Bioengineering and biomedical engineering are related closely to biology, particularly biological and medical sciences. Both of these disciplines put emphasis on solving issues to improve the quality of human life. They help shape the modern world by linking medical and biological sciences with engineering sciences. For instance, biomedical engineering played a key role in the development of pacemakers that helped extend the life of many across the world. Bioengineering also has contributed to agricultural biological sciences in a positive manner by improving the quality of crops with the help of soil testing. Both these fields have attracted the interest of many industry professionals.
As a part of research at NTL Group Inc, Dr. Curtis Cripe particularly tries to delve into the genre of bioengineering.
Dr. Curtis Cripe talks about what makes bioengineering different from biomedical engineering
The areas of work in both bioengineering and biomedical engineering can be common. For example, a biomedical engineer might manage the tasks of a bioengineer in the healthcare sector. But there are also definite differences between these specializations. Bioengineering covers the basics of applied engineering in computer science, physics, chemistry, and mathematics to design and produce tools that help in the development of biological sciences. In certain ways, bioengineering represents the application of engineering principles to living tissues and cells. For instance, bioengineering contributes to the development of gene therapy, drugs, and even artificial organs. Its role in genetic editing is among the key examples that illustrate the importance of bioengineering. Technologies and research related to bioengineering, in fact, have also contributed to the production of many modern microbial vaccines.
Biomedical engineering, on the other hand, is a multidisciplinary specialization. It combines many engineering specializations with the biological and medical sciences and puts a higher focus on practical implementation in the medical field in comparison to bioengineering. As a result, this specialization can be considered to be an advanced version of bioengineering when it comes to medical science. It integrates engineering with clinical medicine and biomedical sciences with the aim of improving all aspects and levels of healthcare services. Biomedical engineers are usually involved in the designing, maintenance, validation, and calibration of various types of equipment that are commonly used in hospitals, clinics, and medical centers. Biomedical engineering and bioengineering are two extremely important advancements in the field of technology and science. Both of these sciences make use of basic principles of engineering. These principles may involve the use of systematic processes in designing and developing new technologies and products that can solve basic problems. However, biomedical engineering and bioengineering do differ in their focus and scope. Bioengineering is a broader field of study and includes biomedical within its sphere.
Bioengineering not only involves the application of engineering to medical and biological processes, but also in food, environment, and agriculture. On the other hand, biomedical engineering is keenly focused on the application of engineering to biological and medical sciences. Dr. Curtis Cripe points out that both biological engineering and biomedical engineering have surfaced as frontiers in the field of engineering over the decades.
