Bachelor in Biomedical Engineering
Istanbul, Turkey
DURATION
4 Years
LANGUAGES
English
PACE
Full time
APPLICATION DEADLINE
Request application deadline
EARLIEST START DATE
Sep 2025
TUITION FEES
USD 9,000 / per year
STUDY FORMAT
On-Campus
Introduction
Engineers find a solution to a particular problem or meet a requirement of a tangible product (machinery, equipment, system, or process). An engineer designs, builds, operates, and examines the product and the behavior under different operating conditions in order to improve and develop it. Problems that need solutions and other complications enable engineers to expand and deepen their knowledge in the field. New engineering disciplines occur in this process. Biomedical Engineering has been one of these developing and growing momentums in the last fifty years.
Biomedical Engineering often deals in the areas of biological systems, in particular, organized high-level in a complex system, the components of the structure of the human body, understanding the interactions and functional impairment to identify and resolve the necessary tools needed, equipment, and system development.
Examples of the issues involved in biomedical engineering;
- Electronic devices such as EKG and MRI are used for diagnostic purposes, the design and manufacture of the following devices such as cautery and catheter tools are used for treatment purposes, dialysis machine devices, surgical robotic systems, the carrying of various drugs, when necessary the emission of micro-platforms such as artificial materials, hearing aids, instruments that increase the accuracy and sensitivity of limb and organ functions, bone and vascular prostheses and heart valves.
- Interfaces are designed, produced, and made ready for use by passing through performance testing equipment, systems, and processes in the areas of use of the high performance necessary to serve the development of the human-computer;
- To increase the quality and efficiency of health services various processes, management, and development of organizational models are established;
Biomedical devices and system performance tests are conducted to create various virtual platforms, mechanical and biological models, design, production, and testing.
Admissions
Curriculum
Course Structure
1st Semester
- Introduction to Biomedical Engineering
- Chemistry of Life
- Communications Skills and Academic Reporting I
- Calculus I
- Physics I
2nd Semester
- Introduction to Biology
- Introduction to Programming (C)
- Communication Skills and Academic Reporting II
- Child Law and Child Psychology
- Calculus II
- Physics II
3rd Semester
- Human Physiology
- Electronics Devices and Circuits
- Linear Algebra with Applications
- Differential Equations
- Turkish Language and Literature I
- GE-Elective
4th Semester
- Modeling and Simulation
- Biomechanics
- Seminar: Patent & Useful Model Protection (TTO)
- Signals and Systems
- Introduction to Microcontrollers
- Turkish Language and Literature II
5th Semester
- Biomaterials
- Physiological Signals and Instrumentation
- Principles of Medical Imaging
- Departmental Elective
- Non-Departmental Elective
6th Semester
- Therapeutic Medical Devices
- Advanced Biomedical Device Design
- Clinical Engineering
- Non-Departmental Elective
- GE-Elective
7th Semester
- Biostatistics
- Capstone Project I
- Summer Training
- Non-Technical Aspects of Engineering
- Atatürk's Principles and History of the Turkish Republic I
- Departmental Elective
- GE-Elective
8th Semester
- Capstone Project II
- Atatürk's Principles and History of the Turkish Republic II
- Departmental Elective
- Non-Departmental Elective
- GE-Elective
Program Admission Requirements
Show your commitment and readiness for Grad school by taking the GRE - the most broadly accepted exam for graduate programs internationally.