image

Biomedical Engineering

What is the specialty of Biomedical Engineering:

This science is concerned with the study and development of diagnostic and therapeutic medical equipment and equipment used in the field of health care.

Medical Engineering, also known as biomedical engineering, is designed to solve medical problems by providing advanced engineering techniques that help doctors to diagnose and treat patients better. Medical equipment engineering has contributed significantly over the past years to the provision of many advanced medical devices.

The specialty of biomedical engineering opens the door for innovators to innovate and present inventions that benefit society in this vital area, which is a modern specialty that is undergoing remarkable development in the modern era. Medical engineering contributes to compensating patients and accident victims and facilitating their daily lives, through the manufacture and development of devices and techniques such as limbs, prostheses, and dentures, as well as surgical and microscopic devices (including vital marker control devices and systems, insulin pumps, pacemakers, and cardiac mapping).

History of Biomedical Engineering Specialization:

The achievements of biomedical engineering range from primitive devices, such as crutches, high-heeled shoes, wooden teeth - even modern equipment, such as pacemakers, cardiovascular devices, dialysis devices, diagnostic devices, various medical imaging techniques, artificial organs, and advanced prosthetics.

The importance of studying the specialty of Biomedical Engineering:

The importance of biomedical engineering for extreme and persistent medical needs is due to the development of medical equipment and equipment to assist in more rapid and effective diagnostics that contribute to the health of patients. One of the most important roles of the medical equipment engineer is to work within a set of standards that ensure the safety of equipment and equipment within hospitals.

Biomedical engineers have enough experience and study about the human body, its composition, and the importance of its organs, so it contributes to the development of new tissue culture devices instead of damaged tissue and improves prosthetics to be naturally compatible with human body organs, thus increasing their efficiency.

Biomedical Engineering courses:

  1. First school year:
  • Introduction to Medical Engineering
  • Chemistry of Life
  • Communication and academic reporting skills
  • Calculus
  • Physics
  • Introduction to Biology
  • Introduction to programming
  1. Second school year:
  • Human physiology
  • Electronic devices and circuits
  • Linear algebra and its applications
  • Differential equations
  • Modeling and simulation
  • Bio-mechanics
  • Signals and Systems
  • Intro in Precision Control Units
  • Turkish language and literature
  1. Third school year:
  • Biomaterials
  • Physiological signals and measuring devices
  • Principles of medical imaging
  • Therapeutic medical devices
  • Advanced medical device design
  • Clinical engineering applications
  1. Fourth school year:
  • Biometric Count
  • Capstone Project
  • Summer training
  • Non-technical aspects of engineering
  • Preparation of the graduation project

Fields of work for the Biomedical Engineering major:

  • Hospitals and health centers
  • Specialized medical companies
  • Research centers for the manufacture of medical equipment
  • Organizations that produce, sell, and supply medical equipment and supplies
  • Information processing units in health institutions

Best Universities for Biomedical Engineering in Turkey:

  • Bahcesehir University Istanbul
  • Istanbul Medipol University
  • Baskent University
  • Istanbul Ariel University
  • Biruni University

Best Universities for Biomedical Engineering in Russia:

  • Kharkiv University of Radio Electronics
  • Lviv National University of Technical Sciences (Polytechnic)
  • Kyiv National Technical University (Polytechnic)

Best Universities for Biomedical Engineering in Germany: 

  • Technical University of Munich
  • Study industrial engineering in Germany
  • TU Dortmund
  • TU Hamburg
  • Hannover University
  • University of Magdeburg
  • FH Aachen / Jülich