What would most likely not exist without biomedical engineering
Another (because I know the engineer who got the original patent) is when you get a eye exam, the device which shoots a poof of air at your eye, and recordes the bounce off as internal eye perssure...https://www.glaucoma.org/gleams/high-eye-pressure-and-glaucoma.php
What about digital hearing aids? That is engineering.
One field that would not exist in its current form without biomedical engineering is the development of medical devices. Biomedical engineering plays a crucial role in inventing, designing, and improving a wide range of medical devices and technologies. These include artificial organs, prosthetics, diagnostic tools, imaging systems, drug delivery systems, and surgical instruments.
To understand why biomedical engineering is essential in the development of medical devices, let's see how it works:
1. Identify the Need: Biomedical engineers work closely with healthcare professionals to identify areas where new devices or technologies are needed. This involves understanding the challenges faced in patient care, treatment, and diagnosis.
2. Conceptualization and Design: Biomedical engineers apply their knowledge of biology, physics, materials science, and engineering principles to develop concepts for innovative solutions. They consider factors like functionality, safety, ergonomics, and regulatory compliance during the design process.
3. Prototyping and Testing: Once a design is created, biomedical engineers develop prototypes of the device. These prototypes can be tested, refined, and optimized through rigorous experiments and simulations. This iterative process helps ensure that the device performs reliably and delivers accurate results.
4. Manufacturing and Quality Control: Biomedical engineers collaborate with manufacturers to translate the design into a manufacturing process. They ensure that the device is produced reliably and meets quality standards and regulatory requirements.
5. Clinical Trials and Regulatory Approval: Biomedical engineers play a role in conducting clinical trials to evaluate the safety and efficacy of medical devices. They work with regulatory bodies to obtain approvals and certifications necessary for market introduction.
6. Post-Market Surveillance and Improvement: Once a medical device is in use, biomedical engineers monitor its performance, gather user feedback, and analyze real-world data. This information is used to make improvements, address any issues, and ensure the continued safety and effectiveness of the device.
Overall, without biomedical engineering, the evolution and advancement of medical devices and technologies would be severely impacted. These devices play a vital role in improving patient care, enabling accurate diagnoses, and enhancing treatment outcomes.