numerical analysis of the ablation of large tumors using gamma-titanium RF electrodes.

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Mohammed S Ahmed; Mohammed El-Wakad; Mohammed A Hassan

23/02/2023

https://www.alliedacademies.org/articles/a-numerical-analysis-of-the-ablation-of-large-tumors-using-gammatitanium-rf-electrodes-24247.html

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The Effect of Thermal and Electrical Conductivities on the Ablation Volume during Radiofrequency Ablation Process

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Mohammed S. Ahmed1, Mohamed Tarek El-Wakad, Mohammed A. Hassan

18/01/2023

https://thesai.org/Downloads/Volume14No1/Paper_53-The_Effect_of_Thermal_and_Electrical_Conductivities.pdf

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Evaluation of stress and strain on mandible caused using “All-on-Four” system from PEEK in hybrid prosthesis: finite-element analysis

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Yomna H. Shash; Mohamed T. El-Wakad; Mohamed A. A. Eldosoky; Mohamed M. Dohiem

13/11/2022

https://link.springer.com/article/10.1007/s10266-022-00771-z

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Implementation and Evaluation of a Dynamic Neck Brace Rehabilitation Device Prototype

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Mostafa El-Hussien Ibrahem; Mohamed Tarek El-Wakad; Mostafa Saied El-Mohandes; Sherif A. Sami

27/10/2022

https://www.hindawi.com/journals/jhe/2022/6887839/

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A Novel Stimulation and impedance sensing Setup for Dielectrophoresis based Microfluidic Platform

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Sameh Sherif; Yehya H. Ghallab; Mohamed T. El-Wakad; Yehea Ismail

22/10/2022

https://www.sciencedirect.com/science/article/pii/S1110016822006469

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Finite-Element Analysis of the Effect of Utilizing Various Material Assemblies in “All on Four” on the Stresses on Mandible Bone and Prosthetic Parts

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Yomna H. Shash; Mohamed T. El-Wakad; Mohamed A. A. Eldosoky; Mohamed M. Dohiem

10/10/2022

https://www.hindawi.com/journals/ijps/2022/4520250/

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Evaluation of stress and strain on mandible caused by changing the bar material in hybrid prosthesis utilizing “All-on-Four” technique

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Yomna H.Shas; Mohamed A. Eldosoky; Mohamed M. Dohiem

30/07/2022

https://www.sciencedirect.com/science/article/pii/S1110016822004872

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A Finite Element-Based Analysis of a Hemodynamics Efficient Flow Stent Suitable for Different Abdominal Aneurysm Shapes

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

A Nada; M.A. Fakhr; M.T.I. El-Wakad; M.A. Hassan

22/05/2022

https://asmedigitalcollection.asme.org/biomechanical/article-abstract/144/9/091006/1137925/A-Finite-Element-Based-Analysis-of-a-Hemodynamics?redirectedFrom=fulltext

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HA/HDPE Reinforced with MWCNTs for Bone Reconstruction and Replacement Application

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

ALI A. AL-ALLAQ; JENAN S. KASHAN; MOHAMED T. EL-WAKAD; AHMED M. SOLIMAN

01/03/2022

https://revmaterialeplastice.ro/pdf/11%20ALI%20A%201%2022.pdf

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Impedance Spectroscopy based on the Cell Trajectory and New Strategy to Enhance the Accuracy of the Detection in the Microfluidic System

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

S. Sherif; Y.H. Ghallab; M.T. El-Wakad; Y. Ismail

19/12/2021

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85124464977&doi=10.1109%2fICM52667.2021.9664902&partnerID=40&md5=d106b38a635b35e71f83182ce4dc1fc9

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Towards an Ultra-Affordable Three-Dimensional Bioprinter: A Heated Inductive-Enabled Syringe Pump Extrusion Multifunction Module for Open-Source Fused Deposition Modeling Three-Dimensional Printers

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Lamis R. Darwish; Mahmoud M. Farag

15/12/2021

https://asmedigitalcollection.asme.org/manufacturingscience/article-abstract/143/12/125001/1106905/Towards-an-Ultra-Affordable-Three-Dimensional

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Zinc-Magnesium alloy as a degradable bone plate

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Khaled Waly; Mohamed Tarek Elwakad; Madyha Shoieb; Mohamed Mousa; Amal S. Eldesoky

14/12/2021

https://ieeexplore.ieee.org/document/9691455

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An Influence of the Microfluidic Channel Height and Distribution of Dielectrophoretic Force on the Impedance Extraction in Microfluidic Systems

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

S. Sherif; Y. Ghallab; M.T. El-Wakad; Y. Ismail

06/12/2021

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85127085158&doi=10.1109%2fICICIS52592.2021.9694189&partnerID=40&md5=27a80ee79777888ccf7eb2352575ed42

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Identification of a New Topology to Enhance the Impedance Extraction in Microfluidic Systems

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

S. Sherif; Y.H. Ghallab; M.T. El-Wakad; Y. Ismail

05/12/2021

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85127020362&doi=10.1109%2fICICIS52592.2021.9694184&partnerID=40&md5=6943baf8e5f4df8378e6dc9044998999

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Towards sustainable industry 4.0: A green real-time IIoT multitask scheduling architecture for distributed 3D printing services

