Biomedical Engineering Lectures & Courses

Biomedical Engineering is known by various names such as BioMed, BME, and Bioengineering. It is a unique field which brings engineering and biology together. In simpler terms, it applies engineering principles and materials to healthcare and medicine.

In recent decades, we have seen a shift towards using more machinery and technology in medical field, and this trend has surged the demand of Biomedical Engineers. Hence, the combination of engineering principles with our body has helped Biomedical engineers to contribute to the development of life-saving and revolutionary concepts such as:

  •         Kidney dialysis
  •         Artificial organs
  •         pharmaceutical drugs
  •         Advanced prosthetics
  •         Surgical robots


Key Focus Area of the Course


We need to understand that Biomedical Engineering is a broad spectrum, and aspiring to become a biomedical engineers can focus on various areas in it. Key Areas are as follow:

  •         Cellular, Tissue and Genetic Engineering and Biomedical Electronics
  •         Biomaterials and Bio-nanotechnology
  •         Computational Biology and Medical Imaging


Eligibility Criteria


  •         Under Graduate (UG) - The candidate should pass with at least 50% marks in their class XII or the equivalent CGPA in a science major.
  •         Post Graduate (PG) - The candidate should have at least 60% of marks (first class) in their Under Graduation with Engineering major. If the grading system has CPI, then the candidate should have a minimum CPI of 6.5.


Biomedical Engineers Typically Do the Following Things


They primarily design biomedical devices and equipment such as artificial internal organs, replacements for injured body parts and develop machines for diagnosing various medical problems. Engineers would also be asked to test and check the efficiency, effectiveness, and safety of this biomedical equipment.

Often times they are asked to follow the research of a scientist about the human and animals, then help him understand how to use that research for a machine development or a design computer software to run the complicated instruments. Many are even involved in the production of new medical drugs which they can help discover with their knowledge of biology and chemistry. While others use their knowledge of math and physics to build models to understand the various behavior of our body, especially heart or brain.

As we can see, there is a lot of opportunities for a biomedical engineer to earn a good living in today’s world. But he needs to have an excellent understanding of the fundamental involved. He will have other people helping him, but a Biomedical Engineer needs to give them the direction with his knowledge.


Biomedical Engineering Subjects


Semester 1

Semester 2

Semester 3

Semester 4

Semester 5

  • 1.       Diagnostics and Therapeutic Instruments
  • 2.       Analog and Digital Circuit Design
  • 3.       Principles of Communication Engineering
  • 4.       Biomedical Digital Signal Processing

Semester 6

Semester 7

  • 1.       Life Saving and Surgical Equipment
  • 2.       Basics of VLSI
  • 3.       Medical Imaging 2

Semester 8

  • 1.       Biomedical Microsystems
  • 2.       Hospital Management

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36 Courses