Biomedical Engineering
Biomedical Engineering also addressed as the medical engineering is the field of study that applies the design concepts and principles of engineering to biology and medical field with the purpose of improving healthcare facilities. . The field of engineering bridges up the gap between medical and engineering. It merges up the medical biological sciences with the problem solving and designing skills of engineer with for the betterment of the health care treatment. (For example: therapeutic and diagnostic).
This includes monitoring, diagnosis, and providing therapy. The scope of biomedical engineering is not just limited to the scientific boundaries. The biomedical engineers are also skilled to learn the management of latest medical equipment available in the hospitals while sticking to the appropriate standards of industry. The field also covers the creating equipment suggestions, and maintenance, procurement, routine testing, etc. All these roles are performed by the Biomedical Equipment Technician (BMET).
In comparison to the different fields of engineering, the Biomedical engineering has now evolving as its own study. This advancements are very common because new field transformation ae considered the field. Among the pre-existing fields these are not just with the multidisciplinary specialization. In the field of biomedical engineering, most of the work is based on research and development. The application of biomedical engineering are prominently used in the biocompatible prostheses development, multiple therapeutic and diagnostic medical devices. This ranges from development of medical equipment such as common imaging devices, regenerative tissue growth, therapeutic biologicals, EKG/ECGs and MRIs devices, micro-implants, and pharmaceutical drugs.
The Prominence of Biomedical Engineering[edit]
Biomedical engineering has emerged over the years in response to improvements in technology and science. Throughout history, humans have increases the development of the effective devices that are utilized in the diagnosis and treatment of diseases. This also mitigates, restore, or remunerate the disabilities and injuries.
The engineering is the broad discipline encompassing various fields such as mechanical engineering, computer engineering, instrumentation engineering, electronic engineering, biomedical engineering and so on. The students can understand from basic to advance level fundamentals and concepts of engineering that are mandatory to create a strong study base. Multiple topics are included in engineering field such as Civil Engineering, Structural Equation Modeling, Telecommunication, Robotics and Automation, Biomedical Engineering, Vapor Liquid and so forth. Here are some of the life-enhancing and life-saving technologies introduced by biomedical engineering:
- Prosthetics: Artificial limb replacements and debentures
- Surgical systems and devices for robotic and laser surgery
- Implanted devices such as pacmakers, artificial organs and insulin pumps.
- Physical therapy devices, exercise devices and wearable devices.
What Do Biomedical Engineers Do?[edit]
Biomedical engineers work in ample of settings and systems. They get opportunities to work in various industries that are associated with innovation, development, and design. The new technologies introduced by biomedical engineering is associated with academia furthering study. The field is dedicated to pushing the boundaries of what is medically plausible. It tests, implements, and develop new tools for diagnosis and other kinds of medical equipment. This also facilitates the establishment of safety standards for using medical devices. Most of the biomedical engineers get employed in competitive start-up enterprises while others start working as entrepreneurs.
Talking about the tissue and stem cell engineers, they work in the field of artificial recreation. It involves creating artificial human organs, assisting in operations and making millions lives better. The experts in medical devices often create the new implantable as well as external devices. The pacemakers, stents, coronary, prosthetics, orthopedic implant, ambulatory devices and dental products are some of the examples for it. Lastly, the clinical engineers are responsible to ensure that all the medical equipment is reliable and safe to be used in the clinical settings. Biomedical engineering is one notably a broad field that provides many opportunities to the aspirants to gain specializations.
Career Scope after Biomedical Engineering[edit]
In the past few years, CNN Money and popular rank list Forbes have entitled biomedical engineering as the best career in the health care industry. There are endless possibilities within the vast field of biomedical engineering. The entire field is dedicated to bring innovations in materials, technology, and knowledge. This indicates that breakthroughs of tomorrow can hardly be considered of today. A generation ago there was no such existence of the biomedical engineering as a field.
Majority of career opportunity in the biomedical engineering are based on individual interests. The huge scope of the field makes it possible for the biomedical engineers to develop specializations in a sphere that intrigues them. This can be modularization devices, biomaterials, stem cell engineering, orthopaedic repair, and so on. Biomedical engineers are expected to consolidate an ability to solve problem. They are trained with technical knowledge that is entirely focused on studying healthcare, medicine, and helping others. It is this intersection that has made this field so much innovative. The opportunity are simply infinite in biomedical engineering.
The Future of Biomedical Engineering[edit]
In the economic terms, every year the medical diagnostics get triple in market assessment. There has been the unprecedented improvements in medical diagnostics and imaging. These changes are transforming the process medication should be practiced. The innovation of the new medical devices, increasing research in laboratories is consistently becoming prominent in the biomedical engineers field all across the world. It has completely modified how trauma and disease should be dealt. The physicians are backed up with the power to extend the length and quality of human life.
Ultimately, the future of biomedical engineering is bright and fastened to both the problems and impediments. As we are discovering the progress and accomplishments in fields such as materials science, chemistry, and biology. Most of the other fields, interdisciplinary refers to the innovation. Everything origins from several inclinations at the equivalent time.
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