Career in Biomedical Engineering | Biomedical Engineers TV |

Biomedical Engineers TV
6 Nov 202007:12
EducationalLearning
32 Likes 10 Comments

TLDRThis video introduces biomedical engineering, a field that applies engineering principles to solve medical and biological problems. It explores the career opportunities available, such as R&D engineer, sales and marketing, application specialist, hospital biomedical engineer, and service engineer. The video emphasizes the importance of biomedical engineers in healthcare, especially during the pandemic, highlighting them as unsung heroes who work tirelessly to ensure medical devices function for patients.

Takeaways
  • 🤔 Biomedical engineering is a field for those who enjoy working in hospital environments and with patients.
  • 🔍 Biomedical engineers apply engineering principles to solve medical and biological problems, integrating various scientific disciplines.
  • 🏥 Career selection in biomedical engineering should consider personal interests such as working with medical equipment, research, or sales and marketing.
  • 🧬 Biomedical science is distinct from biomedical engineering, encompassing areas like microbiology and epidemiology.
  • 🎓 Education in biomedical engineering can lead to specialization in specific medical equipment or technologies.
  • đź’ˇ Innovation in biomedical engineering involves understanding existing technologies and developing new medical devices.
  • 🔧 Biomedical engineers can work in research and development to create and improve medical devices.
  • đź›’ Sales and marketing roles in biomedical engineering require an MBA in marketing and strong sales skills.
  • 🏥 Hospital biomedical engineers play a vital role in maintaining medical equipment, purchasing decisions, and educating users.
  • 🔧 Service engineers, also known as customer support engineers, are responsible for fixing and maintaining medical equipment in hospitals or workshops.
  • đź‘Ą Biomedical engineers are essential workers, contributing significantly to the healthcare sector, especially during pandemics.
Q & A
  • What is the primary focus of the video?

    -The primary focus of the video is to guide individuals interested in pursuing a career in biomedical engineering, explaining what the field entails and the various career options available after completing a program in this discipline.

  • What are some questions one should ask themselves before considering a career in biomedical engineering?

    -Some questions to consider include whether they enjoy working in a hospital environment, like working closely with patients, are willing to travel for work, are curious about how medical equipment functions, and have an interest in studying biomedical engineering or science.

  • How does the video differentiate between biomedical engineering and biomedical science?

    -Biomedical engineering involves the application of engineering principles to solve medical and biological problems, while biomedical science is a broader field that includes disciplines like medical microbiology, clinical virology, clinical epidemiology, and genetic epidemiology, with only a small part being related to biomedical engineering.

  • What is the role of a biomedical engineer in relation to medical doctors?

    -Similar to how doctors specialize in areas like urology or cardiology after completing their MBBS, biomedical engineers can specialize in specific medical equipment or technologies used in the healthcare sector, contributing to the development and improvement of these technologies.

  • What are some of the job profiles available in biomedical engineering?

    -Job profiles in biomedical engineering include R&D engineer, sales and marketing engineer, application specialist, hospital biomedical engineer, and service engineer or customer support engineer. There are also specialized roles like medical device calibration engineer and medical radiation test engineer.

  • What does the video say about the importance of knowing the sector one is interested in working in after completing a biomedical engineering program?

    -It is crucial to know the sector one wants to work in after completing their education because it helps in focusing on specific areas of expertise and preparing for the relevant job roles within the healthcare technology industry.

  • How does the video illustrate the evolution of technology in biomedical engineering?

    -The video cites the development of the EEG machine by Albert Grass in 1935 and the invention of the ME-1D, the world's first 8-channel direct-writing EEG machine by Nihan Koden in the 1950s, as examples of technological advancements in biomedical engineering.

  • What are the responsibilities of a hospital biomedical engineer?

    -A hospital biomedical engineer is responsible for maintaining records of medical equipment, making decisions on purchasing new equipment, reducing breakdown times, performing annual calibration, preventative maintenance, educating users on the use and cleaning of medical devices, and maintaining the life of reusable medical accessories.

  • What role did biomedical engineers play during the pandemic?

    -During the pandemic, biomedical engineers worked on the front lines to ensure medical devices functioned properly for patients in hospitals, often putting their own lives at risk. They are considered hidden heroes of the healthcare sector due to their tireless efforts.

  • How does the video encourage viewers to engage with the content?

    -The video encourages viewers to like the video, subscribe to the channel, and share their thoughts on biomedical engineering in the comment section to foster engagement and discussion around the topic.

Outlines
00:00
🎓 Introduction to Biomedical Engineering and Career Selection

This paragraph introduces the field of biomedical engineering, addressing common questions from newcomers about what it entails and the career opportunities available. It emphasizes the importance of self-assessment before pursuing a career in this sector, asking if one likes working in a hospital environment, with patients, traveling for work, and being curious about medical equipment. The distinction between biomedical engineering and biomedical science is clarified, highlighting that the latter is a broader field with various disciplines. The essence of biomedical engineering is succinctly explained as developing external body organs to support internal ones or creating diagnostic and monitoring devices. The educational pathway of a biomedical engineer is compared to that of a medical doctor, with specialization in specific equipment like EEG, ultrasound, MRI, and X-rays. The paragraph also touches on the importance of choosing the right sector of work after completing one's studies, especially for those interested in research and invention of new medical devices.