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Lamis R. Darwish; Mohamed T. El-Wakad; Mahmoud M. Farag

05/10/2021

https://www.sciencedirect.com/science/article/abs/pii/S0278612521001904

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The Electroporation Response of Normal and Malignant White Blood Cells

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

1. S. Sherif; Y.H. Ghallab; M.T. El-Wakad; Y. Ismail

27/07/2021

https://www.scopus.com/inward/record.uri?eid=2-s2.0-85113440126&doi=10.1109%2fNRSC52299.2021.9509780&partnerID=40&md5=a29a8251b3dd77fb82d1dc0110a6bf9a

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Multiwall carbon nanotube reinforced HA/HDPE biocomposite for bone reconstruction

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

Ali A. Al-allaq; Jenan S. Kashan; Ahmed M. Soliman

19/04/2021

https://www.scopus.com/authid/detail.uri?authorId=57225092929

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EVALUATION OF A HYBRID BIOCOMPOSITE OF HA/HDPE REINFORCED WITH MULTI-WALLED CARBON NANOTUBES (MWCNTs) AS A BONE-SUBSTITUTE MATERIAL

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

A.A. Al-allaq; J.S. Kashan; A.M.Soliman

12/04/2021

http://www.scopus.com/inward/record.url?eid=2-s2.0-85117900145&partnerID=MN8TOARS

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Optimization of micro-electrodes for DNA fragments labelled to microbeads manipulation and characterization

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

R Abdelbaset, YH Ghallab, Y Ismail

01/03/2020

Deoxyribonucleic acid (DNA) is the inborn material in humans and almost all other organisms. The movement of neutral polarizable particles from the site of the lowest strength of the electric field to the site of the most strength is known as Dielectrophoresis (DEP). DEP Distinguished from their counterparts of other techniques in manipulation and identification of biological cells and DNA. Many applications of natural and artificial DNA forms depend on the studies dedicated to the characterization of DNA. It is able to differentiate between different types of cells by observing the response of it towards a non-uniform electric field. In this study, a DEP based platform is proposed for manipulation and identification of the DNA fragments that are labeled on specific microbead. However, this platform includes a set of electrodes that allows simultaneous manipulation, trapping and controlling. Different designs of DEP-based microelectrode in micro size are simulated using COMSOL Multiphysics 5.4. This comparison is studied in order to get the optimized design for trapping and identification of DNA fragments that are labeled on specific microbeads.

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Micro-electrodes based on CMOS Technology for Characterization of Biological Cells

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

R Abdelbaset, YH Ghallab, H Abdelhamid, Y Ismail

01/12/2019

The electro-rotation configuration is one of the most important characteristics that is achieved through the Dielectrophoresis (DEP) phenomena. Furthermore, it is a significant property to distinguish between different biological cells. At a given frequency, the rotation speed and rotation direction of the biological cells are different from one cell to another based on the biological characteristics. There are many proposed designs for implementing the electro-rotations. In this paper, a comparison between these different designs are studied and simulated to propose the efficient technique that can be applied to obtain a sensitive and an accurate biological cell electro-rotation. This comparison is studied through introducing 3D simulation results using finite element method (FEM) technique. This study used the following parameters to differentiate between the techniques: the electro-rotation direction and the generated electric filed density and distribution around the electrodes, in addition to the generated DEP force on particles.

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Planar Micro-electrodes versus Cone Plate for Biological Cell Trapping and Characterization

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

R Abdelbaset, YH Ghallab, H Abdelhamid, Y Ismail

01/12/2019

The trapping and the levitation of micro scale particles has been of interest to many scientists for many years. Therefore, more than one design based on Dielectrophoresis (DEP) phenomena has been extracted for this function. The most important of these designs are as follows: the cone plate design, the concentric rings planar design, and the quadrupole planar design. In this study, a comparison between the three designs are presented using the Finite element method (FEM) in order to achieve an efficient technique for cell's trapping and levitation. This comparison based on studying the direction, distribution, the density, and the strength of the electric field, in addition to the generated DEP force on particles. COMSOL MULTIPHYSICS is proposed for introducing the simulation for the three proposed designs.

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A novel microfluidic system using a reservoir and flow control system for single-cell release, migration, separation, and characterization

MOHAMED TAREK IBRAHIM MOHAMED ALY ELWAKAD

R Abdelbaset, YH Ghallab, Y Ismail

01/12/2019

The microfluidic chambers have become the focus of many scientists and researchers because it ensures efficient control for many functions such as cell migration and separation. In addition, the microfluidic is interested in studying the behavior of fluids within microchannels. It is also interested in the technology of the manufacturing of these micro-channels. Single cell migration and separation are the key step in several applications such as lab-on-chip (measurement the electrical properties (i.e. Impedance, and capacitance) of a single-cell), biochemistry, and cell biology. In this study, a novel technique for single-cell migration and separation using a reservoir, flow control and dielectrophoresis (DEP) is purposed. Also, sensors for the capacitance measuring is implemented for cell characterization applications. The design of the proposed microfluidic chamber is simulated and tested using COMSOL Multiphysics 5.4. The results prove the ability of the proposed system for single-cell migration and separation using a reservoir and flow control system at a lower flow rate than previous work through a single sample.

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