The graduate’s ability to mix biology and other physical sciences, such as non-destructive ones by nature, to study biological molecules, cells and tissues for disease detection, diagnosis, and treatment.
Graduate’s participation in the development and application of micro and microsensors to detect DNA, proteins, viruses, and other biological materials.Dealing with computers, software, operating systems and communication.
Coordination with related engineering disciplines.
Demonstrate dialysis machines used in hemodialysis.
Demonstrate buffer preparation, acid-base balance, and muscle demonstration.
Apply voltammetric sensors.
Apply signals using a variety of engineering tools like MATLAB.
Demonstrate the principle of operation of the X-ray machine.
Practice on a diathermy machine.
Illustrate the role of the main components of hemodialysis
Apply models on MATLAB Simulink software.
Practice brain stem, cranial nerve, and reflex examination.
use operating instruments in the ICU.
Use Scoop for organising information.
Practice in the Medical Research Institute.
Intensive Care Unit using safety analyzer.
Apply the appropriate analysis measure in different research techniques.
Use Prolog programming language to solve logic and decision problems.
Designing biomedical equipment and devices, such as artificial internal organs, replacements for body parts, and machines for diagnosing medical problems.
Installing, adjusting, maintaining, repairing, and providing technical support.
Manufacturing of medical equipment and supplies
Research and development in the physical, engineering, and life sciences
Navigational, measuring, electro-medical, and control instruments manufacturing