05:01
🏥 Roles and Responsibilities of Biomedical Engineers in Healthcare

This paragraph delves into the various roles and responsibilities of biomedical engineers within the healthcare sector. It outlines the duties of a hospital biomedical engineer, including maintaining medical equipment records, making decisions on purchasing medical equipment, reducing breakdown times, performing annual calibrations, and preventative maintenance. The role of educating users on the proper use, cleaning, and maintenance of medical devices is also highlighted. Other job positions such as service engineers or customer support engineers, who fix and calibrate equipment either in-house or on-site at hospitals, are discussed. The paragraph acknowledges the diverse opportunities available to biomedical engineers, including calibration, testing, and radiation testing roles. It concludes by honoring the contributions of biomedical engineers during the pandemic, recognizing them as unsung heroes of the healthcare sector who work tirelessly to ensure medical devices function for patients.

Mindmap
Keywords
đź’ˇBiomedical Engineering
Biomedical Engineering (BME) is the application of engineering principles and methods to medical and biological problems. It integrates various disciplines such as electrical, mechanical, chemical, and life sciences to develop new healthcare technologies and systems. In the video, BME is presented as a field that can lead to various career paths, including research, development, sales, and maintenance of medical equipment, highlighting its importance in the healthcare sector.
đź’ˇCareer Selection
Career selection is the process of choosing a profession based on one's interests, skills, and goals. In the context of the video, it involves self-assessment for individuals considering a career in biomedical engineering, asking if they enjoy working in a hospital environment, with patients, or are curious about medical equipment. The video emphasizes the importance of understanding one's preferences and aptitudes before entering the field.
đź’ˇMedical Equipment
Medical equipment refers to the devices, instruments, and machines used in healthcare for diagnosis, treatment, and monitoring of medical conditions. The video discusses the role of biomedical engineers in developing, maintaining, and improving these technologies. It highlights the significance of medical equipment in saving lives and improving patient care.
đź’ˇHealthcare Technologies
Healthcare technologies encompass the tools, software, and systems used to enhance the delivery of healthcare services. The video emphasizes that biomedical engineers play a crucial role in the development of these technologies, which aim to improve patient outcomes and streamline healthcare processes.
đź’ˇSpecialization
Specialization in the context of biomedical engineering refers to focusing on a specific area within the field, such as a particular type of medical equipment or a sub-discipline like clinical engineering. The video explains that after completing a degree in biomedical engineering, one can specialize in areas like EEG, ultrasound, or MRI technologies, similar to how doctors choose their medical specialties.
đź’ˇResearch and Development (R&D)
Research and development in biomedical engineering involves the investigation of new ideas, concepts, and technologies to create innovative healthcare solutions. The video highlights R&D as a key career path for those interested in inventing new medical devices or improving existing ones, emphasizing the importance of continuous innovation in the healthcare sector.
đź’ˇSales and Marketing
Sales and marketing in the biomedical engineering field involves promoting and selling medical products to healthcare providers. The video discusses this as a potential career path for those with a background in biomedical engineering and additional skills in sales and marketing, emphasizing the need for effective communication and understanding of medical devices.
đź’ˇApplication Specialist
An application specialist in biomedical engineering is a professional who educates users on the proper use of medical equipment, provides technical support, and assists in the implementation of new technologies. The video describes this role as crucial for the effective use of medical devices in healthcare settings, requiring strong communication and interpersonal skills.
đź’ˇHospital Biomedical Engineer
A hospital biomedical engineer is responsible for the management, maintenance, and upkeep of medical equipment within a hospital setting. The video outlines their duties, which include record-keeping, purchasing decisions, reducing equipment downtime, and ensuring the proper functioning and calibration of equipment, highlighting the critical role they play in the smooth operation of healthcare facilities.
đź’ˇService Engineers
Service engineers, also known as customer support engineers in the context of biomedical engineering, are responsible for the repair, calibration, and testing of medical equipment. The video explains that they either perform these tasks in a workshop or on-site at a hospital, emphasizing the importance of their role in ensuring that medical devices are functioning correctly and safely for patients.
đź’ˇPandemic
The pandemic mentioned in the video refers to the global health crisis caused by the COVID-19 virus. It highlights the critical role that biomedical engineers played during this time, working tirelessly to maintain and improve medical devices that were essential for patient care, underscoring their importance as unsung heroes in the healthcare sector.
Highlights

Biomedical engineering is a field that applies engineering principles to solve medical and biological problems.

Biomedical engineers often work in hospital environments and closely with patients.

Interest in traveling for work and curiosity about medical equipment are traits that can make one consider a career in biomedical engineering.

Biomedical science is a different stream from biomedical engineering, encompassing disciplines like medical microbiology and genetic epidemiology.

Biomedical engineering involves the development of external body organs to support internal ones or diagnostic and monitoring devices.

The educational path of a biomedical engineer is similar to that of a doctor, with specializations in specific medical equipment like EEG or MRI.

Biomedical engineers can work in research and development to invent new medical device concepts.

The profession of biomedical engineering includes roles like R&D engineer, sales and marketing engineer, application specialist, hospital biomedical engineer, and service engineer.

Biomedical engineers play a vital role in hospitals, maintaining medical equipment, reducing breakdown times, and ensuring preventative maintenance.

Service engineers, also known as customer support engineers, are responsible for fixing medical equipment both in-house and on-site at hospitals.

Biomedical engineers working during the pandemic are considered hidden heroes of the healthcare sector, working tirelessly to keep medical devices operational.

The video serves as a guide for newbies interested in pursuing a career in biomedical engineering.

The importance of choosing the right sector to work in after completing a diploma or bachelor's program in biomedical engineering is emphasized.

The video highlights the evolution of EEG technology, from Albert Grass's initial invention in 1935 to the development of the ME-1D in the 1950s.

Biomedical engineers are involved in understanding existing technologies and contributing to the development of new medical products that meet medical standards.

The video encourages learners to engage with the content by liking the video, subscribing to the channel, and sharing their thoughts on biomedical engineering in the comments.

Transcripts
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