AU

Seminars for the Registration of Researches in the Faculty of Biomedical Engineering

  • Publish Date:
  • 12/06/2022

 

On Saturday, 11th of June, at 9:30 am, a scientific session was held in the Faculty of Biomedical Engineering. In the session were a number of seminars conducted to register researches. Widely attended, the scientific event included valuable and enriching scientific discussions.

Among these researches were: 

A research entitled "Laser Treatment of Diabetic Foot Ulcers and a Study of its Parameters"

The research team consists of Dr. Mamdouh Munif, Dr. Ayman Al-Kayyal, and students, Youssef Al-Khatib and Zainab Kassab. 

This research aims to design and implement a device for the treatment of diabetic foot ulcers in a non-contact mode using low-energy laser.

The research includes a systematic review of the latest articles related to the research topic. The hardware of the device is to be designed along with controlling the laser parameters to obtain the required therapeutic efficacy. Lastly, the research includes testing the effects of the device in the treatment of diabetic foot ulcers. The research team expects that this research will present an integrated treatment protocol for diabetic foot ulcers using laser.

A research entitled "Detection of Foot Deformity based on FSR Sensors and a Programmed Interface"

The research team consists of Dr. Muhammad Ayham Darwish and students, Muhammad Masri, Mojtaba Abd Hawiya, and Ahmed Othman. 

This research presents the design for an electronic and software environment to measure the pressure of the sole of the foot in several locations. The purpose of this environment is the detection of foot deformities. A pressure sensor of the type FSR 402 Series is placed under the foot to take an electrical value that is calibrated to suit the value of the pressure applied to the bottom of the foot. This sensor was controlled and its signal was processed using a program prepared especially for this purpose and designed using the MATLAB®R2019a environment that supports working on accurate signals with high temporal accuracy.

Share: